The Santa Ana River and Watershed Bibliography Water Resources Institute California State University, San Bernardino October 2004 The Santa Ana River and Watershed Bibliography Prepared for: Water Resources Institute California State University, San Bernardino 5500 University Parkway San Bernardino, CA 92407 Prepared by: Redlands Institute, University of RedlandsJacqueline Lesch, M.L.I.S. Pamela Arroues, M.L.I.S. Lisa Benvenuti Margaret Gooding Alli Nymeyer Alexandra Rackerby Michael Spencer Breanna Staggs Jenny Wong Contract No: GT40405 October 7, 2004 Citation: Water Resources Institute, California State University, San Bernardino (2004). The Santa Ana River and Watershed Bibliography. Prepared by Redlands Institute, University of Redlands, contract no. GT40405, Redlands, CA. Copyright© 2004 Water Resources Institute, California State University, San Bernardino. All rights reserved. Santa Ana River & Watershed Bibliography Table of Contents 1.0 Introduction................................................................................................................. 1 2.0 Basin-wide 2.1 Basin-wide Physical Environment........................................................................... 21 Basin-wide Climate................................................................................... 21 Basin-wide Geography.............................................................................. 22 Basin-wide Geology.................................................................................. 23 Basin-wide Hydrology .............................................................................. 25 Basin-wide Topography ........................................................................... 27 2.2 Basin-wide Environmental Issues............................................................................ 28 Basin-wide Biodiversity............................................................................ 29 Basin-wide Ecology ................................................................................. 36 Basin-wide Hazards/Disasters .................................................................. 38 Basin-wide Environmental Resources Management ............................... 42 Basin-wide Health and Safety................................................................... 62 Basin-wide Water Quality......................................................................... 63 2.3 Basin-wide Development and Use............................................................................ 82 Basin-wide History ................................................................................... 83 Basin-wide Settlement ............................................................................. 88 Basin-wide Agriculture and Other Uses ................................................. 100 Basin-wide Creative/Artisitc Expressions .............................................. 109 Basin-wide Litigation/Legal Issues......................................................... 110 3.0 Los Angeles County 3.1 Los Angeles County Physical Environment ......................................................... 119 Los Angeles County Climate .................................................................. 119 Los Angeles County Geology................................................................. 119 Los Angeles County Hydrology ............................................................. 119 3.2 Los Angeles County Environmental Issues .......................................................... 120 Los Angeles County Biodiversity........................................................... 120 Los Angeles County Ecology ................................................................ 120 Los Angeles County Hazards/Disasters.................................................. 120 Los Angeles County Environmental Resources Management ............... 121 Los Angeles County Health and Safety .................................................. 126 Los Angeles County Water Quality........................................................ 127 3.3 Los Angeles County Development and Use .......................................................... 128 Los Angeles County History................................................................... 128 Los Angeles County Settlement ............................................................. 130 iii Water Resources Institute, California State University San Bernardino Los Angeles County Agriculture and Other Uses................................... 134 Los Angeles County Creative/Artisitc Expressions................................ 136 Los Angeles County Litigation/Legal Issues.......................................... 137 4.0 Orange County 4.1 Orange County Physical Environment ................................................................. 141 Orange County Geography ..................................................................... 141 Orange County Geology ......................................................................... 141 Orange County Hydrology ..................................................................... 142 Orange County Topography .................................................................. 146 4.2 Orange County Environmental Issues .................................................................. 146 Orange County Biodiversity ................................................................... 146 Orange County Ecology ......................................................................... 149 Orange County Hazards/Disasters .......................................................... 149 Orange County Environmental Resource Management ........................ 151 Orange County Health and Safety .......................................................... 166 Orange County Water Quality ................................................................ 167 4.3 Orange County Development and Use.................................................................. 179 Orange County History ........................................................................... 179 Orange County Settlement ..................................................................... 190 Orange County Agriculture and Other Uses........................................... 209 Orange County Creative/Artisitc Expressions ........................................ 213 Orange County Litigation/Legal Issues .................................................. 214 5.0 Riverside County 5.1 Riverside County Physical Environment.............................................................. 219 Riverside County Geology...................................................................... 219 Riverside County Hydrology .................................................................. 220 5.2 Riverside County Environmental Issues............................................................... 221 Riverside County Biodiversity................................................................ 221 Riverside County Ecology ..................................................................... 223 Riverside County Hazards/Disasters....................................................... 223 Riverside County Environmental Resource Management ..................... 224 Riverside County Water Quality............................................................. 234 5.3 Riverside County Development and Use............................................................... 238 Riverside County History ....................................................................... 239 Riverside County Settlement ................................................................. 241 Riverside County Agriculture and Other Uses ....................................... 245 Riverside County Creative/Artisitc Expressions .................................... 250 iv Santa Ana River & Watershed Bibliography Riverside County Litigation/Legal Issues............................................... 250 6.0 San Bernardino County 6.1 San Bernardino County Physical Environment................................................... 255 San Bernardino County Climate ............................................................. 255 San Bernardino County Geography ........................................................ 256 San Bernardino County Geology ........................................................... 256 San Bernardino County Hydrology ........................................................ 257 San Bernardino County Topography ..................................................... 259 6.2 San Bernardino County Environmental Issues.................................................... 260 San Bernardino County Biodiversity ...................................................... 260 San Bernardino County Ecology ........................................................... 262 San Bernardino County Hazards/Disasters............................................. 262 San Bernardino County Environmental Resources Management .......... 263 San Bernardino County Health and Safety ............................................. 275 San Bernardino County Water Quality ................................................... 276 6.3 San Bernardino County Development and Use.................................................... 282 San Bernardino County History.............................................................. 282 San Bernardino County Settlement ........................................................ 284 San Bernardino County Agriculture and Other Uses.............................. 290 San Bernardino County Litigation/Legal Issues ..................................... 295 List of Figures 1-Santa Ana River Watershed Boundaries ......................................................................... 5 2-Santa Ana River Watershed Vegetation .......................................................................... 7 3-Santa Ana Riverside Watershed Threatened and Endangered Species Habitat ............. 9 4-Santa Ana River Watershed Flood Hazard Zones ......................................................... 11 5-Santa Ana River Watershed Earthquark Faults ............................................................ 13 6-Santa Ana River Watershed Historic Features .............................................................. 15 7-Santa Ana River Watershed Urban Population Growth ............................................... 17 8-Santa Ana River Watershed Water Use Facilities ......................................................... 19 9-Areas of Los Angeles County within the Santa Ana River Watershed ...................... 117 10-Areas of Orange County within the Santa Ana River Watershed ............................. 139 11-Areas of Riverside County within the Santa Ana River Watershed ......................... 217 12-Areas of San Bernardino County within the Santa Ana River Watershed ............... 253 v Water Resources Institute, California State University San Bernardino This page intentionally left blank vi Santa Ana River & Watershed Bibliography 1.0 Introduction One of the largest river systems in Southern California, the Santa Ana River has been largely channelized, diverted, and urbanized. Once inhabited solely by Native American tribes, today the watershed is home to more than 4.8 million people and has one of the fastest growing populations in California. The watershed spans four counties in Southern California and faces multiple environmental and urban stresses. Several planning efforts recognize the need for better resource management and watershed restoration opportunities. Background material serves to inform resource management and watershed restoration. Research materials related to the Santa Ana River and its tributaries exist in many forms, from expert witness testimony to electronic statistical data, and the material continues to grow. The Water Resources Institute at California State University, San Bernardino has the goal of a comprehensive, interdisciplinary bibliography of all resources related to the Santa Ana River and its tributaries. This bibliography is a work in progress and incomplete. It represents the first step towards an online, spatially-referenced research tool. The Water Resource Institute will continue to add material as they are published and identified. Scope The time period covered by the bibliography is 1800 to 2004. Topics include: climate, geography, geology, hydrology, topography, biodiversity, ecology, hazards/disasters, environmental resource management, health and safety, water quality, history, settlement, agriculture and other uses, creative and artistic expressions, and water rights litigation (figures 1 – 8). The bibliography includes citations from a variety of fields including environmental science, business, economics, law, history, and general social sciences. The bibliography includes selected books, maps, government documents, technical reports and studies, legal cases and records, periodical and newspaper articles, manuscripts, and oral histories. Due to the large number of maps and road guides published on Southern California, only a select few have been included to represent the changing infrastructure and landscape throughout the decades. Broader Southern California references have been included to give historical, political, and geographical context to the river and watershed. Due to the unstable nature of Internet resources, only a select few have been included. Abstracts or summaries have been included when available. 1 Water Resources Institute, California State University San Bernardino Compilation This bibliography represents the first phase towards the goal of a comprehensive bibliography of the Santa Ana River and Watershed. The primary methodology of this phase was to identify resources available through electronic indexes, scholarly databases, and online library catalogs. Approximately 6,000 citations were retrieved and transferred to Endnote™ 7.0, a bibliographic management application. The citations were reviewed for relevancy and categorized by topic and geographic area. 2, 403 citations have been retained from the original 6,000 to produce this bibliography. Online indexes, scholarly/academic databases, and library catalogs searched include: • • • • • • • • • • • • • • • • • • • • • • • • 2 ABI/Inform Agricola America: History & Life Art Abstracts ASTA - Applied Science & Technology Abstracts BioAgIndex BasicBIOSIS Books In Print Chemical Abstracts Student Edition Econlit Environline FactSearch General Science Abstracts Impact/ACCESS GDCS - Government Documents Cataloging Service JSTOR Lexis-Nexis Academic Universe MLA Bibliography NetLibrary - E-Books PAIS ProQuest Reader's Guide Abstracts Science Citation Index WilsonSelect Plus Library Catalogs: o University of Redlands Armacost Library Catalog o County of Los Angeles Public Library System o Riverside Public Library o Orange County Public Library System o San Bernardino County Library System o Pharos (California State University Union Catalog) o MELVYL (University of California Union Catalog). Santa Ana River & Watershed Bibliography In addition, books of historical interest were reviewed for citations. Arrangement The bibliography is divided into five sections by geographic boundary: 1) Basin-wide, 2) Los Angeles County (Figure 9), 3) Orange County (Figure 10), 4) Riverside County (Figure 11), and 5) San Bernardino County (Figure 12). Each section includes three divisions: physical environment, environmental issues, development and use. Each citation appears only once in the bibliography, however enhanced searching options will be made available online from: http://wri.csusb.edu . Bibliographic entries follow style guidelines based upon the American Psychology Association Publication Manual 5th Edition. Citations that cover more than one county have been placed in section 1: Basinwide. Citations covering more than one topic appear at the beginning of each division under “General Information.” The bibliography is arranged alphabetically by the first author’s last name, the year (oldest – recent), and title. 3 Water Resources Institute, California State University San Bernardino This page intentionally left blank 4 Santa Ana River & Watershed Bibliography 2.0 Basin-wide 2.1 Basin-wide Physical Environment General Information Los Angeles area (1966). [1 atlas (120 p.)] H.M. Gousha Company. Hamlin, S. N., Belitz, K., & Paybins, K. S. (1999). Santa Ana Basin [Booklet] (fact sheet No. FS99-054). San Diego, CA: n.p. Patterson, J. A. (1968). A study of the Santa Ana River. Unpublished Thesis (M.A.), Chapman College, Orange, CA. Santa Ana Watershed Planning Agency, & Water Resources Engineers. (1970). Watershed climate, geohydrology, and water quality: A final report on Task II-3. Walnut Creek, CA: Water Resources Engineers Inc. U.S. Army Corps of Engineers. (1949). Santa Ana River and tributaries, California. Washington, DC: U.S. Government Printing Office. Letter from the Secretary of the Army transmitting letter from the Chief of Engineers, United States Army, dated September 27, 1948, submitting a report, together with accompanying papers and an illustration, on a preliminary examination and survey of Santa Ana River and tributaries, California ... authorized by the Flood Control Act approved on August 28, 1937 U.S. Geological Survey. (1998). Digital orthophoto quadrangle (DOQ) data. GUASTI-CA-NE, GUASTI-CA-NW, GUASTI-CA-SE, GUASTI-CA-SW, YORBA-LINDA-CA-NE, YORBA-LINDA-CA-NW, YORBA-LINDA-CA-SE, YORBA-LINDA-CA-SW, PRADO-DAM-CA-NE, PRADO-DAM-CA-NW, PRADO-DAM-CA-SE, PRADODAM-CA-SW, CORONA-NORTH-CA-NE, CORONA-NORTH-CA-NW, CORONANORTH-CA-SE, CORONA-NORTH-CA-SW, FONTANA-CA-NE, FONTANA-CANW, FONTANA-CA-SE, FONTANA-CA-SW, CUCAMONGA-PEAK-CA-NE, CUCAMONGA-PEAK-CA-NW, CUCAMONGA-PEAK-CA-SE, CUCAMONGAPEAK-CA-SW (Version Format: GeoTIFF; Image type: black and white; Resolution: 1.0 meter; Map projection: UTM; Datum: NAD83) [Graphic data (digital orthophoto quadrangle (DOQ) images)]. Sioux Falls, SD: U.S. Geological Survey. Wachtell, J. K. (1978). Soil survey of Orange County and western part of Riverside County, California. Washington, DC: United States Soil Conservation Service. Basin-wide Climate Bacon, T. R. (1965). Cloud seeding over the Upper Santa Ana River Watershed. San Bernardino, CA: San Bernardino Valley Municipal Water District. 21 Water Resources Institute, California State University San Bernardino Battle, J. A. (1951). Report of cloud-seeding experiments in the Santa Ana River watershed and Escondido drainage area, November 1, 1950 through April 15, 1951. Beaumont, CA: Santa Ana River Weather Corp. Cloud-seeding experiments in the San Diego County and the Santa Ana River Watershed : November 1, 1951 through April 15, 1952. (1952). Beaumont, CA: Santa Ana River Weather Corp. Larson, D. O. (1994). California climatic reconstructions. Journal of Interdisciplinary History, 25(2), 225-253. Contrasts information from historical accounts of river flows of the Los Angeles, San Gabriel, and Santa Ana rivers of Southern California with instrument measurements of rainfall and dendrochronology. The record provided by tree rings of wet and dry climatic cycles parallels the record provided by traditional sources. Mainly secondary sources; 30 notes. North American Weather Consultants. (1959). Evaluation of an artificial nucleation program in the Santa Ana River Basin, October, 1958 thru May, 1959. Goleta, CA: Author. North American Weather Consultants. (1960). Evaluation of an artificial nucleation program in the Santa Ana River Basin, November 1959 through May 1960. Goleta, CA: Author. Todd, C. J. (1956). Report on cloud-seeding operations carried on over the Santa Ana River Watershed, November 1, 1955, to April 15, 1956. San Jose, CA: Weather Modification Company. Weathermeasure Corporation. (1968). Feasibility and design study for a weather modification program on the Upper Santa Ana River Watershed. Sacramento, CA: Author. Basin-wide Geography Southern California street and recreation guide: Los Angeles area. (1966). n.p.: H.M. Gousha Company. Cities, communities and freeways in the Los Angeles five county area (1972). [Transparent plastic overlay map]. Southern California Edison service territory map (1973). Digital orthophoto quadrangle (DOQ) data. (1998). Buchner, P. (Cartographer). (1950). Inland aqueduct route, plan and profile [3 maps and 3 profiles on 3 sheets]. Carthew, A. W. (1931). The lower basin of the Santa Ana River. Unpublished Thesis (M.A.), University of California, Berkeley, CA. 22 Santa Ana River & Watershed Bibliography Dunn, J. E., U.S. Dept. of Agriculture Bureau of Soils, & University of California Agricultural Experiment Station. (1921). Reconnoissance soil survey of the central southern area, California ("Advance sheets--Field operations of the Bureau of Soils, 1917."). Washington, DC: U.S Government Printing Office. Santa Ana River-Santiago Creek Greenbelt Commission (1976). Santa Ana River-Santiago Creek greenbelt landscape guide. Basin-wide Geology Gravity map of California (1967). San Francisco, CA: California Division of Mines and Geology. Each map sheet accompanied by sheet of "Explanatory data" pertaining to the geologic map and a text pertaining to the gravity map. Contour interval 200 feet with supplementary contours at 100 foot intervals. Gravity anomaly contour interval: land, 5 milligals; ocean, 5 and 10 milligals. [1] Alturas.- [2] Bakersfield.- [3] Chico.- [4] Death Valley.- [5] Fresno.- [6] Kingman.- [7] Long Beach.- [8] Los Angeles.- [9] Mariposa.[10] Needles.- [11] Redding.- [12] Sacramento.- [13] Salton Sea.- [14] San Bernardino.[15] San Diego.- [16] San Francisco.- [17] San Jose.- [18] San Luis Obispo.- [19] Santa Ana.- [20] Santa Cruz.- [21] Santa Maria.- [22] Santa Rosa.- [23] Tiona.- [24] Ukiak.[25] Walker Lake.- [26] Weed.- [27] Westwood (Susanville). Blanc, R. P., & Cleveland, G. B. (1968). Natural slope stability as related to geology, San Clemente area, Orange and San Diego Counties, California (No. 70627702). San Francisco, CA: California Division of Mines and Geology. California Department of Water Resources Southern District. (1969). Geology and construction materials data Santa Ana Valley pipeline, Devil Canyon Powerplant to Mill Street : state water facilities, California Aqueduct, Santa Ana Division, San Bernardino County, California (Project geology report No. D-115). Los Angeles, CA: State of California Resources Agency, Dept. of Water Resources, Southern District, Design and Construction Branch. California Department of Water Resources Southern District. (1970). Geology and construction materials data Santa Ana Valley pipeline, Mill Street to Sugarloaf Mountain: State water facilities, California Aqueduct, Santa Ana Division, Riverside and San Bernardino Counties, California. Los Angeles, CA: State of California Resources Agency, Dept. of Water Resources, Southern District, Design and Construction Branch. California Department of Water Resources Southern District. (1970). Office report, geologic exploration Santa Ana Valley pipeline, Mill Street to Sugarloaf Mountain: State Water Facilities, California Aqueduct, Santa Ana Division, Riverside and San Bernardino Counties, California. Los Angeles, CA: State of California Resources Agency, Dept. of Water Resources, Southern District, Design and Construction Branch. Dickerson, R. E. (1914). The Martinez and Tejon eocene and associated formations of the Santa Ana Mountains. Bulletin, 8(11), 257-274, pls. 226-228. Fife, D. L. (1978). Selected bibliography for urban geology in the upper Santa Ana River Valley area to September 1978. Irvine, CA: South Coast Geological Society. 23 Water Resources Institute, California State University San Bernardino Geological Survey of California (Cartographer). (1870). Map of portion of Southern California from the Santa Inez River to the Santa Ana River [1 ms map]. Gray, C. H., Jr. (1961). Geology of the Corona south quadrangle and the Santa Ana narrows area Riverside, Orange, and San Bernardino Counties, California and mines and mineral deposits of the Corona south quadrangle Riverside and Orange Counties, California (Bulletin 178). San Francisco, CA: California Division of Mines. MacKevett, E. M. (1951). Geology of the Jurupa Mountains, San Bernardino and Riverside Counties, California (No. gs 51000107). San Francisco, CA: Department of Natural Resources. Moody, G. B. (1935). Unconformity exposed in Santa Ana Mountain foothills. American Association Petroleum Geologists Bulletin, 19, 1841-1842. Moore, B. N. (1931). Geology of the Santa Ana Mountains (abstract). Geological Society of America Bulletin, 42, 291-292. Morton, D. M. (Cartographer). (1976). Geologic, fault, and major landslide, and slope stability maps. Pentegoff, V. P. (1956). Geology, lower feeder, schedule 75P and Santiago Lateral, schedues 90P and 91P. Los Angeles, CA: Metropolitan Water District of Southern California. Powell, R. E., R. J. Weldon, I., & Matti, J. C. (1993). The San Andreas fault system: Displacement, palinspastic reconstruction, and geologic evolution. Boulder, CO: Geological Society of America. Raschke, R. E. (1984). Early and Middle Miocene vertebrates from the Santa Ana Mountains, California. In B. Butler, J. Gant & C. Stadum (Eds.), The Natural Sciences of Orange County (Vol. 1, pp. 61-67). Huntington Beach, CA. Reynolds, R. E., & Reynolds, J. (Eds.). (1993). Ashes, faults and basins (Vol. 93-1). Redlands, CA: San Bernardino County Museum Association. Richmond, J. F. (1952). Geology of Burruel Ridge, northwestern Santa Ana Mountains, California. San Francisco, CA: California Division of Mines. Schoellhamer, J. E. (1981). Geology of the northern Santa Ana Mountains, California. Washington, DC: U.S. Government Printing Office. Smith, P. B. (1960). Foraminifera of the Moterey Shale and Puente Formation, Santa Ana Mountains and San Juan Capistrano area, California (Geological Survey professional paper). Washington, DC: U. S. Government Printing Office. Vedder, J. G. (1950). The eocene and paleocene of the northwest Santa Ana Mountains. Unpublished Thesis (M.A.), Claremont College, Claremont, CA. White, K. L. (1976). Pedogenic chronology of the Santa Ana River terraces. Unpublished Dissertation (Ph.D.), University of California Riverside, Riverside, CA. 24 Santa Ana River & Watershed Bibliography Basin-wide Hydrology Amirani, T. (1981). Santa-Ana River sediment-hydraulic study. Unpublished M.S., California State University, Long Beach, Long Beach, CA. Bean, R. T. (1955). Santa Ana River investigation (Draft). Sacramento, CA: State of California State Water Resources Board. Bedros, M., & Tompkins, E. (1980). Ground water basin objectives for Upper Temescal subarea (Memorandum report). Los Angeles, CA: California Dept. of Water Resources, Southern District. California Coastal Conservancy. (2001, August 21, 2001). Santa Ana River hydrologic unit profile. Retrieved March 16, 2004, 2004, from http://www.wrpinfo.scc.ca.gov/watersheds/briefs/santaanariver/ California Division of Water Resources. (1948-1954). Southern California area investigation ground water levels and precipitation records in Los Angeles, San Gabriel and Santa Ana River Basins and Antelope Valley and water supply summary for southern portion of California. Sacramento, CA: State of California, Dept of Public Works, Division of Water Resources. California Division of Water Resources. (1953-1956). Ground water levels and precipitation records in Los Angeles, San Gabriel and Santa Ana River Basins and Antelope Valley and water supply summary for southern portion of California (No. 39-Q (1953)-No.39-W (1956)). Sacramento, CA: State of California, Dept of Public Works, Division of Water Resources. California Legislature Joint Committee on Water Problems. (1953). Underground water depletion problems, west coastal basin and central basin, Los Angeles County and south coastal basin, Orange County, North San Francisco Bay barrier, Sacramento River seepage and erosion problems, Trinity River division, Central Valley Project of California, stockwater problems in Stony Creek Basin (Sixth partial report). Sacramento, CA: California State Printing Office. Carson, S. E., & Matti, J. C. (Cartographer). (1982). Contour map showing minimum depth to ground water, upper Santa Ana River valley, California, 1973-1979 Dasker, D., & Campbell, S. G. (1966). Rising water at Prado (Technical information record study No. 335-3-B-10). Los Angeles, CA: State of California Resources Agency, Dept. of Water Resources, Southern District Planning Branch. Davisson, M. L., & Lawrence Livermore National Laboratory. (1996). Report on the feasibility of using isotopes to source and age-date groundwater in Orange County Water District's Forebay region, Orange County, California (No. UCRL-ID-123953). Springfield, VA: National Technical Information Service distributor. Dutcher, L. C., & Fenzel, F. W. (1972). Ground- water outflow, San Timoteo- Smiley Heights area, upper Santa Ana Valley, Southern California, 1927 through 1968. Menlo Park, CA: U. S. Department of the Interior, Geological Survey, Water Resources Division. 25 Water Resources Institute, California State University San Bernardino Los Angeles County Dept. of Public Works Hydraulic Division. (1989). Hydrology manual (Rev. ed.). Alhambra, CA: Author. Mendez, G. O., Belitz, K., & U.S. Geological Survey. (2002, July 1-3, 2002). Identifying sources of baseflow in the Santa Ana River, California. Paper presented at the American Water Resources Association: 2002 Summer Specialty Conference Proceedings: Ground Water/Surface Water Interactions, Keystone, CO. The Santa Ana River is an important source of groundwater recharge for aquifers in Orange County, California. Under base-flow conditions, a substantial percentage of the Santa Ana River consists of treated wastewater. The objectives of this study were to characterize the interaction between the Santa Ana River and the shallow groundwater system, and to quantify the percentage of wastewater and other sources of flow in the Santa Ana River. To accomplish these objectives, stream discharge and dye-tracer concentrations were measured in the Santa Ana River and its tributaries. The study area was divided into an upper reach (8 mi) and lower reach (10 mi). Discharge measurements were made at 10 sites along the river, including a USGS gauging station (Santa Ana River at MWD Crossing), and on 5 tributaries. Water samples were collected every 5 to 10 minutes at seven sites to measure Rhodamine WT dye concentrations. The dye concentrations allow for a Lagrangian interpretation of the discharge data. By measuring the discharge associated with the same mass of water, the percentage of wastewater can be quantified. The flow of the Santa Ana River at MWD Crossing, the end of the upper reach, was about 68 percent wastewater; and, at the Powerline site, the end of the lower reach, wastewater increased to approximately 77 percent of total flow. Orange County Environmental Management Agency. (1996). Retrieval program. Santa Ana, CA: Author. Piper, A. M., & Poland, J. F. (1943). Progress report on the cooperative ground-water investigation in the Long Beach-Santa Ana area, California. Los Angeles, CA: U.S. Geological Survey. Poland, J. F., Orange County Flood Control District, Orange County Water District, Los Angeles County Flood Control District, & Board of Water Commissioners of the City of Long Beach. (1959). Hydrology of the Long Beach-Santa Ana area, California: With special reference to the watertightness of the Newport-Inglewood structural zone (Geological Survey water-supply paper No. 1471). Washington, DC: United States Government Printing Office. 26 Santa Ana River & Watershed Bibliography Schroeder, D. J., Harley, B. M., & Christing Mejia, P. E. (1989). Seawater intrusion barrier evaluated with 3-D groundwater modeling. Water Engineering & Management, 136(2), 26. In 1986, the Los Angeles County Department of Public Works (LADPW) sought assistance in modeling and analyzing a freshwater injection barrier's operation. The barrier protects critical groundwater supply basins in the greater Los Angeles area from saltwater intrusion. Recent concern focused on the movement of a wedge of saltwater that had intruded into the basin beyond the barrier and showed progressive movement inland. The County was concerned that the wedge may have indicated a basic flaw in the barrier. The first step of the study was to develop models that would reasonably represent the basin's hydrogeologic system. Once calibrated, the models could be used for simulating future conditions under the assumption that current barrier operations would be continued. The results showed that the barrier would generally remain effective, with isolated deficiencies. With these results, the County is able to ask some "what if" questions about operation of the barrier and the basin for optimum water quality management. South coastal basin investigation including San Jacinto Valley and Antelope Valley; ground water levels, precipitation records. (Bulletin of the California Division of Water Resources No. 39)(1940). Sacramento, CA: California Division of Water Resources. U.S. Department of Agriculture Division of Agricultural Engineering. (1930). Rainfall penetration and consumptive use of water in Santa Ana River valley and coastal plain. (cooperative progressive report). Sacramento, CA: United States Bureau of Public Works. Warne, W. E. (1965). Hydrologic data, 1963 Part 2, Lahontan, Colorado River Basin, Santa Ana and San Diego Drainage Provinces. Appendix C: Ground water measurements (California Department of Water Resources Bulletin No. 130-63). Sacramento, CA: California Department of Water Resources. Basin-wide Topography Surface management status. (1985). [30x60 minute series (topographic)]. Reston, VA: U.S. Bureau of Land Management. U.S. Geological Survey (1935). Santa Ana River area, California, topographic maps [19 maps]. 27 Water Resources Institute, California State University San Bernardino 2.2 Basin-wide Environmental Issues General Information California. (1982). Engineering News - Record, 68 words. E. L. Yeager Construction Co., P.O. Box 87, Riverside 92502, was apparently low bidder at $11,101,405 for Deer Creek and Hillside channels, Hillside and Deer Canyon debris basins, and Deer Canyon separator Ievee, (B0099), Haven Ave. to Debris Basins, Santa Ana River Basin, San Bernardino County, when U.S, Army Corps of Engineers, 300 N. Los Angeles St., P,O. Box 2711, Los Angeles 90053, opened bids. California. (1986). Engineering News - Record, 72 words. E. L. Yeager Construction Co., P.O. Box 87, Riverside 92502, was apparently low bidder at $ 30,520,447 for six-lane freeway and structures (08-171404), Rte. 15 from south of Sixth St. to south of Riverside Ave., and on Rte. 31 from Santa Ana River bridge to north of Rte. 60 (08-RIV, SBD-15,31-45.5/50.8;4.6/9.9), Norco and Ontario, when State of California, Dept. of Transportation, 1120 "N" St., Sacramento 95814, opened bids. Environmental guide. (1990). v. Colburn, I. P. (2003, November 12). Santa Ana River: let nature take its course. Los Angeles Times, p. 260 words. Dredging the Santa Ana River and dumping any part of the spoils at sea is a very bad idea. All of the accumulated sediment in the riverbed is en route to the coast. Most of it is sand, and none of that sand should be wasted by dumping any part of it at sea, as proposed by the U.S. Army Corps of Engineers. If dredging must be done, the sediment should be extracted over an extended period of time, which would allow for the spoils to be gradually placed on the beaches at Newport, Huntington, Seal and Surfside. With Seven Oaks dam in the San Bernardino Mountains, numerous other flood-control dams and the mining of sand and gravel from the bed of the river and its tributaries, the beaches have steadily been deprived of sand nourishment. Don't make the situation any worse by wasting the sand from the lower Santa Ana riverbed. The only time sand is moved to the coast is by flooding rivers. Without flood waters, the sand in the riverbeds does not move. This creates a big conflict for the corps: It does everything it can to prevent flood damage, but flood waters move sand to the coast -- and the sand builds berms at the coast, which protect coastal property. The waves attack our sand-diminished beaches and destroy coastal property. Then the corps comes to the rescue and builds groins, etc., to protect the coastal property on the beaches. This is how the corps has managed to keep its work schedule so full. Cooper, E. (1950-). Papers.Unpublished manuscript, n.p. Press releases, speeches, clippings, reports and miscellaneous memoranda on California water resources development in period 1950-1965. Frandsen, P. (1994). Team Arundo: An interagency success story. Proceedings, 46, 157-161. 28 Santa Ana River & Watershed Bibliography Gaffney, M. (1997). What price water marketing? California's new frontier. The American Journal of Economics and Sociology, 56(4), 475. One can multiply the value of output from limited natural water supplies by allocating them to higher uses. To this end, one needs a market in raw water, but existing markets work badly, for several reasons. Sellers are undermotivated, absent taxes or debt. Free groundwater subverts the pricing of surface water. Loss of elevation, damage from effluents, and instream uses are not charged for. Obsolete subsidies abound and obsolete entitlements dominate allocation. Some trades distinguish public rights. Rent-seeking distorts allocation. Needed public agencies have been subverted by organized land speculators. Recommendations are given. Motavalli, J. (2001). The gold crush. E : the Environmental Magazine, 12(6), 26. With its population growing faster than that of Bangladesh, California's environment is approaching a crisis point. Each year, California loses some 122,000 acres, or 1.5 percent of its open space, to relentless urban sprawl. San Bernardino Associated Governments, Parsons Brinckerhoff Quade and Douglas Inc., & United States Army Corps of Engineers Los Angeles District Operations Branch. (1995). State Route 71 Borrow Site Excavation and Material Transport Stockpile and Fill Site (Draft initial study/environmental assessment). Orange, CA: Parsons, Brinckerhoff, Quade and Douglas. Basin-wide Biodiversity Why are wetlands so important? (1992). Agfocus: publication of Cornell Cooperative Extension-Orange County, 9. Endangered rats gnaw at region's growth. (2002, Jun 3, 2002). The Business Press, p. 4. Some of the area's largest economic revitalization projects could be delayed indefinitely now that the U.S. Fish and Wildlife Service has designated 33,295 acres of San Bernardino and Riverside counties as critical habitat for the endangered San Bernardino kangaroo rat. The San Bernardino Municipal Water Department is studying how the new habitat designation will affect a 117-acre site it wants to sell to Arrowhead Credit Union for a new $100 million corporate campus. Ali, A., & Mulla, M. S. (1977). Chemical control of nuisance midges [Chironomus, Tanytarsus, Procladius] in the Santa Ana River Basin, Southern California. Journal of Economic Entomology, 70(2), 191-195. Ali, A., Mulla, M. S., Dhillon, M. S., & Long, S. J. (1977). Prevalence of nuisance midge [Diptera: Chironomidae] on premises adjacent to the Santa Ana River spreading system. Proceedings and papers of the annual conference of the California Mosquito and Vector Control Association, 219-221. Anderson, V. L., & Natural History Museum of Los Angeles County. (1991). Type specimens of algae in the Herbarium of the Natural History Museum of Los Angeles County. Los Angeles, CA: Natural History Museum of Los Angeles County. 29 Water Resources Institute, California State University San Bernardino Atallah, Y. C. (2001). Assessing the reproductive biology of the Santa Ana River woolly star, Eriastrum densifolium ssp. sanctorum (Milliken) Mason (Polemoniaceae) (California). MAI, 40(03), 62. This study assessed factors that affect reproductive success of Eriastrum densifolium ssp. sanctorum (Eds), a self-incompatible endangered perennial plant. It determined whether seed production is limited by resource allocation or pollinator activity and examined the influence of predation. The literature predicts that pollinator limitation in outcrossers would result in less than 33% fruit set. Hummingbirds and the Giant Flower Loving Fly were the most common pollinators. Reproductive success of Eds appears to be both pollinator and resource-limited and was affected by predation. Clearly, high predation may influence Eds population growth. DeBach, P., Fisher, T. W., & Landi, J. (1955). Some effects of meteorological factors on all stages of Aphytis Lingnanensis, a parasite of the California Red Scale. Ecology, 36(4), 743-753. Dhillon, M. S., & Mulla, M. S. (1982). Urban underground mosquitoes: Development of integrated pest management strategies (Mosquito control research: annual report): n.p. Dhillon, M. S., & Mulla, M. S. (1983). Information on urban underground mosquitoes for use in devleoping integrated pest management strategies (Mosquito control research: annual report). Erickson, M. (1993). Optimal outcrossing and pollinator foraging distance in the Santa Ana River Woolly Star, Eriastrum densifolium ssp. sanctorum (Milliken) Mason (Polemoniaceae). Unpublished M.A., California State University Fullerton, Fullerton, CA. Eriastrum densifolium ssp. sanctorum is an endangered perennial plant endemic to the floodplain of the Santa Ana River in San Bernardino County, California. Its subpopulations are spatially separated in a range of successional habitats. Two of these subpopulations, representative of an early and middle successional stage, were examined to identify the primary pollinators and to determine if the mean interplant flight distance of those pollinators could explain the documented difference in genetic diversity between the subpopulations. The primary pollinators of the two subpopulations were different, and there was a significant difference in mean interplant flight distance of those pollinators at each site. Fox, C. W. (2000). Natural selection on seed-beetle egg size in nature and the laboratory: Variation among environments. Ecology, 81(11), 3029. The size of eggs that evolves within a population will in theory reflect a balance between selection for large eggs and for increased fecundity. Theory also predicts that the intensity of selection for large eggs (via effects of egg size on progeny survival and growth) increases as environmental quality decreases. 30 Santa Ana River & Watershed Bibliography Juhren, M. C., & Montgomery, K. R. (1977). Long-term responses of Cistus and certain other introduced shrubs on disturbed wildland sites in Southern California. Ecology, 58(1), 129-138. The performance of seven introduced shrubs in four genera planted for erosion control on 12 disturbed sites, was observed over a 10- to 20-yr period. The sites differed widely in elevation, steepness, soils, and climatic factors. Three species of Cistus proved satisfactory on most sites for 3 to 5 yr. On several sites they persisted as useful stands for 10 yr or longer, with promise of permanent self-maintenance in at least five cases. Plantings of Atriplex, Rosmarinus, and Baccharis species generally decline and did not reproduce. The length of the effective life of the Cistus stands depended on (1) water availability, in which the chief factor was sufficiency and timing of the winter rains, and (2) the development of tall native shrubs on the sites. The need of Cistus seedlings for high light intensities was established experimentally. When low-growing native species invaded a site, Cistus grew compatibly with them. Cistus seedlings competed successfully with forbs and weeds but did not survive in thick grass. On the hottest, driest inland sites, the original Cistus bushes became woody and senescent in about 12 yr. Management is recommended to reduce the fuel load in case of fire, and to stimulate growth of new bushes. Limits of cold tolerance were established for C. villosus at 1,790 m and for heat/drought tolerance of C. laurifolius at 930 m. The latter thrived at temperatures far lower than those of a mediterranean climate. Keeley, S. C. (1989). The California chaparral: Paradigms reexamined. Paper presented at the Symposium on Paradigms in Chaparral Ecology, Science series Natural History Museum of Los Angeles County, Los Angeles, CA. Khudamrongsawat, J. (2002). Genetic diversity of Arundo donax in the Santa Ana River. Unpublished Thesis (M.S.), University of California, Riverside, Riverside, CA. Kresge, N. (2003, Aug 4). Protection of endangered fly bugs developers in California's Inland Valley. Knight Ridder Tribune Business News, p. 1. The heat of the summer has brought a female Delhi Sands fly out to look for mates and perhaps sip nectar from the flowers. She has already lived out the bulk of her life burrowed deep in the sand, and at most, she will live a week more on her dune sandwiched between a subdivision and a freeway. UC Riverside entomologist Greg Bollmer theorizes that it might live in ant colonies -- that when the fly larvae hatch from eggs buried in the sand, they crawl to the surface, only to be toted back underground by ants. The Delhi Sands fly is outfitted with a slender proboscis to suck nectar from flowers, but the entomologists who monitor it rarely see an adult eat; there is some speculation that its preferred food might have been a flower that has been extinct since the 1920s. Legner, E. F., Sjogren, R. D., & Luna, L. L. (1980). Arthropod fauna cohabiting larval breeding sites of Leptoconops foulki Clastrier & Wirth in the Santa Ana River, California. Mosquito news, 40(1), p. 46-54. 31 Water Resources Institute, California State University San Bernardino McBride, M. (1999, February 21). Weeding out a hellish pest: Agencies gang up on Santa Ana River bottom threat. The Press Enterprise, p. 1256 words. Kerwin Russell is the manager of a 2-year-old, 30-acre river-bottom project in Norco aimed at eradicating arundo donax - a non-native, prolific, swift-growing, bamboo-like member of the grass family. Invasive and opportunistic, arundo infests much of the Santa Ana that flows 130 miles from the San Bernardino Mountains to the Pacific Ocean. In a year, it uses 20,000 acre-feet of water from the river. Mian, L. S., Mulla, M. S., Axelrod, H., Chaney, J. D., & Dhillon, M. S. (1986). Biology and ecology of Culex mosquitoes, potential encephalitis vectors in the Chino and Santa Ana river basins. Mosquito control research, annual report, 16-19. Moskovitz, D. F. (2003). Population demography of the Santa Ana River Woolly Star, eriastrum densifolium ssp. sanctorum (milliken) mason (polemoniaceae). Unpublished Thesis (M.S.), California State University, Fullerton, Fullerton, CA. Munoz, A. A. (1991). Reproductive biology of the endangered Santa Ana River Woolly Star, Eriastrum Densifolium Ssp. Sanctorum (Milliken) Mason (Polemoniaceae) (California). MAI, 30(01), 74. Eriastrum densifolium ssp. sanctorum (Milliken) Mason, is an endangered plant subspecies restricted to the Santa Ana River floodplain, near Redlands, California. I studied the reproductive biology of this subspecies as part of the development of a management plan. E. d. sanctorum is protandrous and an obligate outcrosser. Insects Micranthophora flavocincta (Hymenoptera; Anthophoridae), Rhaphiomidas acton ssp. acton (Diptera; Apioceridae), and hummingbirds (Arhilochus alexandri and Calypte anna) were the primary pollinators. Reproductive findings were used to explain the genetic variability of the plant. A phylogenetic relationship between subspecies of E. densifolium was proposed and used to elucidate patterns in the reproductive biology, ecology, and genetics of E. d. sanctorum. Future lines of research regarding the pollinator's life history, and management practices such as elimination of human disturbance and continuation of floods were proposed. Muns, B. (1977). Native plants of the Robidoux Nature Center: Santa Ana River. Los Angeles, CA: Natural Science Section, Angeles Chapter, Sierra Club. Murkland, P. (2001, November 26). Waging war on water hog: A team of public agencies says it will do what no one else has: dramatically reduce the Santa Ana River system's arundo in five years. The Press Enterprise, p. 1313 words. Public agencies across Southern California have tried for a decade or more to rescue the region's rivers and creeks from a weed. Now some foes of the weed, arundo donax, say they are going to take back Southern California's biggest river, from the headwaters in the San Bernardino Mountains to the concrete channels in Orange County that empty into the sea. With $ 20 million from a state water-quality act that voters approved last year, agencies from Riverside, San Bernardino and Orange counties say they will do what no one else has. They say they will dramatically reduce the Santa Ana River system's arundo in five years. 32 Santa Ana River & Watershed Bibliography Nash, R. D. (Writer) (1996). Populations and communities [videocassette 1/2 in.]. In C. C. College (Producer). U.S.A.: The Annenberg/CPB Project. The basic concepts of ecology are introduced through the study of various populations and communities. Topics include endangered plant species like the Santa Ana River Woolly Star, the hunting of owls, and effects of human population growth on the health of the entire planet. Nash, R. D. (Writer) (1997). Cycles of life: Exploring biology [videorecording]. In R. D. Nash & Coastline Community College (Producer), Populations and communities. New York, NY: Insight Media. The basic concepts of ecology are introduced through the study of various populations and communities. Topics include endangered plant species like the Santa Ana River Wooly Star; the hunting of owls, and effects of human population growth to the health of the entire planet. Padley, W. D. (1990). Home ranges and social interactions of mountain lions (Felis concolor) in the Santa Ana Mountains, California. Unpublished Thesis (M.S.), California State Polytechnic University, Pomona., Pomona. CA. Phommasaysy, C. T. (1999). Germination success of Eriastrum densifolium Ssp. sanctorum seeds from five successional sites and fitness of the next generation. MAI, 37(06), 49. The Santa Ana Woolly Star (Eriastrum densifolium ssp. sanctorum or (Eds)), is a Federal and State listed plant of the Santa Ana River floodplain in southern California. It is facultatively outcrossed by various pollinators including: Rhaphiomidas acton, Bombus sp., and Arhilochus sp. Germination success of seeds produced naturally and artificially crossed from five successional sites and pollen fitness of resulting plants were determined, measured as radicle emergence and pollen stainability with cotton blue respectively. A Two-way ANOVA showed no differences in germination success or in pollen fitness among the sites and treatments. Germination success was: (1) enhanced by seed imbibition $>$24hrs), (2) positively correlated with seed size and (3) intermittent between wet-dry runs. Many seeds are long-lived, have orthodox storage behavior, and are likely important contributors to an aerial seed bank. Rancho Santa Ana Botanic Garden. (1933). Rancho Santa Ana Botanic Garden of the Native Plants of California Herbarium, Botanical Library, Santa Ana Cañon, Orange County, California [Pamphlet]. Claremont, CA. 33 Water Resources Institute, California State University San Bernardino Raver, A. (1999, Sep 16, 1999). What's eating America? Weeds. New York Times, p. F.1. For over 20 years arundo has muscled out the native cottonwoods and willows that once thrived along the banks of the Santa Ana. Slurping up nutrients pouring into the river from seven sewage treatment plants, arundo can grow seven inches a day, said Mr. (Paul) Frandsen, who is battling 8,000 acres of it. Arundo is one of about 300 exotic, or non-native plants invading natural habitats in the 49 continental states. There are about a dozen plants on the Federal noxious weed list, but horticulturists say the regulations are poorly enforced. And though 18 state agriculture departments have drawn up invasive plant lists, compliance is voluntary. As countries like Australia, where exotic plants overrun more than half of its wildlands, set up strict requirements before a non-native plant can cross its borders, the Federal Government is considering a similar model. Such controls, after thousands of years of free exchange has the nursery industry worried about everything from seeds brought back from Siberia to promising ornamentals in their greenhouses right now. Reish, D. J. (1972). Marine life of Southern California: Emphasizing marine life of Los Angeles and Orange Counties. Dubuque, IA: Kendall/Hunt Pub. Co. Snyder, J. O., & United States National Museum. (1908). Description of Pantosteus santa-anoe, a new species of fish from the Santa Ana river, California. Proceedings U.S. National Museum, v. 34, no. 1596, 33-34. Stebbins, G. L., & Major, J. (1965). Endemism and speciation in the California flora. Ecological Monographs, 35(1), 1-35. Tri-County Conservation League. (1972). The living Santa Ana River. Riverside, CA: Author. Tucker, V. A. (1966). Diurnal torpor and its relation to food consumption and weight changes in the California pocket mouse Perognathus Californicus. Ecology, 47(2), 245-252. Perognathus californicus is a nocturnal, burrowing rodent and in the mountains of southern California is locally distributed in association with the edge of grasslands. The thermal environment of P. Californicus is moderate and it undergoes a daily period of torpor if its food supply is reduced below its ad libitum consumption. At an ambient temperature of 15C, 17 g of bird seed per 100 g body weight is required each day to maintain weight in the absence of torpor. If this food ration is reduced, mice on a 12-hr photoperiod with lights on from 0600 to 1800 hr enter torpor between 2000 and 0500 hr and allow their body temperatures to drop to about 16C. The earlier times of entry into torpor are associated with smaller food rations. Since the mean time of arousal is between 1100 and 1330 hr on all food rations, the duration of the torpor period increases as the food ration decreases. A linear relation exists between daily food ration, time in torpor, and weight loss. This relation can be explained theoretically and measures the food requirement for weight maintenance in the absence of torpor, the food savings associated with torpor, and the influence of food ration on the rate of weight loss. This information, together with data on population dynamics, could be used to estimate the population energetics of P. californicus. 34 Santa Ana River & Watershed Bibliography U.S. Fish and Wildlife Service, Salton Sea National Wildlife Refuge, Morrow, P. C., Henry, W. G., & Kramer, G. W. (1988). Waterfowl management within the Prado Flood Control Basin, San Bernardino and Riverside Counties, California: A report to the U.S. Army Corps of Engineers, Los Angeles District, Los Angeles, California. Calipatria, CA: Salton Sea National Wildlife Refuge. U.S. Fish and Wildlife Service Region 1. (2001). Quino checkerspot butterfly (Euphydryas editha quino) (Draft recovery plan). Portland, OR: U.S. Department of Agriculture. Vogl, R. J. (1973). Ecology of knobcone pine in the Santa Ana Mountains, California. Ecological Monographs, 43(2), 125-143. Knobcone pine (Pinus attenuata) is restricted in the Santa Ana Mountains to hydrothermally modified serpentinite which supports only limited shrub growth as opposed to the surrounding dense chaparral on nonspecialized substrates. Ceanothus papillosus var. rowaenus and Ribes malvaceum var. viridifolium are also restricted locally. The pines survive on the serpentinite by tolerating the existing edaphic conditions, including nitrogen and phosphate deficiencies and low pH, and because the otherwise dense competitive growth has been minimized. The water-retaining capacity of the serpentinite is nearly double that of the chaparral soils. This soil characteristic, the frequent fogs, the location of the pines in fog gaps, the scattered growth, multiple-trunked trees, spreading crowns, and medium-length needles all contribute to the persistence of the pines by enhancing their ability to intercept marine air and produce considerable fog drip which is readily held by the soils. The life cycle of these knobcone pines is related to fire, and its periodic occurrence is a necessity for survival. The pines possess a strict closed-cone habit, with firmly attached cones accumulating throughout the life of each tree. The seed remains until heat generated by a fire opens the cones. Cones are seldom burned, and the seed is not shed until well after the fire, remaining viable for at least 3 years in opened cones. Fire creates pioneer conditions necessary for seedling establishment. Westman, W. E. (1981). Diversity relations and succession in Californian Coastal Sage Scrub. Ecology, 62(1), 170-184. The facultatively drought-deciduous shrublands of coastal California and Baja California are lowest in species richness of the four Mediterranean-climate regions where this physiognomic type occurs. Alpha richness in the North American coastal sage scrub varies primarily with the abundance of herbaceous annual species. Herb levels in turn vary with differences in levels of precipitation, favorableness of temperature during the winter and spring growing season, shading by shrubs, soil nitrogen, and air pollution. Levels of herbaceous annuals are highest in the growing season following fire, and show a second pulse of abundance in stands 15-25 yr old. Mature stands of coastal sage scrub are typically low in species equitability, due at least in part to the shade-intolerance of the herbaceous understory and to reduced levels of soil nitrogen. Symbiotic nitrogen-fixing organisms are virtually absent from stands which have not burned in 20 yr or more. The pattern of postfire succession varies markedly with fire intensity; dominant shrubs sprout abundantly from root crowns only following less intense fires. In view of the reduction of the area of coastal sage scrub in California to 10-15% of its former extent and the limited extent of preserves, measures to conserve the diversity of the flora are needed. 35 Water Resources Institute, California State University San Bernardino Westman, W. E. (1981). Factors influencing the distribution of species of Californian coastal sage scrub. Ecology, 62(2), 439-455. The distributions of species and species groups of southern coastal sage scrub in Alta and Baja California are examined in relation to structural and environmental variables. Variables examined include vegetative structure, geographic and topographic position, soil physical characteristics and macronutrient levels, substrate, temperature, precipitation, and factors of disturbance (fire, light grazing, air pollution). Evapotranspirative stress during summer months seems to be a major factor influencing species distributions. Mean temperature of the warmest month appears to be a better predictor of this stress than seasonal or annual precipitation levels. The possible ecological significance of this is briefly discussed. Yohe, R. M., II, Newman, M. E., & Schneider, J. S. (1991). Immunological identification of small-mammal proteins on aboriginal milling equipment. American Antiquity, 56(4), 659666. Ethnographic accounts of animal pulverization using stone grinding implements have led archaeologists to believe that this same behavior took place in the past. This important subsistence activity can now be confirmed through the immunological analysis of archaeological materials. Small-mammal blood-protein residue has been identified immunologically for the first time on milling equipment from two archaeological sites in southern California. Immunoprotein trace analysis has the potential for a wide range of applications in the study of prehistory. Zembal, R., & Kramer, K. J. (1985). The status of the Santa Ana River woolly-star. Fremontia, 13(3), 19-20. Basin-wide Ecology Arriola, P. E., & Ellstrand, N. C. (1997). Fitness of interspecific hybrids in the genus Sorghum: Persistence of crop genes in wild populations. Ecological Applications, 7(2), 512-518. Gene flow can be expected to occur in many crop/weed complexes if the crop and the weed have sympatric ranges, are sexually compatible, have flowering times that overlap, and share a common pollinator. These conditions are met in a large number of crop/weed complexes; however, the consequences of gene exchange between crops and wild relatives on a wide scale, and the potential fate of escaped engineered genes, remain generally unknown. We examined several fitness correlates of weed (times) crop hybrids between crop sorghum and a related noxious weed, johnsongrass. Hybrid weeds did not show any significant increase or decrease in time to flowering, panicle production, seed production, pollen viability, tiller production, or biomass compared to nonhybrid johnsongrass. We conclude that a transgene that is either neutral or beneficial to johnsongrass would likely persist in populations growing in agricultural conditions under continued gene flow from the crop. 36 Santa Ana River & Watershed Bibliography Blaney, H. F., Troxell, H. C., & Hyatt, E. (1934). South Coastal Basin investigation: Water losses under natural conditions from wet areas in Southern California (California Division of Water Resources Bulletin). Sacramento, CA: California Division of Water Resources. I. Consumptive use of water by native plants growing in moist areas in Southern California, by H.F. Blaney.--II. Ground water supply and natural losses in the valley of Santa Ana River between the Riverside narrows and the Orange County line, by H.C. Troxell Brunell, M. S. (1991). Genetic variation in the endangered Santa Ana River woolly star, Eriastrum densifolium ssp. sanctorum (Milliken) Mason (Polemoniaceae). MAI, 29(04), 80. Eriastrum densifolium ssp. sanctorum has become endangered as a result of human induced habitat destruction. An investigation was undertaken to determine the level of genetic diversity within the single remaining population, utilizing enzyme electrophoresis. In addition, a nearby putative hybrid population, possibly involving E. d. ssp. sanctorum, was analyzed, along with other probable parents. A survey of 19 loci within 15 subpopulations, comprising a total of 393 individuals, yielded standard diversity values of: P(.99) = 40.0; A = 1.42; H = 0.087. Genetic identities between all ssp. sanctorum subpopulations were extremely high (x = 0.992). Most of the genetic variation in ssp. sanctorum resides within subpopulations, at a level indicating extremely high gene flow. Analysis of the putative hybrid population was inconclusive due to a lack of diagnostic alleles. The geographical restrictions imposed upon E. d. ssp. sanctorum have not totally compromised its genetic variability. Business Communications Co. (1996). Wetlands found to eliminate pollutants. The Orange County Water District already uses a number of highly sophisticated, and costly, means of purifying the water from the Santa Ana River. But a purification system based solely on natural processes, and especially the activity of microbes in the different parts of the system, is preferred. The artificial wetlands of the Santa Ana River in Orange County, CA, are capable of reducing pollutants such as nitrates and chlorinated organic compounds, a team of researchers has determined. Findings are so encouraging that the researchers, from Northwestern University (Evanston, IL) and the University of California at Berkeley , are now confident that they will be able to design wetlands systems that can purify the water through totally natural means. California Department of Fish and Game. (1972). Fish and wildlife resources relationships and water quality requirements: Task D, F & G - 3, Santa Ana River - 8. Sacramento, CA: Author. Sterngold, J. (2001). Seizing on a homely fish to save a regal one. New York Times, 150(51866). The West Fork of the San Gabriel River is one of the few rivers for wild trout in Southern California and sportsmen have long struggled with water authorities to release more cool water from upstream dams to boost trout numbers. Those requests have largely been denied but must be reconsidered now that a companion species, the Santa Ana sucker, has been declared a threatened species. 37 Water Resources Institute, California State University San Bernardino Stone, D. R. (1995). Pollinator Effectiveness and Assemblages in Three Populations of Eriastrum Densifolium (Benth.) Mason (Polemoniaceae). MAI, 34(01), 69. Pollinator assemblages and effectiveness were investigated in three populations of the plant Eriastrum densifolium =Ed (Polemoniaceae). Ed inhabits alluvial gradients in the San Gabriel Mountains and Santa Ana River wash in San Bernardino County, California. Corolla tube lengths differed among Ed populations. Numbers of potential Ed pollinator species ranged from 16-28 and included at Cleghorn Road: Bombus vosnesenskii and Apis mellifera; Cajon Wash: Eulonchus smaragdinus smaragdinus, Rhaphiomidas acton acton, Anthophora urbana, and Bombus californicus; and Santa Ana River: R. acton acton, B. californicus, and Archilocus alexandri (Black-chinned hummingbird). Pollinator exclusion bags and freshly killed primary pollinators were used in experimental pollination treatments. Overall, the double contact treatments (pollinator to stigma) did not demonstrate a significant increase in seed production over a single contact. Natural seed set was highest at Cleghorn Road and lowest at the Santa Ana River site. Thomey, M. L. (2003). Effects of topsoil disturbance on germination and establishment of Eriastrum densifolium ssp. sanctorum (Polemoniaceae), an early successional species in southern California. MAI, 41(05), 45. Eriastrum densifolium ssp. sanctorum (Milliken) Mason (Polemoniaceae) is a short-lived perennial endemic to the Santa Ana River drainage. Flood control implementations impede seedling establishment by preventing flood events that scour surfaces of competitively dominant species. A randomized complete block design was used to establish 35 experimental plots each assigned one of seven soil conditions: control, cleared, cut, diked, sand-fill 10 cm, sand-fill 20 cm, and sand-fill 30 cm. I quantified emergence and survivorship on each soil condition that functioned to mimic early succession substrata. I hypothesized that: (1) The soil condition would not affect emergence. (2) Seedling survivorship would be highest on the cut and sand-fill conditions. No significant soil condition effect was detected on emergence and survivorship. Results were attributed to low statistical power and limited rainfall. Future recommendations are to: (1) increase the sample size and duration, (2) replace selected sod conditions, and (3) monitor non-native species establishment. Wolf, C. B. (1945). California wild tree crops, their crop production and possible utilization. Santa Ana Cañon, CA: Rancho Santa Ana Botanic Garden. Basin-wide Hazards/Disasters Ahlborn, W. O. (1982). Santa Ana River Basin flood hazard. Redlands, CA: San Bernardino County Museum Association. Chaplin, B. F. (1938). Pictorial story of the Southern California flood, March 3, 1938. Anaheim, CA: Author. Ebert, F. C. (1919). Some recent flood run-offs of Southern California. Paper presented at the American Society of Civil Engineers, Southern California Association of Members, flood control in Southern California meeting, Los Angeles, CA. 38 Santa Ana River & Watershed Bibliography Engstrom, W. N. (1994). Nineteenth-century coastal gales of Southern California. Geographical Review, 84(3), 306-315. Severe southeast gales, large waves, and heavy precipitation were significant winterstorm events along the coast of southern California during the nineteenth century. Known as southeasters, those storms caused erosion and strong littoral transport to the north. They were most likely intense extratropical cyclones that passed through southern or central California. The frequency and intensity of the storms diminished toward the end of the century, which suggests that the storminess was characteristic of the late Little Ice Age climate in the low middle latitudes of the eastern Pacific. Engstrom, W. N. (1996). The California storm of January 1862. Quaternary Research, 46(2), 141-148. The greatest storm in the written history of California struck the region in the winter of 1861-1862. The unusual weather began on Christmas Eve, 1861, and persisted for some 45 days as a series of middle-latitude cyclones made landfall along the California coast. Episodes of very cold and very warm temperatures occurred both during the storm and in the spring of 1862 as meridional flow prevailed. Heavy precipitation swelled the Santa Ana River to more than triple the highest estimated discharge in this century. High water levels in coastal streams between Los Angeles and San Diego persisted into the spring. Lakes were created in the Los Angeles Basin and the Mojave Desert. Arroyos were cut. Sediments from the flood may be preserved in offshore basins. Federal Emergency Management Agency. (2004, June 9, 2003). FEMA: Flood hazard mapping -Santa Ana River. Retrieved March 18, 2004, 2004, from http://www.fema.gov/fhm/st_sana.shtm Florkowski, J. (2004, Mar. 4, 2004). Rain, flooding causes some dairies to release water in Chino, Calif., area. Knight Ridder Tribune Business News, p. 1. Staff found that about 10 dairies of about 200 experienced leaky berms and other problems, said Steve Mayville, chief of the dairy unit for the Santa Ana Regional Water Quality Board, which is the state arm tasked with monitoring water quality. Some dairies have reported problems managing the water on their properties because of the heavy rainfall, said Nathan de Boom, chief of staff for Chino-based Milk Producers Council. The flood control basin, opened in 2000 after El Nino storms wreaked havoc on dairies in 1998, caught a tremendous amount of water this storm, de Boom said. Halverson, J. (2003). January highlight: A wind by any other name. Weatherwise, 56(3), 48. Halverson comments on the Santa Ana winds. With the force of a weak tornado, this hot, dry and deadly windstorm swiftly overtook southern California from the east on Jan 6, 2003. The wind toppled trees and utility poles, caused wildfires to flare and denuded many of the region's avocado plants of their precious fruit. Hawgood, H. (1919). Cost of flood damage and economic relations. Paper presented at the American Society of Civil Engineers, Southern California Association of Members, flood control in Southern California meeting, Los Angeles, CA. 39 Water Resources Institute, California State University San Bernardino Minnich, R. A. (1987). Fire behavior in Southern California chaparral before fire control: The Mount Wilson burns at the turn of the century. Annals of the Association of American Geographers, 77(4), 599-618. Reconstruction from written accounts of three chaparral burns (1896, 1898, 1900) before fire control on Mount Wilson in the San Gabriel Mountains, California, reveals an erratic smoulder-and-run fire behavior pattern. Although these burns persisted for two to three months during summer drought, their ultimate sizes were relatively small. Chaparral in Southern California watersheds before 1900 was described as having been fragmented by previous burns. Such patchy stand structure can develop from frequent anthropogenic ignitions because the growth of fires is constrained by previous burns; fire size is inversely related to ignition rates. In 1919 and 1924, after two decades of fire suppression, enormous high-intensity conflagrations were driven largely by strong Santa Ana winds, and this pattern has continued to the present. Purciel, S. D. (1995). The historical flood hazard of the Santa Ana River in Southern California. Unpublished M.A., California State University Chico, Chico, CA. Riggan, P. J., Lockwood, R. N., Jacks, P. M., Colver, C. G., Weirich, F., DeBano, L. F., et al. (1994). Effects of fire severity on nitrate mobilization in watersheds subject to chronic atmospheric deposition. Environmental Science and Technology, 28(3), 369-375. Severe fires in chaparral watersheds subject to air pollution from metropolitan Los Angeles (California) mobilized accumulated nitrogen and caused stream water to be polluted with nitrate at concns. exceeding the (US) Federal Water Quality std. Streamwater NO3- concns. were elevated during peak flows. Fires of moderate intensity produced a more subdued response in stream discharge and soil nitrification and less than one-seventh the NO3- loss obsd. after severe burning. It was inferred that the combination of atm. deposition with severe wildfires provides a strong and recurrent source of nitrate that could contribute to existing groundwater pollution in parts of eastern Los Angeles County. Moderating the fire regime by prescribed burning could provide substantial mitigation. Santa Ana Watershed Project Authority. (2003). Special Edition - Wildfires roar through the top of the Santa Ana Watershed: Wildfiles devastate Upper Santa Ana Watershed, tremendours impacts throughout the region (newsletter): Author. Sidler, W. A. (1968). Agua Mansa and the flood of January 22, 1862, Santa Ana River. San Bernardino, CA: San Bernardino County Flood Control District. Simon, S. (2002). Interview: Lisa Grant discusses the 1769 earthquake in Southern California and others. On Weekend Edition. Saturday [Radio interview]. 40 Santa Ana River & Watershed Bibliography Stokley, S. (1997, August 21, 1997). Santa Ana River bottom fire contained. The Press Enterprise, p. 289 words. Firefighters from five agencies were called Wednesday afternoon to battle a blaze that blackened 2,000 acres in the Santa Ana River bottom near Mira Loma, authorities said. Homes along Holmes and Ridgeview avenues were threatened for a time but firefighters managed to beat back the flames and head it toward the river, said Battalion Chief Wes Alston of the California Department of Forestry/Riverside County Fire Department. About 150 firefighters from Riverside and San Bernardino counties and from Corona, Norco and Riverside battled the blaze which was first reported at 4 p.m. There were no injuries and no evacuations, Alston said. Rush hour traffic on Limonite Avenue slowed to a crawl as rubberneckers gawked at the flames, which were clearly visible from the street. Terry, D. (1997, Dec 7, 1997). Deaths of Students Ring an Old Alarm on Flooding in Los Angeles. New York Times, p. 1.27. Despite fences, warning signs and schoolroom lectures indicating that the 470 miles of concrete-lined flood control channels that run through Los Angeles County can turn from dry to deadly in minutes, about six people a year, on average, are caught in the channels and swept to their deaths. Late last month, in the first fatal incident this year, three teenagers drowned when a wall of water rushed through one of the channels during a rainstorm. But public safety officials fear that the toll may climb during this winter storm season because of the expected fury of the weather phenomenon known as El Nino. Flooding forced the evacuation of several mobile-home parks and the temporary closing of major highways. To the north along the coast, in the Santa Barbara area, nine inches of rain fell in 24 hours. The Press Enterprise. (1997, October 19, 1997). Santa Ana River's turbulent history; Usually mild, it has been the scene of devastating floods in the past, particularly in 1938 and 1969. The Press Enterprise, p. 355 words. The Santa Ana River, usually a gentle stream flowing through the counties of San Bernardino, Riverside and Orange most of the year, can turn into a raging torrent as history has shown. To help tame the river when it is at its worst, the U. S. Army Corps of Engineers is constructing a $ 1.4 billion flood control project. It includes the $ 420million Seven Oaks Dam in the San Bernardino Mountains, scheduled for completion in 1999; raising Prado Dam by 29 feet, scheduled for completion in 2005; widening a flood channel through Corona and building 4.6 miles of dikes. When completed, it will handle what is called a 200-year flood. The last flood of that magnitude was in 1862, which inundated hundreds of square miles along the river in mostly undeveloped land. Such a flood today would cover 170 square miles in the three counties and cause an estimated $ 15 billion in damage, mostly in Orange County. Turlo, J., Gano, N., & Balgemino, C. (2003). Santa Ana River flood hazard history. Retrieved 4/8/04, 2004, from http://www.csulb.edu/~jturlo/ U.S. Army Corps of Engineers Los Angeles District. (1966). Flood-damage report on storms and floods of November and December 1965, Riverside and San Bernardino Counties, Southern California. Los Angeles, CA: Author. 41 Water Resources Institute, California State University San Bernardino U.S. Department of Agriculture Forest Service. (1940). Emergency report on flood hazard for certain tributary watersheds of the Santa Ana River, California: Resulting from the forest fire of August 21, 1940. n.p.: Author. U.S. Federal Emergency Management Agency National Flood Insurance Program, & National Research Council (U.S.) Committee on Methodologies for Predicting Mudflow Areas. (1982). Selecting a methodology for delineating mudslide hazard areas for the National Flood Insurance Program. Washington, DC: National Academy Press. Basin-wide Environmental Resources Management Proceedings. (1936). Paper presented at the Flood Control Conference, Los Angeles, CA. In the matter of the public hearing re preliminary examination of the Santa Ana River in counties of San Bernardino, and Riverside and Santa Ana River and tributaries, California: Lytle Creek, Waterman Canyon, San Bernardino County; San Jacinto River and Bautiste Creek, Riverside County, and Cucamonga, Deer, San Antonio and Chino Creeks, California, 1 box (1938). Transcript of public hearing -- Flood control report submitted by Riverside County Board of Supervisors -- Flood control report submitted by San Bernardino County Board of Supervisors. Public Lands Committee hearings, Los Angeles and San Bernardino, California: pursuant to H. Res. 93, 80th U.S. Congress. House Committee on Public Lands, Subcommittee on Irrigation and Reclamation; Subcommittee on Public Lands, 1st Sess. iv, 143 (1948). Report on allocations to Department of Water Resources for reallocation to Los Angeles County Flood Control District, Riverside County Flood Control and Water Conservation District, San Bernardino County Flood Control District, and City of San Diego. (1956). Sacramento, CA: State of California, Dept. Tri-County Conservation League along the Santa Ana. (Vol. 1-)(1967-). Riverside, CA: TriCounty Conservation League. Santa Ana River Basin, California: Temescal Creek and Oak Street Drain: Public meeting to form a public advisory committee, Corona City Council Chambers, May 30, 1974, [17] leaves (1974). The Santa Ana River Basin: An example of the use of computer graphics in regional plan evaluation. (1976). USACE Inst for Water Resour Iwr Contract Report. Public hearing on phase I general design memorandum, Santa Ana River main stem before the Department of the Army, Los Angeles District, Corps of Engineers. Wednesday, 28 February 1979 ... Garden Grove, California -- Thursday, 1 March 1979 ... Corona, California -- Wednesday, 7 March 1979 ... San Bernardino, California., Department of the Army, Los Angeles District, Corps of Engineers (1979). 42 Santa Ana River & Watershed Bibliography Public meeting on Santa Ana River flood control plan before the U.S. Department of the Army, Los Angeles District, Corps of Engineers. Held at Corona, California, August 19, 1980 -Held at ... San Bernardino, California, August 20, 1980 -- Held at ... Anaheim, California, August 26, 1980 -- Held at ... Costa Mesa, California, August 27, 1980., (1980). Calif. dam siting disputed. (1984). Engineering News - Record, 370 words. The siting of a new upstream dam -- or dams -- on southern California's Santa Ana River remains an outstanding issue in development of a proposed $1.3-billion flood-control project to protect an urban area. Three counties bordering the river, meanwhile, have approved phased construction of the project in hopes of acquiring federal funding. Existing protective works built in 1940 are not adequate to handle what poses the most serious flood threat in the western U.S., says Corps of Engineers project manager Dennis Majors. Californians build dams in bid to keep oil from bird refuges. (1990, February 12, 1990). The Washington Post, p. 351 words. Workers built sand dams and welded shut floodgates yesterday in an attempt to stop a 60square-mile oil slick from penetrating Southern California's bird sanctuaries. The giant slick spewed from the British Petroleum-leased tanker American Trader, was threatening the nature preserves of Bolsa Chica and the Santa Ana River. A 20-mile stretch of oncegolden beaches, blackened by oil, was closed by police as more than 1,000 workers in bright yellow protective clothing worked to clean up the tar-like goo. More than 30 birds had been killed by the slick and 70 had been rescued. Coast Guard officials said more than 10,000 gallons had been scooped up by skimmer boats, known as ocean-going vacuum cleaners, but 50 percent of the spilled oil remained on the water with the remainder having either evaporated or been broken up by the natural process of biodegradation. Award of large dam job held up by protest filed by second low bidder. (1993). Engineering News - Record, 231(13), pg. 10, 360 words. A protest has delayed award of the main contract for the huge Seven Oaks earthfill dam near San Bernardino, Calif., perhaps for months. A U.S. subsidiary of a major Brazilian firm bid low on the Corps of Engineers project in early July, coming in $36 million below estimate and $29 million under the second low bidder, which filed the protest. Bidding alone, CBPO of America, Sherman Oaks, Calif., priced the embankment on the Santa Ana River at $167.8 million (ENR 7/19 p. 16). Contractors line up for flood control projects. (1993). Engineering News - Record, 424 words. With bids due on July 7 for the construction of one of the larger embankment dams in the nation, the Army Corps of Engineers anticipates receiving quotes from a crowd of contractors eager to place 38 million cu yd of earth and rock for Seven Oaks Dam in southern California. Plans call for building a flood-control dam 550 high and 3,000 ft long on the Santa Ana River, in the highly fractured foothills of the San Bernardino Mountains, near the San Andreas Fault. James A. Link, project chief, declines to quote the Corps's own construction estimate but expects the bids will range between $100 million and $200 million. 43 Water Resources Institute, California State University San Bernardino Indirect potable reuse. (2002). National Driller, 24(2), 64. However, projects involving indirect potable reuse traditionally were evaluated on a caseby-case basis, making it difficult to plan for this type of water recycling application. A breakthrough occurred in January 1996 when a regulatory framework for potable reuse was adopted by a committee convened jointly by California's Department of Health Services and Department of Water Resources. Water regulations come at a cost in Southern California. (2002, Feb 18, 2002). Knight Ridder Tribune Business News, p. 1. Without the basins, storm runoff will cut across property owned by the university and the city that is designated as a flood plain, preventing development. Last year, developer William P. Johnson claimed to have spent about $1 million regrading and building sediment detention basins to control storm runoff; he faced fines of about $1.3 million for failing to obtain the proper storm water permits and allowing sediment-laden runoff from flowing into Murrieta Creek. Assemblyman Bill Leonard, warned that new state water quality regulations could spark runaway and costly reform of federal runoff control rules. Hydraulic components help deliver water to Los Angeles. (2003). Design News, 58(8), 46. Cylinders, valves, pumps and accumulators head the list of hydraulic components featured in a new seismic-rated concrete tower that is helping deliver water to Los Angeles. The new 132-foot-tall tower, erected as a replacement for a smaller tower completed more than a half-century ago, needed the power of hydraulics to open and close the giant butterfly valves and roller gates that allow water to flow through the many huge underground tunnels that feed Orange County. Anderson, E. N., Jr. (1972). Man on the Santa Ana: A brief account of human management of a landscape. Riverside, CA: Tri-County Conservation League. Anderson, G. G., & Olmsted, F. H. (1919). Check dams. Paper presented at the American Society of Civil Engineers, Southern California Association of Members, flood control in Southern California meeting, Los Angeles, CA. Babbitt, D. H. (2001). Putting dam removals in perspective. International Water Power & Dam Construction, 53(2), 13. I immediately recognised that 'Bureau of Reclamation to undo US$1.5B multipurpose Auburn dam', referred to proposed legislation to plug an open diversion tunnel 20 years after construction of the dam was stopped and that, 'Ventura County, State and Federal governments jointly start what may be the largest removal project in history at the 58m Matilija dam', referred to consideration of complete removal of an arch dam, cracked by alkali-silica reaction, that has periodically been notched. Barela, D. A. (1978). Side-channel spillway and outlet works for San Antonio Dam: Hydraulic model investigation (No. 2-106). Los Angeles, CA: U.S. Army Engineer District, Los Angeles, Corps of Engineers. 44 Santa Ana River & Watershed Bibliography Beaver, J. A., & Thon, J. G. (2003). Problems of public works projects in the present economic climate. Journal American Water Works Association, vol.68(no.1), p 26-30. Water resource development along the Santa Ana River basin in California is discussed in view of the attendant economic problems. A case history describing the Water Transmission Project carried out for the San Bernardino Valley Municipal Water District illustrates the economic pressures that impact on major public works projects. Financing problems, materials, prices, contractor protection, and labor are covered. Bookman-Edmonston Engineering Inc. (1966). Preliminary studies of flow of Santa Ana River at Prado Dam, indices of precipitation and runoff and base periods. Glendale, CA: Author. Booth, J., Loveridge, R. O., & Adrian, C. R. (n.d.). The Santa Ana River: A proposal for action. Riverside, CA: University of California, Riverside, Dept. of Political Science. Bowles, J. (2001, November 02, 2001). $500 million for water projects: Congress: The bill includes funds earmarked for the Salton Sea and the Santa Ana River. The Press Enterprise. Congress on Thursday approved nearly $ 500 million for California water projects, including funds for the Salton Sea, Santa Ana River flood control project and San Bernardino's high groundwater problems. The bill now goes to President Bush for his signature. Rep. Ken Calvert, meanwhile, retooled proposed legislation aimed primarily at bolstering water supplies in California to include 16 other Western states. Bowles, J. (2003, March 21, 2003). Preserve bill gets Inland support: Watershed: A state conservancy could bring funds to the Santa Ana River area, backers say. The Press Enterprise, p. B01. Protecting the river A proposed bill would create a state nature conservancy in the Santa Ana River watershed. The move aims to attract more attention and create more funding for open space, habitat restoration and flood control. Santa Ana River watershed The watershed covers 2,650 square miles in four counties. Bowlus, F. D., & Tait, C. E. (1919). Spreading water for flood control. Paper presented at the American Society of Civil Engineers, Southern California Association of Members, flood control in Southern California meeting, Los Angeles, CA. Brennan, P. (2002, April 2, 2002). Irvine, California, Water Agency Looks to Build Wetlands to Fight Pollution. Knight Ridder Tribune Business News, p. 1. Artificial wetlands are not a new idea. Bacteria, including some that can cause human diseases, putting swimmers and surfers especially at risk from runoff, will be carried into the wetlands. They'll linger there instead of moving downstream, being eaten by other microbes or killed by high temperatures and ultraviolet light at the wetlands' surface. 45 Water Resources Institute, California State University San Bernardino Brennan, P. (2002, December 15, 2002). Southern California may lose critical water-sharing pact. Knight Ridder Tribune Business News, p. 1. One of the fiercest, Irvine Ranch Water District board member Peer Swan, believes it makes no sense to create such an enormously expensive project. Even with a few dry years every decade, Swan says, Metropolitan supplies are still cheaper, and likely to be readily available. Swan's worries are shared by some other experts, including Paul Jones, general manager of the Irvine Ranch Water District, a south Orange County water supplier that is itself a customer of Orange County Water District. Recycling and desalination projects will get an earlier boost of encouragement from water agencies if the Imperial Valley agreement can't be revived. Brennan, P. (2002, December 15, 2002). Water-deal failure could accelerate conservation in California. Knight Ridder Tribune Business News, p. 1. Supplies are secure for at least the next two years under worst- case drought conditions. But area water agencies, including those in Orange County, are accelerating plans to create new supplies, while the region's water wholesaler will step up pleas to consumers to avoid wasting water. Brennan, P. (2003, February 14, 2003). California legislator floats Santa Ana River Conservancy Bill. The Orange County Register. A state assemblyman will introduce a bill today to create a conservancy along the entire 96-mile length of the Santa Ana River, which he says could bring dollars for flood control, parks, public trails and habitat restoration. The bill by Lou Correa, D-Anaheim, does not specify what kind of projects would be built or when. Even the governing body to make those decisions would have to be appointed in the future. But the ambitious plan, which, including the river and its tributaries, would cover 2,800 square miles in three counties, would be patterned after similar conservancies overseeing the San Diego and the San Gabriel rivers, Correa spokesman Bill Orton said. Budhu, D., & Bermudez, O. (2003). Controlling floodwaters. The American City & County, 118(13), 72. Burton, C. A., & National Water-Quality Assessment Program (U.S.). (2002). Effects of urbanization and long-term rainfall on the occurrence of organic compounds and trace elements in reservoir sediment cores, streambed sediment, and fish tissue from the Santa Ana River basin, California, 1998 (Water-resources investigations report No. 02-4175). Denver, CO: U.S. Geological Survey. California Conservation Commission. (1904). San Bernardino Basin investigations: Effects of spreading storm water on the fan of the Santa Ana River. n.p.: Author. California Department of Parks and Recreation. (1979). Chino Hills feasibility study: Los Angeles, San Bernardino, Orange, and Riverside Counties. Sacramento, CA: Author. California Department of Public Works. (1948). Views and recommendations of State of California on proposed report of Chief of Engineers, U.S. Army, on preliminary examination and survey of Santa Ana River and tributaries, California. Sacramento, CA: Author. 46 Santa Ana River & Watershed Bibliography California Department of Water Resources. (1958). Report on allocations to Department of Water Resources for reallocation to Los Angeles County Flood Control District, Riverside County Flood Control and Water Conservation District, San Bernardino County Flood Control District, Ventura County Flood Control District, Santa Barbara County, City of San Diego, San Luis Obispo County Flood Control and Water Conservation District, Agua Buena Soil Conservation District, and City of Escondido. Sacramento, CA: State of California, Dept. of Water Resources, Division of Design and Construction. California Department of Water Resources. (1965). Ground water basin protection projects: Santa Ana Gap salinity barrier (Prelim.). Sacramento, CA: Author. California Department of Water Resources Division of Design and Construction. (1972). Bids for construction and equipment, 1972: Annual advance notice. Sacramento, CA: Author. California Department of Water Resources Division of Resources Planning. (1950). Salinas Basin investigation: Basic data: Supplements to Bulletin no. 52-A. Sacramento, CA: State Water Resources Board. California Department of Water Resources Southern District. (1973). Santa Ana River Project: (Prado Reservoir, and upstream and downstream developments of the Santa Ana River) (environmental impact assessment). Los Angeles, CA: State of California Resources Agency, Dept. of Water Resources, Southern District. California Division of Water Resources. (1956). Inspection tour of the Ventura, Tehachapi Mountains, Antelope-Mojave, and Santa Ana areas, May 2-3, 1956. Sacramento, CA: State Water Resources Board. California Regional Water Quality Control Board--Santa Ana Region. (1963). Possible need for ocean disposal for non-reclaimable wastes from the Santa Ana Valley. n.p.: Author. California Regional Water Quality Control Board--Santa Ana Region. (1995). Proposed amendment of the Basin Plan for the Santa Ana region. Riverside, CA: California Regional Water Quality Control Board, Santa Ana Region. California State Coastal Conservancy. (1982). Regional wetland restoration study: Los Angeles & Orange counties (Final draft). n.p.: State Coastal Conservancy. California State Water Resources Control Board. (1948). Data for State Water Resources Board inspection tour of the Santa Ana River Basin, in San Bernardino, Riverside, and Orange Counties, November 4, 5, and 6, 1948. Sacramento, CA: Author. Carpenter, F. A., Bowen, E. R., & Jones, W. S. (1919). Water spreading as a measure of flood control. Paper presented at the American Society of Civil Engineers, Southern California Association of Members, flood control in Southern California meeting, Los Angeles, CA. Clements, G. P. (1925-1945). George Pigeon Clements Papers.Unpublished manuscript. Code, W. H. (1919). Financial features and executive organizations proveded in Conservancy Act known as Senate bill n. 289, approved May sixteenth. Paper presented at the American Society of Civil Engineers, Southern California Association of Members, flood control in Southern California meeting, Los Angeles, CA. 47 Water Resources Institute, California State University San Bernardino Coe, J. J. (1963, February 21 and February 26). The state water facilities, first unit of the California Water Plan. Paper presented at the Seminar in Hydraulic Engineering and the Annual Meeting of the Santa Ana River Water Association, University of Southern California, Los Angeles. Conkling, H. (1930). Santa Ana River basin: A plan for flood control and conservation of waste water: Present and future importation requirements, sources of outside supply, salinity intrustion (Reports on state water plan prepared pursuant to chapter 832, Statutes of 1929.). Sacramento, CA: California Division of Water Resources. Conkling, H. (1930). South coastal basin: A cooperative symposium of activities and plans of public agencies in Los Angeles, Orange, San Bernardino and Riverside counties, leading to conservation of local water supplies and management of underground reservoirs (Division of Water Resources Bulletin No. 32). Sacramento, CA: Division of Water Resources. Construction, C. D. o. W. R. D. o. D. a. (1957). Report on allocations to Department of Water Resources for reallocation to Los Angeles County Flood Control District, Riverside County Flood Control and Water Conservation District, San Bernardino County Flood Control District, Ventura County Flood Control District, Santa Barbara County, and City of San Diego. Sacramento, CA: Author. Correa, L. (2003, May 25, 2003). Saving the river: The Santa Ana River Conservancy is a crosscounty plan to manage a valuable natural resource. The Press Enterprise, p. 753 words. With its tributaries, the Santa Ana is the largest stream system in Southern California. A state nature conservancy is an excellent way to achieve the goals of coordinating conservation efforts and attracting funding to do so. Therefore, I have proposed legislation to create the Santa Ana River Conservancy(Assembly Bill 496). The proposed Conservancy would complement ongoing county efforts, including its work with the Santa Ana Watershed Project Authority (SAWPA), as well as with the county's multispecies plan and regional transportation program. Delgado, A. (1983). Multiobjective econometric system optimization method: An approach for water resources planning and management. Unpublished Dissertation (Ph.D.), University of California, Los Angeles, Los Angeles, CA. Delson, S. (1998, May 12, 1998). Wilson budget proposes money for Santa Ana River flood control. The Press Enterprise, p. 459 words. Gov. Wilson's revised state budget proposal will include $ 104 million to reimburse Riverside, San Bernardino and Orange counties for Santa Ana River flood-control expenses and $ 50 million in grants for the purchase of cleaner-burning diesel trucks. Other environmental spending Wilson plans to propose Thursday will include $ 130 million to fund the state's share of purchasing 7,500 acres of old-growth redwoods in Humboldt County's Headwaters Forest, $ 68 million for other flood-control projects around the state, $ 25 million to start catching up on $ 538 million in deferred maintenance at state parks and $ 29.5 million for the CalFED water project in the San Joaquin valley. 48 Santa Ana River & Watershed Bibliography Duranceau, S. J., Anderson, R. K., & Teegarden, R. D. (1999). Comparison of mineral acid pretreatments for sulfide removal. American Water Works Association Journal, 91(5), 85. Eckbo Dean Austin & Williams (Cartographer). (1968). Santa Ana River Regional Park study Eventov, A. (1999, Sep 20, 1999). Inland Empire focus: Flood plain has region up a creek. The Business Press, p. 1. Because the tempestuous tributary of the Santa Margarita River has a tendency to flood during heavy rains, the property near the creek is considered a flood plain by the Federal Emergency Management Agency. The creek runs west of Interstate 15 for 11 miles from Wildomar to Temecula, and has a flood plain that stretches up to a quarter-mile on either side of the creek. A few businesses are willing to build in the flood plain, looking at their proximity to the creek as a cost of doing business. Eventov, A. (1999, Jan 4, 1999). Water projects to slake thirst of area growth 1999 what's next? The Business Press, p. 1. Begun in 1995, the $1.9 billion reservoir includes three dams situated in the Domenigoni/Diamond valleys, four miles southwest of Hemet. It will take up to four years to fill the 261 billion-gallon reservoir, which will cover 4,500 acres and double Southern California's reservoir reserves. The second major water undertaking in the region, the Inland Feeder Project, will connect the Eastside Reservoir to the California State Water Project at Lake Silverwood with 44 miles of 12-foot pipeline. Construction will continue through 1999 toward a 2001 completion. Feinbaum, R. (2003). Wastewater recycling advances. BioCycle, 44(12), 28. Finestone, D. (2001, May 4, 2001). S. California power play SCPPA's 'Magnolia Project' draws interest. Bond Buyer, p. 1. SCPPA is a joint powers authority whose members include the municipal utilities of Anaheim, Azusa, Banning, Burbank, Colton, Glendale, Los Angeles, Pasadena, Riverside, and Vernon, and the Imperial Irrigation District. Plans for the Magnolia Project began last year when Burbank, a long-standing SCPPA member, began exploring the possibility of building a new power plant to possibly replace an older, less- efficient plant in the city, said Bill Carnahan, executive director of SCPPA. The Magnolia Project also has drawn the interest of two cities that are not yet members of SCPPA -- Cerritos, and San Marcos, in San Diego County. Fink, B., & Weber, L. (1995). Cordgrass pilot planting experimentation at the Santa Ana River Marsh. Los Angeles, CA: U.S. Army Corps of Engineers, Los Angeles District. Flood Control Field Coordinating Committees 18-20. (1938). Special Flood Control Report, Southern California streams with special emphasis on Los Angeles, San Gabriel, Santa Ana Rivers, California. Includes Appendices I and II. Los Angeles, CA: California Forest and Range Experiment Station, United States Soil Conservation Service. 49 Water Resources Institute, California State University San Bernardino Florkowski, J. (2003, Jul 1, 2003). Drought solution could be underfoot for Ontario, Calif., region. Knight Ridder Tribune Business News, p. 1. The Chino Basin Watermaster, which manages the basin, reached an agreement in June with Metropolitan Water District to store 100,000 acre-feet of water in the basin. An acre-foot is about 325,000 gallons of water or enough water to supply two households a year. If Watermaster stored more than 7 million acre-feet in the basin, water from the basin could flow into the Santa Ana River. Since Inland Valley officials reached a historic agreement three years ago, Watermaster has made great gains in cleaning up and improving the Groundwater Basin, said Dennis Yates, chairman of the Watermaster board. Foster Associates Inc. (2003). Federal court rules that FERC can issue annual licenses to hydroprojects that are pending relicensing (No. 288; Pg. 9): Author. The 9th U.S. Circuit Court of Appeals recently ruled that pending licensing proceedings cannot preclude FERC from issuing annual licenses to hydroelectric projects. The court denied a request by California Trout, Inc. to revoke an annual license to Southern California Edison's (SoCal Edison's) Santa Ana River hydropower project (P-1933) issued by FERC because SoCal Edison had not obtained water quality certification from the California State Water Resources Board (California Board). The report tells the background information leading up to this case. Fox, C. K. (1935). Flood control and water conservation in the basins of the Los Angeles, San Gabriel and Santa Ana rivers: An economic study. Los Angeles, CA: n.p. Ghori, I. (2003, May 2, 2003). City plans route to Santa Ana River trail: Fontana: A flood-control project also may yield a link to a 110-mile path being built to the coast. The Press Enterprise, p. 294 words. A proposed recreation trail could connect north Fontana residents all the way to the Orange County coastline. City officials are developing plans for a 10-mile trail that would run along the San Sevaine flood-control channel from Summit Avenue to the Riverside County border. The project, which does not have a budget yet, is timed to take advantage of a $ 15 million San Bernardino County project to make flood-control improvements along the San Sevaine Creek. The city is expecting state and federal funds also to be available for trail projects, said Paul Balbach, the city's transportation manager. Greenestaff, L. C. (2003, June 6, 2003). Santa Ana River nature preserve will span 3 counties, 100 miles. Inland Valley Daily Bulletin, p. 467 words. A bill creating a Santa Ana River nature conservancy through San Bernardino, Riverside and Orange counties passed the Assembly this week and moves on to the state Senate. A conservancy could mean tens of millions of dollars for the development of parks, nature trails and other forms of recreation along the 100-mile river, said Assemblyman Lou Correa, D-Anaheim, who authored the bill. Critics warn a conservancy might simply add unnecessary bureaucracy and rob counties of local control. The Riverside and San Bernardino boards of supervisors have yet to take positions on the conservancy measure, while Orange County voted to oppose the bill. 50 Santa Ana River & Watershed Bibliography Grindstaff, P. J. (2004). The SAWPA Water Resources Management Plan and Proposition 13 funding (slides). Santa Ana, CA: Santa Ana Watershed Project Authority. Hales, L. Z., & U.S. Waterways Experiment Station Hydraulics Laboratory. (1980). Littoral processes study, vicinity of Santa Ana River mouth from Anaheim Bay to Newport Bay, California (Final technical report). Springfield, Va.: National Technical Information Service. Hanes, T. L. (1984). Vegetation of the Santa Ana River and some flood control implications. In California riparian systems: ecology, conservation, and productive management edited by Richard E. Warner and Kathleen M. Hendrix. (pp. 882-888). Berkeley, CA: University of California Press. Harrison, E. (Writer) (1992). Flood control. In J. Spark (Producer), Geology: A search for order. U.S.A.: Films for the Humanities and Sciences [distributor]. Hatheway, R. G. (1996). Prado Dam (No. CA-16). Pacific Palisades, CA: Greenwood and Associates. Henry, E. C. (1993). Letting the sleeping dog lie: A case study in the no-action remediation alternative for petroleum contaminated soils. Principles & Practices for Petroleum Contaminated Soils. A case where no action is appropriate for a petroleum contaminated soil is discussed. A site in the Santa Ana River floodplain of the greater Los Angeles Basin experienced spillage from underground gasoline storage tanks. Initial remedial actions included excavation, stockpiling, and aeration of soils to a depth of 20 ft. Soil samples indicated that hydrocarbons remained at high levels, but were confined to a shallow, limited area. No further remediation was recommended. Remaining hydrocarbons are expected to biodegrade naturally over time. Holling, C. S., & Chambers, A. D. (1970). Report to the Santa Ana Watershed Planning Agency concerning resouce management in the Santa Ana Watershed. Riverside, CA: Santa Ana Watershed Planning Agency,. Howard, A. K., & U.S. Engineering and Research Center Earth Sciences Branch. (1977). Flexible pipe deflections at Santa Ana River Siphon, Calif., Sidney, Mont., and Carrington, N. Dak. Denver, CO: Earth Sciences Branch, Division of General Research Engineering and Research Center, Bureau of Reclamation, U.S. Dept. of the Interior. Hunter, R. C. (1946). Enclosures to accompany "Report on Survey of Santa Ana River and Tributaries, California for Flood Control", dated November 1, 1946. Los Angeles, CA: Author. Hunter, R. C. (1946). Report on survey of Santa Ana River and tributaries, California for flood control. Los Angeles, CA: U.S. Army, Corps of Engineers, Los Angeles District. Inland Empire West Resource Conservation District. (2002). Invasive species eradication and public outreach plan. Ontario, CA: Author. 51 Water Resources Institute, California State University San Bernardino James M. Montgomery Consulting Engineers, & Chino Basin Municipal Water District. (1965). Chino Basin Municipal Water District: Forecasting the flow of the Santa Ana River at Prado Dam. Pasadena, CA: Author. Jones & Stokes Associates Inc. (1982). Draft environmental impact report for the Santa Ana regional interceptor, reaches IV-D and IV-E (Draft). Sacramento, CA: Author. Jones, J. (2003, November 30, 2003). Clearing the Santa Ana River will protect the environment. Los Angeles Times, p. 185 words. This article points out how easy it will be for Gov. Arnold Schwarzenegger to balance the budget. According to the Army Corps of Engineers, if the Santa Ana River floods, the economic losses would exceed $30 billion. This is why we, the taxpayers, spent more than $1 billion fixing it. The water in the Santa Ana River is urban runoff, not a good place for a bird to raise its family. The best way to protect our environment is to get out the chain saws, dredge and clear the river. KEA Environmental Inc. (2000). Santa Ana River mainstem project, including Santiago Creek, San Timoteo Creek reach 3B (Final environmental impact statement, environmental impact report (EIS/EIR) No. SCH 1998094013). Los Angeles, CA: U.S. Army Corps of Engineers, Los Angeles District. Keith Companies. (1989). Draft Harbor Boulevard Bridge over the Santa Ana River Environmental Impact Report. Costa Mesa, CA: County of Orange EMA/Environmental Planning Division. King, J. L., & Davison, W. C. (1944). Statement of San Bernardino Valley Water Conservation District's position as regards the increased export by the City of Riverside and its reply (Bulletin No. 2). Redlands, CA: San Bernardino Valley Water Conservation District. LA/OMA Project. (1977). Sludge management alternatives for the Los Angeles / Orange County Metropolitan area. Whittier, CA: LA/OMA Project. Larry Munsey International, & Aspen Environmental Group. (2001). Prado basin and vicinity, including Reach 9 and stabilization of the Bluff Toe at Norco Bluffs: Supplemental final environmental impact statement/environmental impact report: Riverside, San Bernardino and Orange Counties, California (No. SC# 97071087). Los Angeles, CA: U.S. Army Corps of Engineers, Los Angeles District. Laughlin, A. (1998). Flooding potential mounts for Inland Empire residents. Inland Empire Business Journal, 10(8), 19. El Nino, increased seismic activity and rapid population growth have brought the issues of Santa Ana River's flood control and drainage in Southern California to the forefront. 52 Santa Ana River & Watershed Bibliography Leach, W. D., Pelkey, N. W., & Sabatier, P. A. (2002). Stakeholder partnerships as collaborative policymaking: Evaluation criteria applied to watershed management in California and Washington. Journal of Policy Analysis and Management, 21(4), 645. Public policymaking and implementation in the United States are increasingly handled through local, consensus-seeking partnerships involving most affected stakeholders. This paper formalizes the concept of a stakeholder partnership, and proposes techniques for using interviews, surveys, and documents to measure each of six evaluation criteria. Then the criteria are applied to 44 watershed partnerships in California and Washington. The data suggest that each criterion makes a unique contribution to the overall evaluation, and together the criteria reflect a range of partnership goals--both short-term and long-term, substantive and instrumental. Success takes time--frequently about 48 months to achieve major milestones, such as formal agreements and implementation of restoration, education, or monitoring projects. Leecaster, M. K. (2002). Assessment of efficient sampling designs for urban stormwater monitoring. Water Research. Using data derived from 1 yr of continuous stormwater sampling in the Santa Ana River, CA, Monte Carlo simulations were performed to evaluate different sampling strategies. Three sampling designs for sampling within storms and five for sampling among storms were considered, each of which is described briefly. The strategies were optimized to maximize the accuracy and precision of mass emissions and concentrations of total suspended solids. The flow-interval sampling design with 12 samples was found to provide the least bias of storm mass emission, and the volume-weighted estimator was found to be the best overall estimator of storm mass emissions. The random sample of all storms or of medium and large storms resulted in the least bias in estimating the annual total suspended solids concentration, whereas no estimator gave the consistently lowest bias in estimating this parameter Leeds, C. T. (1919). Channel improvement as a factor in flood control. Paper presented at the American Society of Civil Engineers, Southern California Association of Members, flood control in Southern California meeting, Los Angeles, CA. Looney, J. W. (1994). Dividing the waters: Governing groundwater in Southern California. Growth and Change, 25(1), 107. Los Angeles Engineering Council of Founder Societies. (1934). Report of Special Engineering Committee on flood control: Including recommendations and appendix. Los Angeles, CA: Author. Louderback, G. (1930). Geological report on dam sites for Prado, San Juan, Santiago, Brea: n.p. Metropolitan Water District of Southern California. (1992). The central pool augmentation and water quality project: Final feasibility planning study: Pipeline alignment alternatives (No. 1063). Los Angeles, CA: Author. Metropolitan Water District of Southern California. (1992). Inland feeder project (Draft environmental impact report: Executive summary No. 1072). Los Angeles, CA: Author. 53 Water Resources Institute, California State University San Bernardino Metropolitan Water District of Southern California. (1992). Inland feeder project (Draft environmental impact report No. 1064). Los Angeles, CA: Author. Miller, J. (2003, June 5, 2003). Fundless conservancy OK'd for Santa Ana River. The Press Enterprise, p. 327 words. The Assembly approved legislation Wednesday creating a state conservancy to improve and protect land along the Santa Ana River. Most Democrats and a handful of Republicans backed the measure, which heads to the Senate for consideration. Supporters said the state conservancy would help beautify a natural resource that flows through some of the Inland area's fastest-growing areas. Yet the bill passed Wednesday contains no money. Unlike the eight other state conservancies, the Santa Ana agency would have to rely mostly on donations from non-profit groups. Miller, J. (2003, April 29, 2003). Saving river's open spaces: A measure would create a conservancy that would secure land along the Santa Ana River. The Press Enterprise, p. 352 words. A bill to preserve land along the Santa Ana River passed its first legislative hearing Monday despite opposition from some Orange County interests. Meant to increase the amount of open space for fast-growing communities in Riverside, San Bernardino and Orange counties, the measure by Assemblyman Correa, D-Santa Ana, would create a state conservancy to manage and buy land along the river. Critics said a Santa Ana conservancy would reduce local control of land use along the river and could interfere with plans to extend Highway 57. Before the bill can take effect, it would have to receive funding from the Legislature or from a future open-space bond measure. The bill would end the conservancy on Jan. 1, 2011. Several environmental groups back the legislation. Moore, B. M. (1996). The Santa Ana River mainstem project. Los Angeles, CA: U.S. Army Corps of Engineers, Los Angeles District. Mulamoottil, G., McBean, E. A., & Rovers, F. (1999). Constructed wetlands for the treatment of landfill leachates. Boca Raton, FL: Lewis Publishers. Nouri, H. M. (1984, July 24-26, 1984). Analysis of flood and mechanics of Santa Ana River. Paper presented at the Water today and tomorrow: proceedings of Specialty Conference sponsored by Irrigation and Drainage Division of American Society of Civil Engineers, Flatstaff, Az., July 24-26, 1984, Flatstaff, AZ. Orange and Los Angeles Counties Water Reuse Study. (1982). Draft facilities plan / Orange & Los Angeles Counties Water Reuse Study (Draft). Los Angeles, CA: Metropolitan Water District of Southern California. Orange County Environmental Management Agency. (1991). Draft local coastal program: Land use plan, North Coast Planning Unit, Santa Ana River Mouth. Santa Ana, CA: Author. Orange County Flood Control District. (1971). Flood plain information: Santa Ana River (Imperial Highway to Prado Dam), Orange and Riverside Counties, California. Los Angeles, CA: Author. 54 Santa Ana River & Watershed Bibliography Orange County Water District, & Boyle Engineering Corporation. (1997). Distribution of extracted Forebay recharge water (No. OC-013-761-10). Newport Beach, CA: Boyle. Orr, J. H. (2000, Mar 6, 2000). Facility ready to start treating Chino basin water. The Business Press, p. 5. While costing $58.3 million and serving just a fraction of the 4.8 million Santa Ana Watershed Project Authority customers in Riverside, San Bernardino, Orange and Los Angeles counties, the desalter marks the first successful effort to clean up the nitrateladen aquifer, made undrinkable by years worth of fertilizer applications on citrus orchards and dairy manure. The project includes pipelines and facilities linking the Santa Ana Watershed Project Authority's 11 wells throughout the basin, delivery systems to the Chino Valley and Jurupa, and a reverse osmosis treatment facility built by Danville-based C.W. Roen Construction Co. P & D Technologies. (1992). Environmental planning technical report: Biological resources (No. 1066). Orange, CA: Author. Cover title : Inland Feeder Project : Environmental planning technical report : biological resources. Includes: ill., maps, tables. P & D Technologies. (1992). Traffic study for the proposed Inland Feeder Project (No. 1071). Orange, CA: Author. Post, W. S. (1928). Santa Ana investigation: Flood control and conservation (Report prepared pursuant to acts of the Legislature, Chapter 476 of the Statutes of 1925 and Chapter 809 of the Statutes of 1927). Sacramento, CA: State of California Department of Public Works, Division of Engineering and Irrigation. Post, W. S., & California Division of Engineering and Irrigation. (1929). Santa Ana investigation: Flood control and conservation (Report prepared pursuant to acts of the Legislature, chapter 476 of the Statutes of 1925 and chapter 809 of the Statutes of 1927). Sacramento, CA: California State Printing Office. Rairdan, C. C. (1999). Regional restoration goals for wetland resources in the greater Los Angeles drainage area: A landscape-level comparison of recent historic and current conditions using geographic information systems. Unpublished Thesis Ph D, University of California, Los Angeles, Los Angeles, CA. 55 Water Resources Institute, California State University San Bernardino Randall, R. A., Nuss, G. S., & USDA-ARS US Water Conserv Lab. (1993, May 19-21, 1993). Rapid Infiltration/Extraction (RIX) Tertiary Treatment System-San Bernardino and Colton, California. Paper presented at the Sixth Biennial Symposium on Artificial Recharge of Groundwater, Scottsdale, AZ. Motivated by various public health concerns, the Santa Ana Regional Water Quality Control Board (CA) decided to re-evaluate the waste management plan that had been implemented in the Santa Ana River Basin. This river serves as an indirect source of potable water for several communities in the region, but also receives wastewater discharges from upstream communities. The Board has issued regulations requiring wastewater dischargers (Colton and San Bernardino) to upgrade their treatment facilities to the point where effluents are pathogen free according to California's Title 22 requirements. The performance of rapid infiltration/extraction systems in this capacity is investigated. Richard Terry and Associates, Santa Ana Watershed Project Authority, & Orange County Sanitation Districts. (1974). Environmental impact assessment of the Santa Ana regional interceptor in San Bernardino, Riverside and Orange Counties, California for Santa Ana Watershed Project Authority and County Sanitation Districts of Orange County. Anaheim, CA: Richard Terry and Associates. Roper, H. M. (1972). Report of flood-control studies in the Santa Ana River Basin. Santa Ana, CA: California Water Commission. Rosenbaum, D. B. (1991). Corps attacks dangerous dry wash. Engineering News - Record, 537 words. The Corps of Engineers is gearing up for major work in a dry wash in southern California it regards as the worst flood threat west of the Mississippi. The cost of the Santa Ana River Mainstem Project, first proposed 22 years ago, now is estimated at $ 1.45 billion. It will guard more than 3 million people from a potential 20-mile-wide flood. The Corps's Los Angeles district and its local partners plan to build one dry dam on the Santa Ana, increase the height of another and line sections of the wash with concrete or rock. The Corps expects to complete a study and cost estimate of the conservation plan within a year. Rosta, P. B. (1998). Ballooning protests forced majors to find another dam site. ENR, 240(14), 29. How protests forced Dennis G. Majors, project manager of the US Army Corps of Engineers, to find another site for his proposed $1.3-billion Santa Ana river mainstem Flood-Control Project is discussed. Rosta, P. B. (1999). Corps receives Seven Oaks Dam. ENR, 243(20), 22. The main contractor on the $270 million Seven Oaks Dam in southern California will turn over the job November 15 to the US Army Corps of Engineers. Under construction since 1989, Seven Oaks is a cornerstone of the $1.3 billion Santa Ana River Mainstem project, which is intended to prevent the river from inundating 170 square miles in three counties. 56 Santa Ana River & Watershed Bibliography Sabatini, R. (1985). Prado Dam basin: Land use analysis report San Bernardino and Riverside Counties, California. Santa Ana, CA: POD Inc. San Bernardino Valley Municipal Water District. (1963). Preliminary report on charges under water supply contract with the State of California Deparmtne of Water Resources, December 16, 1963. Los Angeles, CA: Arthur Young & Company Certified Public Accountants. San Bernardino Valley Municipal Water District, & Arthur Young & Company Certified Public Accountants. (1967). Report of progress on auditing services to the member agencies of the State Water Contractors Audit Committee. Los Angeles, CA: Arthur Young & Company Certified Public Accountants. San Bernardino Valley Municipal Water District, & Arthur Young & Company Certified Public Accountants. (n.d.). Recommendations and comments on and composition of statement of charges under water supply contract rendered by Department of Water Resources dated June 30. Los Angeles, CA: Arthur Young & Co. Certified Public Accountants. San Diego Association of Governments, & Comprehensive Species Management Plan Task Force. (1989). Santa Ana River habitat conservation policy guidelines (Revised). San Diego, CA: San Diego Association of Governments. Santa Ana River-Santiago Creek Greenbelt Commission. (1976). Santa Ana River-Santiago Creek greenbelt implementation plan. Newport Bearch, CA: EDAW, Inc. Santa Ana Watershed Planning Agency. (1972). Santa Ana Watershed Planning Agency final report to the Environmental Protection Agency (Preliminary Draft). Riverside, CA: Author. Schuyler, J. D. (1891). Arrowhead Reservoir Company reports.Unpublished manuscript, Berkeley, CA. Silvastaff, A. (2003, February 14, 2003). Bill would protect length of Santa Ana River. Inland Valley Daily Bulletin, p. 397 words. The nearly 100-mile length of theSanta Ana River could be protected by a new state conservancy under an Assembly bill submitted Friday. Lou Correa, D-Santa Ana, who introduced the bill said, "A conservancy can create river trails, parkland, open space, restore habitat and protect flood control along our river, all without [taking private land] or levying taxes." He readily admits that working out how the proposed organization would be structured will be the difficult part, given the number of jurisdictions the river crosses. 57 Water Resources Institute, California State University San Bernardino Soast, A. (1994). Tall earthfill dam key to flood plan. ENR, 233(19), 26. In semiarid Southern California, the big one generally connotes a seismic event. For those near the usually docile Santa Ana River, however, the major destructive event could be a flood. The Corps of Engineers says it could cover 170 sq miles with about 3 ft of water, jeopardizing more than 3 million persons and 255,000 structures. To avert that, the agency launched a $1.3-billion program. The Corps' 7-pronged defense ranges from building a small levee and floodwalls along tributaries to making downstream channel improvements and placing the massive Seven Oaks Dam near the river's headwaters. Seven Oaks will be a rock and earthfill embankment standing 550 ft above the streambed with a crest length of 3,000 ft. An excavated and grouted foundation trench will extend as far as 80 ft below the dam. The structure will contain 43 million cu yd. Details are provided. Sonderegger, A. L. (1919). Discussion on flood control and conservation of floodwaters. Paper presented at the American Society of Civil Engineers, Southern California Association of Members, flood control in Southern California meeting, Los Angeles, CA. Sonderegger, A. L. (1919). Physiography of watersheds and channels, and analysis of stream action of Southern California rivers. Paper presented at the American Society of Civil Engineers, Southern California Association of Members, flood control in Southern California meeting, Los Angeles, CA. Sonderegger, A. L. (1932). Report on extension of conservation works. Riverside, CA: Water Conservation Association. Steding, A. (1999). Working for healthy urban watershed communities: Santa Ana River Basin and Napa River Watershed. Case studies outline two different approaches to successful management of watershed problems in urban areas. The Santa Ana Watershed Project Authority, CA, is a regional planning and project management agency that has addressed the worst water quality problem in the Santa Ana River basin: increasing salinity of groundwater and surface water. Management of the entire Napa River watershed began in the late 1980s by the Napa County Resource Conservation District, CA. Activities include demonstration of sustainable vineyard practices, watershed-wide volunteer monitoring, and education. Steinitz Rogers Associates, & U.S. Army Corps of Engineers Los Angeles District. (1975). The Santa Ana River Basin: An example of the use of computer graphics in regional plan evaluation: A report submitted to the U.S. Army Engineer Institute for Water Resources (IWR contract report No. 75-3; DACW09-74-C-0006). Springfield, VA: U.S. Army Engineer Institute for Water Resources. Stockstill, R. L. (1994). Application of a two-dimensional model of hydrodynamics to San Timoteo Creek flood-control channel, California (Miscellaneous paper No. HL-94-7). Vicksburg, MS: U.S. Army Engineer Waterways Experiment Station. Swanson, M. T., & Hatheway, R. G. (1989). The Prado Dam and reservoir, Riverside and San Bernardino Counties, California. Pacific Palisades, CA: Greenwood and Associates. 58 Santa Ana River & Watershed Bibliography Tabatabai, F. (1994). Wetland mitigation banking: Investigation of an innovative approach to offsite wetland compensatory mitigation. DAI, 55(12B), 200. The concept of wetland mitigation banking that emerged in the 1980's has gained support and raised criticism as a method to compensate for impacts of several projects to wetlands. This study evaluated the success and effectiveness of existing riparian mitigation banks and offered a watershed approach to using this wetland management tool. Regional guidelines for mitigation banks are proposed for the U.S. Army Corps of Engineers, Los Angeles District that take into consideration the findings of this study. Existing riparian mitigation banks in the Los Angeles Basin were examined using the Wetland Evaluation Technique (WET) developed by Adamus. The effectiveness of each bank was evaluated for providing wetland functions and values, such as wildlife habitat, floodflow alteration, groundwater recharge, sediment stabilization, and sediment/toxicant retention. The effectiveness varied and was generally higher for the mitigation bank where riparian wetlands historically existed. A riparian mitigation bank in the Santa Ana River watershed was initiated as part of this study as a two-phase project. The first phase involved establishment of a fee-based-compensatory mitigation site, and the second phase a mitigation bank, where restoration is in-advance of impacts to wetlands. The results of this study demonstrate that many of the problems associated with project-byproject compensatory mitigation are also encountered with wetland mitigation banks. For wetland mitigation banking to be a successful management tool, the focus should be on creation of wetlands where they have existed historically. The New York Times. (1997, Nov 9, 1997). An ecological battle over river basins in California. New York Times, p. 1.32. The latest debate centers on two of Southern California's obsessions: natural disasters and El Nino, a warming of the Pacific Ocean that is expected to bring the region an unusually wet winter. Fearing flooding, the Los Angeles County Department of Public Works won emergency Federal approval in October to clear the river basins of trees and brush that engineers believe could impede the flow of water during heavy storms. Such work in the two principal watersheds, the Los Angeles and San Gabriel Rivers, has been put off for several years because of the cost and because of regulations intended to protect the environment. U.S. Army Corps of Engineers. (1975). Recommended plan of improvement for flood control and allied purposes: Santa Ana River main stem, Santiago Creek and Oak Street drain, Orange, Riverside and San Bernardino Counties, California. Los Angeles, CA: U.S. Army Corps of Engineers, Los Angeles District. U.S. Army Corps of Engineers. (1977). Review report on the Santa Ana River main stem including Santiago Creek and Oak Street drain for flood control and allied purposes (Final Environmental Statement). Washington, DC: Author. U.S. Army Corps of Engineers. (1983). Santa Ana River, California flood control. Los Angeles, CA: Author. U.S. Army Corps of Engineers Los Angeles District. (1971). Flood plain information: Santa Ana River (Imperial Highway to Prado Dam), Orange and Riverside Counties, California. Los Angeles, CA: Author. 59 Water Resources Institute, California State University San Bernardino U.S. Army Corps of Engineers Los Angeles District. (1975). Review report on the Santa Ana River main stem and Santiago Creek (Draft environmental statement). Los Angeles, CA: Author. U.S. Army Corps of Engineers Los Angeles District. (1975). Review report on the Santa Ana River main stem: Including Santiago Creek and Oak Street Drain, for flood control and allied purposes. Los Angeles, CA: Author. U.S. Army Corps of Engineers Los Angeles District. (1975). Santa Ana River Basin and Orange County (main stem Santa Ana River and Santiago Creek) Orange, Riverside and San Bernardino Counties, California (Draft environmental statement summary). Los Angeles, CA: Author. U.S. Army Corps of Engineers Los Angeles District. (1977). Final environmental statement, review on the Santa Ana River Main Stem, including Santiago Creek and Oak Street Drain: For flood control and allied purposes (Final environmental statement). Los Angeles, CA: Author. U.S. Army Corps of Engineers Los Angeles District. (1977). Review report on the Santa Ana River Main Stem, including Santiago Creek and Oak Street Drain, for flood control and allied purposes (Final environmental statement). Los Angeles, CA: Author. U.S. Army Corps of Engineers Los Angeles District. (1980). Santa Ana River main stem, including Santiago Creek and Oak Street Drain: Draft phase I general design memorandum: Counties of Orange, Riverside, and San Bernardino, California (Draft). Los Angeles, CA: Author. U.S. Army Corps of Engineers Los Angeles District. (1987-). Santa Ana River, Santa Ana River Flood Control Project. Los Angeles, CA: U.S. Army Corps of Engineers, Los Angeles District. U.S. Army Corps of Engineers Los Angeles District. (1988). Final supplemental environmental impact statement, Santa Ana River mainstem including Santiago Creek: Phase II general design memorandum: Counties of Orange, Riverside, and San Bernardino, California (Final EIS). Los Angeles, CA: Author. U.S. Army Corps of Engineers Los Angeles District. (1994). The Santa Ana River hydroelectric system. Los Angeles, CA: U.S. Army Corps of Engineers, Los Angeles District. U.S. Department of Agriculture Soil Conservation Service. (1942). Run-off and water flow retardation and soil erosion prevention for flood control purposes, Santa Ana River, California (Survey Report). Berkeley, CA: Author. U.S. Department of Agriculture Soil Conservation Service. (1953). San Gabriel-Santa Ana River watersheds, California: Program for runoff and waterflow retardation and soil erosion prevention, pursuant to the Act approved June 22, 1936 (49 Stat. 1570), as amended and supplemented. Portland, OR: Author. 60 Santa Ana River & Watershed Bibliography U.S. Office of the Assistant Secretary of the Army (Civil Works). (1985). Santa Ana River main stem, including Santiago Creek, California, phase I-GDM: Communication from the Assistant Secretary of the Army (Civil Works) transmitting a letter from the Chief of Engineers, Department of the Army, dated January 15, 1982, submitting a report, together with accompanying papers and illustrations, on Santa Ana River main stem, including Santiago Creek, California. In U. S. C. H. C. o. P. W. a. Transportation. (Ed.) (pp. lxxvi, 516). Washington, DC: U.S. Government Printing Office. Underwood, D. B. (1972). Transmittal of preliminary report on Orange, Riverside, and San Bernardino Counties, Santa Ana River Planning Basin. Los Angeles, CA: Resources Agency, Dept. of Water Resources, Southern District. University of California Berkeley College of Agriculture. (1949). Review of Survey report, Santa Ana River watershed, for run-off and water-flow retardation and soil erosion prevention in aid of flood control purposes. Berkeley, CA: Forest Service, U.S. Department of Agriculture. University of California Committees, U.S. Dept. of Agriculture, & California Division of Water Resources. (n.d.). Flood control studies in California.Unpublished manuscript. Victor Gruen Associates, & Eisner-Stewart & Associates. (1963). Reconnaissance and critique report, Southern California region: California State development plan program. Los Angeles, CA: California State Office of Planning. Vitucci, C. (2002, March 26, 2002). Regional problems discussed at meeting: An array of problems relating to the Santa Ana River Watershed are covered. The Press Enterprise, p. 331 words. Dairy deposits, transportation woes and air-quality concerns were among the issues members of the Santa Ana River Watershed Group brought to a meeting in Washington on Monday. Monday's two-hour meeting was to establish a relationship with the President's Council on Environmental Quality, which coordinates federal environmental efforts and works closely with agencies and the White House, according to Irvine attorney Lindell Marsh, a facilitator for the group. The meeting set the stage for what is planned to be a more detailed goals-outlining session in Lake Arrowhead in May about the future of the Santa Ana River Watershed. Marsh said the Santa Ana River Watershed Group's goals include: * Improving the Santa Ana River's water quality -- degraded after decades of urbanization and dairy operations from the Chino Basin dairy area. * Cleaning up the Chino Basin. * Improving transportation flow along the Interstate 10 corridor. Water Education Foundation. (1995). Watershed management. Sacramento, CA.: Author. West End Soil Conservation District. (1958). Watershed work plan Upper Chino Basin Watershed, San Bernardino and Riverside Counties, California. n.p.: U.S. Soil Conservation Service. Wyman, T. (1939). The Santa Ana River, California, flood control. Los Angeles, CA: U.S. Army Corps of Engineers, Los Angeles District. 61 Water Resources Institute, California State University San Bernardino Basin-wide Health and Safety Apanian, D., Malvitz, D., & Presson, S. (2002). Populations receiving optimally fluoridated public drinking water--United States, 2000. JAMA, 287(16), 2071. The state-specific data on the status of water fluoridation in the US and a new surveillance system designed to routinely produce state and national data to monitor fluoridation in the public water supply are described. A CDC editorial note is included. Orr, J. H. (2002, Jun 17, 2002). Pain may reign as runoff rules gain. The Business Press, p. 1. The state will prohibit restaurants, auto repair shops, factories and builders from simply hosing off their parking lots and shop floors and letting the water and trash flow into storm drains. Both Riverside and San Bernardino counties are scurrying to come up with plans to ensure water running into storm drains is as clean as possible as they renew their pollutant elimination permits as required by federal law. Most developers manage storm runoff using sandbags, silt nets and other methods, he said. The costs appear particularly large, especially since few of Riverside County's waters targeted by the regulations are used primarily for recreation, said Stephen Stump. Polakovic, G. (1996, August 28, 1996). Huge sewage leak went unreported; Health officials never told the public of the month-old, 10 million-gallon spill into the Santa Ana River. The Press Enterprise, p. 1246 words. Water quality agencies made no effort to warn swimmers or others last month after discovering 10 million gallons of raw sewage had spilled from a ruptured pipe into the Santa Ana River just upstream from a popular swimming hole near Riverside. The spill occurred on July 20 and gushed wastewater from a manhole for four days before a hiker discovered the leak. The spill, the biggest in Riverside County in five years, spread pollution from Riverside to Prado Dam. Authorities emphasize they are still investigating the incident and they have not determined who is culpable, Riverside, the Jurupa district or perhaps some other party. While most of the contamination has since been removed, the immediate concerns included: Swimmers exposed to infectious agents, including viruses and bacteria capable of causing hepatitis, giardia or dysentery. Rooney, G. (1996, September 17, 1996). Public on list for spill news; Wider notice of sewage spills in the Santa Ana River considered after a major spill went unreported to the public for a month. The Press Enterprise, p. 789 words. County supervisors today will consider a new policy to notify the public after sewage spills in the Santa Ana River, but county health officials doubt it will keep everyone out of the river on hot summer days. Responding to reports in The Press-Enterprise that a 10million-gallon sewage spill near a popular swimming spot went unreported to the public for a month, supervisors in August ordered health officials to develop a new disclosure policy. The proposed policy calls for immediate notification, by fax or other electronic communication, to members of the Board of Supervisors, city managers in affected areas, various county officials, members of the Santa Ana Regional Water Quality Control Board and The Press-Enterprise. 62 Santa Ana River & Watershed Bibliography Sforza, T. (2002, Mar 29, 2002). Study reveals higher concentrations of contaminants in California's streams. Knight Ridder Tribune Business News, p. 1. The USGS tested 139 streams in 30 states, including 10 in California. Scientists found antibiotics, painkillers, contraceptives, perfumes, caffeine, antidepressants, detergents, insecticides, fire retardants, disinfectants and other chemicals in 80 percent of the streams surveyed. The chemicals are present at extremely low concentrations, but high enough to be linked to sex reversal in male fish. The Santa Ana River -- a major source of Orange County's drinking water -- is primarily waste-water effluent for much of the year, and California's waters also included an abundance of other chemicals. Shields, J. M., Olson, B. H., & University of California Irvine. (1999, October 31-November 3, 1999). Detection of Cyclospora sp. in the Santa Ana River and San Diego Creek Watersheds in Southern California. Paper presented at the Proceedings 1999 Water Quality Technology Conference, Tampa, FL. Human infections by parasitic protozoa, via water, are a growing concern. It is, therefore, important to determine if these protozoa are present in drinking and irrigation water sources. Water was collected from six sites within the Santa Ana River Watershed as well as one site in the San Diego Creek Watershed. These sites include those affected by run-off from agricultural, livestock, urban and pristine areas. Each month, over a period of a year, four 10-liter samples were taken from each site. Samples were flocculated with calcium carbonate and the precipitant centrifuged. The resultant pellets were digested and inhibitors removed. Restriction Fragment Length Polymorphism (RFLP) was employed to distinguish organisms in positive samples. Results of the first year of sampling are presented. Webb, J. P., Jr., Bennett, S. G., Curry, J. I., Fogarty, C. L., & Madon, M. B. (1991). Ixodes pacificus and lyme disease in Orange County, California, 1989. Proceedings and papers of the annual conference of the California Mosquito and Vector Control Association, 58, 53-54. Basin-wide Water Quality Summary of results Upper Santa Ana Valley salt balance study continued. (1950). n.p. Ground water problems (HR 179): Hearing of the Assembly Interim Committee on Water, California State Legislature, held in National Orange Show Grounds, San Bernardino, California, Tuesday, May 15, 1962, California Legislature Assembly Interim Committee on Water 213 (1962). Resolutions and orders issued by the California Regional Water Quality Control Board--Santa Ana Region, 1968-1975 63 Water Resources Institute, California State University San Bernardino Resolution 59-5 (3-68) prescribing waster discharge requirements for the disposal of treated municipal and industrial wastes by the County Sanitation Districts of Orange County to the Pacific Ocean near the Santa Ana River Mouth -- Resolution no. 75-36 identifying the San Diego Creek/Newport Bay Watershed as a candidate for 208 planning -- Order no. 75-53 NPDES no. CA0105244, waste discharge requirements for the Irvine Company Agricultural Division irrigation return flow, Orange County. (1968). n.p.: California Regional Water Quality Control Board--Santa Ana Region. Costly nitrogen fix looms. (1991). Engineering News - Record, 366 words. Wastewater treatment plants in Southern California's Santa Ana river basin could be forced to reduce nitrogen concentrations significantly in their effluent discharges. The action may force local governments to spend up to $ 300 million to build or improve tertiary treatment systems at six treatment plants. Aqua 2000. (2000). American Water Works Association Journal, 92(12), 18. Currently, Aqua 2000 is focusing research and development on membrane systems. These systems can be run with surface water, groundwater, wastewater, and reclaimed water. At the San Pasqual facilities, researchers are conducting tests to document system performance and disinfection efficiency for five low-pressure membrane systems on surface water and on two membrane bioreactors being used to reclaim wastewater. New facility to treat colored water. (2000). American Water Works Association Journal, 92(1), 115. Storm drain regulations causing headaches. (2001, Dec 3, 2001). The Business Press, p. 35. Turning wastewater into potable water. (2001). Reeves Journal, 81(5), 12. Informational hearing: Assessment of groundwater clean-up costs, various pagings (2003). News of the field -- Recycling, desalting projects reclaim needed water in California. (2003). Journal American Water Works Association, vol.75(no.5), p 60-61. A groundwater desalting plant and a wastewater recycling project have been approved for construction by the board of directors of the Metropolitan Water District of Southern California (MWD). The $3.6 million desalting plant is to be built in western Riverside County near the Santa Ana River and will treat salty groundwater supplies. The second project will recycle reclaimed wastewater from a sewage treatment plant in South Laguna, Orange County to irrigate lawns, etc. Ascenzi, J. (1997, Apr 7, 1997). Desert dump under cloud of lawsuits, investigations Rail-Cycle's problems include voter defeat of tax, manager's arrest. The Business Press, p. 3. San Bernardino County sheriffs deputies arrested Franklin O'Dell of Irvine, manager of the Rail-Cycle project and an employee of Waste Management Inc. Irvine-based Waste Management is a joint venture partner in Rail-Cycle along with Burlington Northern Santa Fe Railroad. Cadiz farms about 2,000 acres near the proposed landfill site, and owns the rights to a giant aquifer under its desert property. The Cadiz lawsuit seeks to 64 Santa Ana River & Watershed Bibliography block the Rail-Cycle project on the grounds that the landfill would contaminate the water in the aquifer. Atwater, R., & Sellew, P. (2002). Organics management, clean water and renewable energy. BioCycle, 43(2), 24. The Chino Groundwater Basin is one of the largest sources of groundwater in southern California. The basin encompasses approximately 220 square miles of the upper Santa Ana River watershed, and is home to the largest concentration of dairies in the world consisting of over 300 dairy farms and over 400,000 cows, heifers and calves. These dairies produce over 1,000,000 tons of manure annually. Over the years, agricultural runoff has impacted local groundwater reserves, resulting in elevated levels of salts, dissolved solids and nitrates, making it unsuitable for direct human consumption without further treatment. The need to protect the watershed's valuable waters and allow an important local industry to remain vibrant has resulted in the need to develop creative ways of managing the organic wastes. Ayers, R. S., & Branson, R. L. (Eds.). (1973). Nitrates in the upper Santa Ana River Basin in relation to groundwater pollution. Berkeley, CA: University of California (System) Division of Agricultural Sciences, Agricultural Experiment Station. Ayers, R. S., & University of California Davis. (1979). A case study-Nitrates in the Upper Santa Ana River Basin in relation to groundwater pollution. ENVIROLINE, p 355. A study was conducted to analyze nitrate distribution and concentration in the underground waters of the upper Santa Ana River Basin in Southern California because high nitrogen concentrations had been found there. Available data identifying existing areas of high nitrate concentrations in underground waters were reviewed. Past land, water, and fertilizer use were examined, and past waste disposal practices were investigated. Estimates of the impact of irrigation, fertilization, and use of animal wastes on leaching of nitrate from root zones are presented, based on measurements of nitratenitrogen concentrations in soil water at various sites. Guidelines for the use of water, fertilizers, and manures were developed. Bedessem, J. M. (1990). Chemical coagulation of molecular weight fractions from dissolved organic matter. MAI, 29(02), 151. Chemical coagulation of eighteen groundwater samples from the Santa Ana River Groundwater Basin was evaluated on the bench scale to determine its viability for treating these low quality groundwaters to current USEPA drinking water standards. The color and organic matter in both raw and treated water samples were characterized according to UV absorbance and DOC molecular weight fingerprints. Alum coagulation with 5 mg/L as Al successfully treated raw waters with color of up to 60 pcu and 190 $mu$g/L THMFP to meet the standards of 15 pcu and 100 $mu$g/L for color and THM, respectively. Variations of the coagulation process which showed merit were pH modification, pre-ozonation, and using a cationic polymer, Magnifloc 573C, as a sole coagulant. Coagulation preferentially removed high-molecular-weight material which was responsible for causing the greatest degree of color. These color bodies were not, however, responsible for the majority of the THMFP. 65 Water Resources Institute, California State University San Bernardino Belitz, K. (2004). Water quality in the Santa Ana Basin, California, 1999-2001 (No. 0607964073 (alk. paper)). Reston VA: U.S. Dept. of the Interior U.S. Geological Survey. Braunstein, E. (2002, April 13, 2002). Waste recycler closed: Violation: The operator is accused of dumping illegal material near the Santa Ana River. The Press Enterprise, p. 872 words. The city of Riverside shut down one of the region's largest plant-waste recyclers Friday, one week after the owner was notified that he was violating state laws against dumping near the Santa Ana River. The California Regional Water Quality Control Board cited Inland Empire Composting for taking in tons of a plastic-laden pulp and trying to conceal it on a 46-acre site located at the Riverside city border near Colton. Inland Empire Composting was authorized only to take in green waste -- lawn and tree clippings -- for composting into mulch and ground cover. Other problems were noted by the regulatory board, which is the regional arm of the Environmental Protection Agency. But Dixie Lass, senior engineering geologist for the Water Quality Control board, said the unauthorized pulp, spread over 16 acres, was the "clincher." Owner Jim Sullivan said he was wrong to use the plastic-laden pulp without consulting with the water board. He said he used the pulp as a carbon-based bulking agent to make compost. Bryant, J. W., City of Riverside, Rohr Aircraft Corporation, San Bernardino County Flood Control District, & Arlington Utility Company. (1956). Proposed water quality objectives for Santa Ana River at Prado (Report to Regional Water Pollution Control Board No. 8 on). Riverside, CA: California Division of Water Resources. California Bureau of Sanitary Engineering. (1951). An investigation of waste disposal in the lower reaches of the Santa Ana River (Code no. 52-8-5). Berkeley, CA: State of California, Dept. of Public Health, Bureau of Sanitary Engineering. California Bureau of Sanitary Engineering. (1972). Beneficial water uses and water quality problems. Berkeley, CA: State Dept. of Public Health, Bureau of Sanitary Engineering. California Department of Water Resources. (1965). Dispersion and persistence of synthetic detergents in ground water, San Bernardino and Riverside Counties: A report to the State Water Quality Control Board (California State Water Quality Control Board Publication No. 30). Sacramento, CA: State Water Quality Control Board. California Department of Water Resources. (1967). Preliminary design report on Santa Ana Valley pipeline. Sacramento, CA: California Resources Agency, Dept of Water Resources. "The purpose of this report is to provide a summary of engineering studies leading to the selection of the alignment of the portion of the California Aqueduct designated Santa Ana Valley Pipeline, as well as the conveyance facilities necessary therefor." California Department of Water Resources, & Santa Ana Watershed Planning Agency. (1972). Vertical distribution of nitrate and other mineral constituents in the ground water of the upper Santa Ana Watershed (Letter report). Los Angeles, CA: Author. California Division of Water Resources. (1956). Statement by Division of Water Resources on quality of water to be maintained in Santa Ana River at Prado. Sacramento, CA: n.p. 66 Santa Ana River & Watershed Bibliography California Regional Water Quality Control Boards. (1971). Santa Ana River Basin: Interim water quality management plan. n.p.: Author. California Regional Water Quality Control Board--Santa Ana Region. (1962). Report on preliminary investigation of the occurrence of apparent alkyl benzene sulfonate in the surface and ground waters of the Santa Ana River in the vicinity of the Colton Narrows. n.p.: Author. California Regional Water Quality Control Board--Santa Ana Region. (1973). Interim water quality control plan for the Santa Ana River Basin. Riverside, CA: California State Water Resources Control Board,. California Regional Water Quality Control Board--Santa Ana Region. (1974). Oil spill response plan. n.p.: Author. California Regional Water Quality Control Board--Santa Ana Region. (1975). Water quality control plan report : Santa Ana River Basin State Water Resources Control Board, Regional Water Quality Control Board, Santa Ana Region (8). Santa Ana, CA: Author. California Regional Water Quality Control Board--Santa Ana Region. (1976). Amendments to the water quality control plan, Santa Ana River Basin. Riverside, CA: Author. California Regional Water Quality Control Board--Santa Ana Region. (1984). Water quality control plan for the Santa Ana River Basin (8). Riverside, CA: Author. California Regional Water Quality Control Board--Santa Ana Region. (1991). Nitrogen and TDS studies: Upper Santa Ana Watershed. n.p.: Author. California Regional Water Quality Control Board--Santa Ana Region. (1993). Water quality control plan: Santa Ana River Basin (8). Sacramento: State Water Resources Control Board. California Regional Water Quality Control Board--Santa Ana Region. (1995). Water quality control plan report, Santa Ana River Basin (8). Sacramento, CA: California Regional Water Quality Control Board, Santa Ana Region. California Regional Water Quality Control Board--Santa Ana Region, & California State Water Resources Control Board. (1975). Water quality control plan report: Santa Ana River Basin (8). Sacramento, CA: State Water Resources Control Board. California State University Fullerton Dept. of Geological Sciences. (1987). Santa Ana River unionized ammonia project (Final report to California Regional Water Quality Control Board, Santa Ana Region). Fullerton, CA: Dept. of Geological Sciences, California State University, Fullerton. California State Water Resources Control Board. (1971). Preliminary interim water quality management plan: Santa Ana River Basin (Summary report). Riverside, CA: State of California, the Resources Agency, State Water Resources Control Board. California State Water Resources Control Board. (1975). Water quality control plan report. Sacramento, CA: Author. 67 Water Resources Institute, California State University San Bernardino California State Water Resources Control Board. (1995). Investigation of the fate of nitrogen and total organic carbon in the Prado Basin (Final report). Riverside, CA: Santa Ana Watershed Project Authority,. California State Water Resources Control Board, & California Regional Water Quality Control Board. (1971). Interim water quality control plan. Sacramento, CA: State Water Resources Control Board. California State Water Resources Control Board, & California Regional Water Quality Control Board--Santa Ana Region. (1974). Water quality control plan for the Santa Ana River Basin (Tentative). Sacramento, CA: California State Water Resources Control Board. California State Water Resources Control Board, & California Regional Water Quality Control Board--Santa Ana Region. (1974). Water quality control plan for the Santa Ana River Basin: Abstract (Tentative). Sacramento, CA: California State Water Resources Control Board. California State Water Resources Control Board, & California Regional Water Quality Control Board--Santa Ana Region. (1975). Water quality control plan report, Santa Ana River Basin (8): Addendum to part 1. Santa Ana, CA: Author. Camp Dresser & McKee. (1989). Nitrate impact study report. Ontario, CA: Author. Chang, A. C., & LA/OMA Project Los Angeles/Orange County Metropolitan Area. (1976). Land application of sewage sludge: A field demonstration, 1975-76 annual report. Whittier, CA: LA/OMA Project. Clawson, R. F., & Ramstedt, E. C. (1957). Ground water quality objectives, Arlington and Riverside Basins: A report to Santa Ana Regional Water Pollution Control Board (No. 8) (Water quality investigations No. 57-8-1). Los Angeles, CA: California Division of Water Resources. Collins, M. (2000, May 19, 2000). Russians, rockets and the Santa Ana River. OC Weekly, p. 18. The Aerojet site is near the juncture of Los Angeles, Orange and San Bernardino counties. There, the firm detonated mustard- and tear-gas weapons, exploded depleted uranium-tipped projectiles, and produced a galaxy of bombs and munitions. The depleted uranium on the projectiles, which were deployed as tank-busters in the Gulf War and Kosovo, is linked to bone cancer and kidney disease and has a half-life of 4.468 billion years. Residents of Chino and Chino Hills claim that chemical and radioactive poisons oozing from the site are damaging their health, even causing cancers. Though linking specific cases of cancer to environmental causes is exceedingly difficult, 58 residents of Chino and Chino Hills have sued Aerojet, alleging fraud, negligence and seven wrongful deaths. County Sanitation Districts of Los Angeles County. (1979). Reuse applications, joint outfall system: Subtask 2.5 of Orange and Los Angeles Counties water reuse study. Whittier, CA: County Sanitation District no. 2 of Los Angeles County. 68 Santa Ana River & Watershed Bibliography Davisson, M. L. (1999). Report on isotope tracer investigations in the Forebay of the Orange County groundwater basin: Fiscal years 1996 and 1997 (No. UCRL-ID-133531). Livermore, CA: Lawrence Livermore National Laboratory. Dendy, B. B. (1970). The Santa Ana - A river and it's problems. Santa Ana, CA: Santa Ana Watershed Planning Agency. Presented at two one-day seminars for the California Regional Water Quality Control Board Santa Ana Region, and the Tri-County Conservation League at the University of California, Riverside, on March 26, 1970, and the University of California, Irvine, March 27, 1970. Ding, W. H., Wu, J., Semadeni, M., & Reinhard, M. (1999). Occurrence and behavior of wastewater indicators in the Santa Ana River and the underlying aquifers. Chemosphere 39(11), 1781-1794. Donabedian, C. S., & Dasker, D. (1964). Selection of a base period for the Chino-Riverside and Bunker Hill-San Timoteo area (Technical information record study code No. 335-3-B-1). Los Angeles, Ca.: California Dept. of Water Resources Southern District Planning Branch. Eccles, L. A. (1979). Ground-water quality in the upper Santa Ana River basin, Southern California (Water-resources investigations No. 79-113). Menlo Park, CA: U.S. Dept. of the Interior Geological Survey. Eccles, L. A., & Nicklen, R. R. (1979). Factors influencing the design of a ground water quality monitoring network in the Upper Santa Ana River basin in Southern California, includes irrigation waste waters. American Water Resources Association, p. 196-209. Ecological Systems Corp. (1974). Chino Basin Water Conservation District water quality/management study. Santa Monica, CA: Author. Federal Security Agency Public Health Service Division of Water Pollution Control California and Great Basin Drainage Basins Office. (1951). Report on water pollution control: Santa Ana River basin, California drainage basin. Washington, DC: U.S. Division of Water Supply and Pollution Control. 69 Water Resources Institute, California State University San Bernardino Filippelli, G. M., Carnahan, J. W., Derry, L. A., & Kurtz, A. (2000). Terrestrial paleorecords of Ge/Si cycling derived from lake diatoms. Chemical Geology, 168(1-2), 9-26. Modern river studies support the generalization that surface waters in regions undergoing extensive chemical weathering have elevated dissolved germanium/silicon (Ge/Si) ratios compared to regions with less extensive chemical weathering, thought to be the result of Ce fractionation in 2:1 clays. Temporal variations in Ge/Si observed in marine diatoms have thus been linked to past global trends in terrestrial weathering. However, this relationship has not been adequately ground-truthed by a terrestrial-based paleoclimate study utilizing Ge/Si ratios in lake diatoms. To this end, a sediment core was extracted from Dry Lake (el. 2763 m) in the headwaters of the Santa Ana River of southern California in July 1996. The Dry Lake drainage basin is comprised of biotite-muscovite gneiss and granite, with sparse pine forests and relatively high relief. The core had a basal AMS C-14 age of 8,350 +/- 60 ybp. We successfully separated diatom samples large enough for cleaning, dissolution and chemical analysis without contamination by detrital materials (confirmed by trace metal analyses). Two dissolved opal samples were analyzed for Ge and Si concentrations along with modern water samples collected from waters within the drainage basin. Diatoms obtained from 8000-year-old sediments near the bottom of the core had an opal Ge/Si of 0.79 x 10(-6) (mol/mol). A composite sample of diatoms deposited within the past 100 years yielded a significantly lower Ge/Si of 0.34 x 10(-6). Analysis of Ge/Si was also performed from a variety of other materials in the Dry Lake basin, including stream and lake water, unweathered bedrock, soils, and mineral separates. Together with sedimentologic records from the lake sediments and Ge/Si recorded in other basin materials, it appears that the high Ge/Si values recorded in the 8000-year opal sample were the result of preferential early weathering of high Ge/Si biotite and muscovite minerals from the slopes. Thus, the detailed examination of Ge/Si cycling in this isolated basin indicates that factors other than clay mineral transformations may drive Ge/Si paleorecords in some settings. Finestone, D. (2002, Jul 22, 2002). Calif. Water Board selling first issue; cleanup projects will get proceeds. Bond Buyer, p. 1. Moody's Investors Service assigned a natural AAA rating and stable outlook to the deal, noting the substantial loan repayments as collateral and strong credit quality of the portfolio. The 50 largest borrowers have 98 loans outstanding. About 54% of the loans could be in default for the life of the bonds, and all debt service obligations would still be met, analysts said. However, the board is allowed to release the pledged loans down to 1.15 times annual debt service coverage, and may substitute pledged loans. The overcollateralized cash flow is projected to provide between 2.2 and 9.2 times coverage over the life of the bonds, analysts said. The healthy credit of borrowers set to repay loans led Standard & Poor's to assign a AAA rating to the bonds. 70 Santa Ana River & Watershed Bibliography Florkowski, J. (2003, Sep 10, 2003). Area legislator backs water recycling projects for inland valley in California. Knight Ridder Tribune Business News, p. 1. Using recycled water will allow local agencies to keep waste water in the area, rather than letting it flow into the Santa Ana River, said Robert Neufeld, president of the CCWD board of directors. The Inland Valley officials will seek federal support for their programs that are expected to provide about 75,000 acre-feet of recycled water. Currently, only about 6,000 acre-feet of recycled water is used, mainly for irrigation and landscaping. The IEUA is planning a series of pipelines that would deliver recycled water from its wastewater treatment plants to most of the western San Bernardino County cities the agency serves. Geological Survey of California (Cartographer). (1870). Map of portion of Southern California from the Santa Inez River to the Santa Ana River [1 ms map]. Gray, K. A. (1996). Evaluation of organic quality in Prado Wetlands and Santa Ana River by pyrolysis-GC-MS. Fountain Valley, CA: Orange County Water District. Gutierrez, J. (1994, July 13, 1994). Health risk or not, river pond is really cool; A county official says warning signs once appeared along the Santa Ana River from San Bernardino to Norco, but as water quality improved, some signs may have disappeared. Law does not require the signs. The Press Enterprise, p. 795 words. It's not deep enough to safely dive or swim in, but a small pond of the Santa Ana River draws large crowds seeking to escape the summer heat. The heavy crowds mirror the heavy traffic above speeding across the Van Buren Boulevard bridge that borders Riverside and Pedley. People have been coming to the river and pond, part of the 1,500acre Santa Ana River Regional Park, for years. But cooling off in the river could pose a risk - depending on who you ask. State water officials say the river is a health risk, while Riverside and Riverside County officials say there is no health risk because treated water makes the water under the bridge safe. Hamlin, S. N. (2002). Ground-water quality in the Santa Ana Watershed, California: Overview and data summary (Water-resources investigations report No. 02-4243). Sacramento, CA: U.S. Geological Survey, National Water-Quality Assessment Program. Hasegawa, S. (2003). Risk assessment of point and nonpoint source pollution on water resources along the Santa Ana River. Unpublished Thesis, California State University, Fullerton, Fullerton, CA:. Hassan, A. A., & Motokane, E. S. (1973). Mathematical modeling of ground water quality. Sacramento, CA: State of California, the Resources Agency, Department of Water Resources. Hassan, A. A., & Roos, A. (1970). Evaluation of mathematical modeling of ground water quality (Technical information record study No. 1335-3-C-7). Los Angeles, CA: State of California Resources Agency, Dept. of Water Resources, Southern District. Havelka, D. E. (1971, March 31-April 1, 1971). Changes of water quality of the Santa Ana River during the past two decades. Paper presented at the American Society of Agricultural Engineers (A.S.A.E.) Pacific Region annual meeting., St. Joseph, MI. 71 Water Resources Institute, California State University San Bernardino Howard, B. (1996, Feb 26, 1996). Boxer vows to lobby for S.B. water treatment funding. The Business Press, p. 3. The EPA is ready to build the Newmark treatment plant, but the project was left unfunded last year when Congress cut the EPA's budget by $100 million. Proposed cuts in this year's EPA budget could eliminate funds for Newmark as well as several other Superfund sites. San Bernardino's water department and Riverside's public utilities department have sent letters to [Barbara Boxer] and other elected officials urging them to work for EPA funding of the Newmark project. Boxer said any other letters, resolutions or formal pleas by additional local city and county officials would be "very helpful to me when I fight this fight when I go back to Congress." Irwin, G. A., & Lemons, M. (1974). Reconnaissance study of selected nutrients, pesticides, and trace elements in the Eel, Salinas, and Santa Ana Rivers, California, October 1971 through July 1972 (No. PB-235-732). Menlo Park, CA: U.S. Geological Survey. Izbicki, J. A., Mendez, G. O., & Burton, C. A. (2000). Stormflow chemistry in the Santa Ana River below Prado Dam and at the diversion downstream from Imperial Highway, Southern California, 1995-98 (Water-resources investigations report No. 00-4127). Denver, CO: U.S. Dept. of the Interior, U.S. Geological Survey. Jackson, R. E. (2004). Recognizing emerging environmental problems: The case of chlorinated solvents in groundwater. Technology and Culture, 45(1), 55-79. Jones & Stokes Associates. (1972). Environmental impact report on the Santa Ana watershed water quality management plan (Final draft). Sacramento, CA: Author. Koehler, J. H. (1983). Artificial recharge in the northern part of Chino ground-water basin, Upper Santa Ana Valley, California. Sacramento, CA: U.S. Geological Survey. Krist, J. (2002, Oct 18, 2002). Fight to reduce water pollution continues to evolve. Knight Ridder Tribune Business News, p. 1. The EPA adopted pollutant standards for sediment, nitrogen, and phosphorus in the San Diego Creek--Newport Bay watershed in 1999 and for toxic contaminants in June of this year. Additionally, the state has adopted a nonpoint source pollution control plan, mandated by the EPA, which delegates responsibility for devising and enforcing specific pollution-control measures to the state's nine regional water-quality control boards. The Santa Ana Regional Water Quality Control Board, with authority over most of coastal Orange County (as well as portions of Riverside and San Bernardino counties), adopted new stormwater standards for Orange County and all its cities earlier this year. An estimated 1,000 similar projects have been undertaken across the country. Kroll, C. G., U.S. Geological Survey, & California Dept. of Navigation and Ocean Development. (1975). Estimate of sediment discharges: Santa Ana River at Santa Ana and Santa Maria River at Guadalupe, California. Menlo Park, CA: U.S. Geological Survey. Leeds Hill and Jewett Inc., Harris, P. G., & Schulz, W. G. (1970). Consumer costs as related to quality of water supply: A report on TASK VII-1 prepared for Santa Ana Watershed Planning Agency (No. TASK VII-1). San Francisco, CA: Leeds Hill and Jewett Inc. 72 Santa Ana River & Watershed Bibliography Leenheer, J. A., Nanny, M. A., & McIntyre, C. (2003). Terpenoids as major precursors of dissolved organic matter in landfill leachates, surface water, and groundwater. Environmental Science and Technology, 37(11), 2323-2331. 13C NMR analyses of hydrophobic dissolved org. matter (DOM) fractions isolated from a landfill leachate-contaminated groundwater near Norman, Oklahoma; the Colorado River aqueduct near Los Angeles, California; Anaheim Lake, an infiltration basin for the Santa Ana River in Orange County, California; and groundwater from the Tomago Sand Beds, near Sydney, Australia, found branched Me groups and quaternary aliph. carbon structures that are indicative of terpenoid hydrocarbon precursors. Significant amts. of lignin precursors, commonly postulated to be the major source of DOM, were found only in trace quantities by thermochemolysis/gas chromatog/mass spectrometry of the Norman Landfill and Tomago Sand Bed hydrophobic DOM fractions. Electrospray/tandem mass spectrometry of the Tomago Sand Bed hydrophobic acid DOM found an ion series differing by 14 daltons, which is indicative of aliph. and aryl-aliph. polycarboxylic acids. The product obtained from ozonization of the resin acid, abietic acid, gave a similar ion series. Terpenoid precursors of DOM are postulated to be derived from resin acid paper sizing agents in the Norman Landfill, algal and bacterial terpenoids in the Colorado River and Anaheim Lake, and terrestrial plant terpenoids in the Tomago Sand Beds. Lo, M. P. (1978). Risk assessment of heavy metals and trace organics in municipal sludge management: A case study of the regional wastewater solids management program Los Angeles and Orange County Metropolitan area of California, (LA/OMA Project). Unpublished Dissertation (Ph.D.), University of California, Los Angeles, Los Angeles. Loo, C. B. (1973). Major water quality problems in, and bibliography for, Santa Ana River Planning Basin. Los Angeles, CA: California Department of Water Resources, Southern District. Lund, L. J. (1992). Sources and sinks of nitrogen and other inorganic constituents in the Santa Ana River above Prado Dam: Appendices. Riverside, CA: Dept. of Soil and Environmental Sciences, University of California. Marliave, C. (1926). Ground water conditions along Santa Ana River between Riverside and Prado. Berkeley, CA: n.p. McKee, J. E. (1963, October 17). The impact of industrial wastes on the water quality equation. Paper presented at the Conference on Practical Solutions to the Water Quality Equation conducted by the Santa Ana River Basin Water Pollution Control Board, Disneyland Hotel, Anaheim, California. Miller, J. (2003, February 15, 2003). Bill seeks protection for Santa Ana River: The proposal may face rough rapids because of a huge budget deficit. The Press Enterprise, p. 417 words. The Santa Ana River, the largest stream system in Southern California, would become the centerpiece of a state conservancy designed to manage the waterway and surrounding land under a bill introduced Friday. Creating a conservancy would put the power of state government, as well as millions in open-space bond money, toward buying parkland and building river amenities such as trails to serve Inland communities along the Santa Ana, supporters said. 73 Water Resources Institute, California State University San Bernardino Moffitt, J., Zilberman, D., Just, R. E., & California Agricultural Experiment Station. (1976). Wastewater regulations in Santa Ana River Basin: Pollution of groundwater from dairies. California Agriculture, 30(9). Montgomery, J. M. (1959). Effects of differences in water quality, upper Santa Ana Valley and coastal San Diego County (Dept. of Water Resources Bulletin No. no. 78, appendix B). Pasadena, CA: Dept. of Water Resources. Moore, T. F., & Wildermuth, M. J. (1997, August 10-13, 1997). Quality vs.quantity: How antidegradation policies preclude water reuse in the arid west. Paper presented at the 1997 Water Resources Conference Proceedings; Water Resources Management: Preparing for the 21st Century; American Water Works Association, Pacific Northwest Section, Seattle, WA. This paper discusses the evolution of California's water quality antidegradation policy and recent SWRCB interpretations of the policy. The ongoing Santa Ana River study is also discussed and the various water quality and economic questions that the study must address are presented. Moreland, J. A. (1972). Artificial recharge in the Upper Santa Ana Valley, Southern California. Menlo Park, CA: U.S. Geological Survey, Water Resources Division. Nellor, M. H., Baird, R. B., & Smyth, J. R. (1984). Health effects study (Final report and summary). Whittier, CA: County Sanitation Districts of Los Angeles County. Neste Brudin & Stone. (1970). Related planning activities affecting water quality management, Santa Ana River Watershed. San Bernardino, CA: Author. Nishimura, G. H. (1973). Summary of ground water quality in the Santa Ana drainage province (Supplements the Department's Bulletin No. 130). n.p.: State of California, Department of Water Resources, Southern District. O'Connor, K. A. (1997). Clean water act problems and watershed solutions. Current water quality policy under the Clean Water Act suffers from ineffective management of disparate issues involving social, political, regulatory, and other challenges to water quality management. Failure to meet national water quality goals is attributed to lack of coordination between agencies and their programs, conflicting goals of such programs, failure to address problems of individual watersheds, and fragmented responsibilities. Examples of such obstacles to successful implementation of policies under the Act are drawn from experiences in the Santa Ana River watershed in California. Watershed management planning is advocated as an alternative approach to water pollution control which can address problems inherent in the current system. Olson, B. H., & Shields, J. M. (1999). Geographical and seasonal occurrence of Cyclospora cayetanensis in Southern California waters. Davis, CA: University of California Water Resources Center. 74 Santa Ana River & Watershed Bibliography Opaluch, J. J. (1981). River basin management: The optimal control of water quantity and quality. DAI, 42(07A), 172. The purpose of this study is to find the optimal method of achieving water quantity and quality standards in a dynamic framework. The instruments under control of the decision maker are groundwater use, investment in treatment facilities, waste water disposal, an effluent tax, and imported water from two sources--inexpensive, poor quality water and expensive, good quality water. Orange County Flood Control District. (1949). Plans and specifications for the construction of infiltration pipeline extension downstream from Prado Dam, Unit No.1. Santa Ana, CA: Author. Orange County Water District. (1978). Review summary of the comprehensive water quality management plan for the Santa Ana Region: Plan adopted April 11, 1975, Regional Water Quality Control Board, Santa Ana Region (8). Fountain Valley, CA: Author. Orner, G. A., & Spitsbergen, J. M. (1999). Feasibility of using fish for the toxicological component of the Santa Ana River Water Quality and Health Study (SARWQH): A literature review. Fountain Valley, CA: Orange County Water District. Orr, J. H. (1998, Dec 7, 1998). U.S. clean water effort targets Inland feed lots. The Business Press, p. 7. Inland Empire dairy farmers and livestock ranchers could soon face more bureaucratic red tape, as federal officials target them as sources of water pollution. Spurred on by President Clinton's Clean Water Initiative, federal environmental officials are considering new regulations that could require every livestock operation in the Santa Ana River watershed to obtain permits from the U.S. Environmental Protection Agency. Pojasek, R. B., & Schmidt, K. D. (Eds.). (2003). Protection of ground water from nonpoint sources of pollution; Drinking water quality enhancement through source protection. Ann Arbor, MI: Ann Arbor Science Publishers, Inc. This paper defines and discusses nonpoint sources of pollution, with emphasis on pollution by septic tank effluent and agricultural return flow. Monitoring programs for septic tank pollution are presented in the form of case studies from the following: Fresno, California; Portland, Oregon; Dade County, Florida; and Coastal Plain, Delaware. Similar monitoring programs are presented for agricultural return flow from the Santa Ana River Basin, California, Long Island, New York, and Chalk and Bunter Sandstones, England. In the case of septic tank effluent, more consideration needs to be given to land use control, alternatives to conventional regional sewer systems, proper hydrogeologic input, and improvement of individual sewage treatment and disposal systems. In regard to agricultural return flow, more attention should be given to altered irrigation efficiencies, control of fertilizer application rates, and impact on groundwater quality. 75 Water Resources Institute, California State University San Bernardino Polakovic, G. (1996, October 4, 1996). Biggest fine for sewage spill; July's leak into the Santa Ana River costs $ 75,000, less than one-tenth of 1% of the possible penalty. The Press Enterprise, p. 1119 words. A state agency has hit the Jurupa Community Services District with the largest penalty ever imposed for a sewage spill in Riverside County. The fine of $ 75,000 was levied because the July 20 pipeline rupture that dumped 10 million gallons of raw sewage into the Santa Ana River near a popular swimming hole occurred on the Jurupa district's line and went undetected for four days. The Santa Ana Regional Water Quality Control Board also fined the city of Riverside $ 5,000 for failing to act once workers noticed dramatically less sewage entering its Acorn Street treatment plant. Polakovic, G. (1996, September 10, 1996). River water unclean after all; An earlier assessment giving the Santa Ana River a clean bill of health and deemed safe for swimming is rescinded. More signs to be put up. The Press Enterprise, p. 1256 words. Less than three months ago, the state agency that polices Santa Ana River water quality declared the stream safe for swimming, culminating decades of work and hundreds of millions of dollars invested in sewage treatment plants to make the river safe for swimming. So swimmers took to the water in droves this summer. County parks officials thought the time had come when they no longer needed to discourage bathers. But now, the Santa Ana Regional Water Quality Control Board has changed its position, because new evidence indicates the water is still dangerous. Poland, J. F. (1942). Descriptions of water wells in the coastal zone of the Long Beach-Santa Ana area, California. n.p.: U.S. Geological Survey. Porvaznik, M., & Lyons, T. C. (1971). Estimated costs of future construction for wastewater collection facilities: A final report on Task VII-7. Walnut Creek, CA: Water Resources Engineers Inc. Rees, T. F., Eastern Municipal Water District, Metropolitan Water District of Southern California, & Orange County Water District. (1994). Geohydrology, water quality, and nitrogen geochemistry in the saturated and unsaturated zones beneath various land uses, Riverside and San Bernardino counties, California, 1991-93 (Water-resources investigations report No. 94-4127). Sacramento, CA: Dept. of the Interior, U.S. Geological Survey. Reilly, J. F. (2000). Nitrate removal from a drinking water supply with large free-surface constructed wetlands prior to groundwater recharge. Ecological Engineering. Data are presented from a project investigating the performance of a constructed wetland system developed to remove nitrate from the municipal drinking water supply of Orange County, CA. Nitrate removal processes are required for this region, which supports a population of some two million residents, both to safeguard human health and to minimize eutrophication and algal clogging of deep groundwater recharge pools. Source water is derived from the effluent-dominated Santa Ana River. Facilities were designed to treat up to 1.5 m3/sec prior to use in groundwater recharge activities. Certain sections of the marshland used for pretreatment were found to provide nitrate removal rates as high as 1000 mg NO3-N/m2 per day. 76 Santa Ana River & Watershed Bibliography Reinhard, M. (1996). Behavior and fate of organic contaminants during groundwater recharge with reclaimed wastewater and Santa Ana River water: A field and laboratory investigation: Annual report covering period July 1, 1994 through October 31, 1995. Stanford, CA: Environmental Engineering and Science Program, Dept. of Civil Engineering, Stanford University. Reinhard, M., & Debroux, J. (2001). Organic contaminant behavior during wetland treatment and groundwater recharge: SARWQH 1998-2000 (Final report). Stanford, CA: Dept. of Civil and Environmental Engineering, Stanford University. Reinhard, M., Debroux, J., & Litwiller, E. (2000). Organic contaminant behavior during groundwater recharge with Santa Ana River water. Stanford, CA: Dept. of Civil and Environmental Engineering, Stanford University. Riegel, H. I. (1963). The role of water pollution control in water quality management. Los Angeles, CA: Water Pollution Control Advisory Board. Rigby, M. G. (1991). Groundwater recharge with reclaimed water: Resolving regulatory issues. Dialog. Groundwater recharge, using treated wastewater, provides a significant portion of the groundwater used in Orange County, CA. Treated wastewater in the Santa Ana River has gradually increased over the past 20 yr, causing an increase in nitrate and organic and inorganic constituent levels. The Orange County Water District has recently expanded its water-quality monitoring program to assess the purification benefits derived from soil filtration of wastewater. The monitoring scheme is described for determining sources of recharge water, total amount of applied eclaimed water and recharge water, hydrogeologic characteristics of the underlying groundwater basin, probability of dilution of reclaimed water with natural groundwater, and the residence time of recharge water in recharge facilities. Robie, R. B., & Hume, N. B. (1970). Practice under California's new Porter-Cologne water quality control act. Los Angeles, CA: Los Angeles County Bar Association. Russell, D. P., & Nichandros, H. M. (1971). Data management and analysis to support water quality planning: A final report on TASK VI-7 to Santa Ana Watershed Planning Agency. Walnut Creek, CA: Water Resources Engineers Inc. Saint, P. K. (1988). Investigation of un-ionized ammonia in the Santa Ana River (Final project report). Fullerton, CA: Dept. of Geological Sciences, Environmental Studies Program, California State University. Saint, P. K., Santa Ana River Un-ionized Amomonia Project, & California Regional Water Quality Control Board--Santa Ana Region. (1987). Data collection and sampling report: A (task 4) report to California Regional Water Quality Control Board, Santa Ana Region. Fullerton, CA: Dept. of Geological Sciences, California State University Fullerton. Santa Ana Regional Water Quality Control Board. (1971). Interim water quality control plan for the Santa Ana River Basin. Sacramento, CA: State Water Resources Control Board. 77 Water Resources Institute, California State University San Bernardino Santa Ana Regional Water Quality Control Board. (2004, March 2, 2004). California Environmental Protection Agency: Santa Ana Regional Water Quality Control Board. Retrieved March 18, 2004, 2004, from http://www.swrcb.ca.gov/rwqcb8/ Santa Ana Watershed Planning Agency. (1972). Activity plan for Santa Ana River Basin planning program. Riverside, CA: Author. Santa Ana Watershed Project Authority. (1974). Santa Ana Watershed Project Authority final report to EPA : appendices to the Santa Ana Watershed comprehensive water quality management plan. Riverside, CA: SAWPA. Santa Ana Watershed Project Authority. (1976). Informational materials. Riverside, CA: SAWPA. Santa Ana Watershed Project Authority. (1989). Santa Ana Watershed Project Authority 205(j) reclamation study. Riverside, CA: Author. Schorr, P., & Dewling, R. T. (1988). Reusing Water. Civil Engineering, 58(8), 69. After meeting government requirements for treatment, reclaimed water channeled through dual distribution systems can be made suitable for such nonpotable uses as toilet flushing, cooling in industrial and commercial settings, and groundwater recharge. Since there are no federal standards for reclaimed water, states have been left to decide many issues. The degree of treatment and biological standards are debatable, and allowable bacteria levels vary among regions. Shields, J. M. (2003). New method for the concentration and detection of Cyclospora cayetanensis in environmental waters. DAI, 64(02B), 135. Cyclospora cayetanensis is a sporulating parasitic protozoan that infects the epithelium of the upper small intestinal tract. It has been identified as both a food and waterborne pathogen endemic in many developing countries. It is an important agent of Traveler's Diarrhea in developed countries and in 1996–1999 was responsible for numerous foodborne outbreaks in the United States and Canada. There has been much debate as to where to place C. cayetanensis taxonomically due to its homology with Eimeria species. To determine whether or not C. cayetanensis was present in southern California environmental waters, five sites along the Santa Ana River were selected for a threeseason survey (July 1998–March 1999). Four samples were identified as positive using the traditional PCR and RFLP protocol. Smith, J. R., & Santa Ana Watershed Project Authority. (1995, June 18-22 1995). Brackish groundwater reclamation in Southern California. Paper presented at the Annual Conference American Water Works Association, Riverside, CA. This paper discusses the growing enterprise of brackish groundwater desalting in the Santa Ana River Watershed in Southern California. The author cites several reasons for the growing trend to use brackish groundwater reclamation to augment the existing water supply. These include: prolonged drought periods, contamination by agriculture runoff, population growth, and the desire to improve the general water quality in is a glimpse of the future of groundwater desalting in the Santa Ana River Watershed area. 78 Santa Ana River & Watershed Bibliography Smythe, H. A. (1992). Applicability of the Environmental Protection Agency's Un-Ionized Ammonia Criteria for the Santa Ana River (California). MAI, 31(02), 141. Ammonia in aqueous solutions, exists as a un-ionized form (NH$sb3$), which is toxic to aquatic organisms, and an ionized form (NH$sb4$). For the Santa Ana River, the current un-ionized ammonia nitrogen objective is 0.8 mg/L which may not be protective of the organisms in this southern California warm water stream. The Environmental Protection Agency (EPA) developed an un-ionized ammonia criteria, which is far more stringent than the current Santa Ana River un-ionized ammonia objective. In order to evaluate the applicability of the EPA criteria for the Santa Ana River, three data sets were examined to determine the extent of violations of the EPA criteria. The data sets include: historical un-ionized ammonia data (1975-1985); 1986 riverwide un-ionized ammonia data and 1987 diurnal un-ionized ammonia data. The three data sets demonstrate that the EPA criteria may be too restrictive for the Santa Ana River. Sonderegger, A. L. (1932). Report on effect of increased spreading: Reply to G.A. Elliott report. Los Angeles, CA: Water Conservation Association. Southern California Association of Governments. (1978). 208 areawide waste treatment management plan: South Coast Planning Area (Draft). Los Angeles, CA: Author. Stanford Research Institute. (1959). Effects of differences in water quality, upper Santa Ana Valley and coastal San Diego County: Appendix B to Investigation of alternative aqueduct systems to serve Southern California (Dept. of Water Resources Bulletin No. no. 78, appendix B). Sacramento, CA: California Department of Water Resources. Streisand, B. (1999, Feb 1, 1999). A new day at the beach. U.S. News & World Report, 126, 33. The EPA agreed last week to set pollution limits for ocean waters and more than 130 other waterways in Los Angeles and Ventura counties in California. The new limits will be aimed primarily at controlling agricultural and urban runoff. 79 Water Resources Institute, California State University San Bernardino Sung, H. H. (1990). Geomorphic Setting and Origins of the Barton Flats Region in the San Bernardino Mountains, Southern California. DAI, 51(09B), 231. The Barton Flats region is a complex undulating surface of controversial origin. In order to resolve the origin of the flats, this investigation is conducted at two discrete scales. At the smaller scale, an analysis of all 42 watersheds in the upper Santa Ana River Basin rated the source areas for the Barton Flats region in comparison with other sub-basins. The rating was based on the fundamental properties of watersheds which affect sediment yield. The database for the classification was built using the ARC/INFO Geographic Information System and the classification processes involved both cluster and discriminant analyses. The rating and classification exercise showed that the Barton Flats region is the most prone to sediment aggradation in the upper Santa Ana River Basins. Immediately upstream from the Barton Flats region are the watersheds with the highest potential for sediment yield; they are characterized by the highest relief, steepest slopes, high rainfall, and very large watershed size in addition to a high proportion of erodible surfaces and evidence of Pleistocene glaciation. At the larger scale, a comprehensive geomorphic description and reconstruction of past landforms shows the Barton Flats region to be the product of Quaternary alluvial fan deposition along the margins of a fault-bounded paleovalley. The entire Barton Flats region underwent a Pleistocene phase of aggradation, followed by stream entrenchment. Changes between aggradation and entrenchment phases are presumably related to the climatic changes including episodes of glaciation in the source area, and to stream capturing events. Active tectonism which promoted changes in stream courses and extensive small-scale landsliding produced local variations of topography and rearranged the surficial materials on the Barton Flats region. Taghavi-Shirazi, S.-A. (1992). Groundwater quality management using optimal control theory (microform). Tompkins, E. H. (1982). Mineral increases from municipal use of water in the Santa Ana River Basin (Memorandum report). Los Angeles, CA: State of California Resources Agency, Dept. of Water Resources, Southern District. U.S. Bureau of Reclamation, U.S. Army Corps of Engineers, & Eastern Municipal Water District. (1995, 11-14 September 1995). Workshop. Paper presented at the Western Wetlands and Water Quality, Ontario Airport Hilton, Ontario, CA. U.S. Federal Emergency Management Agency National Flood Insurance Program, & National Research Council (U.S.) Committee on Methodologies for Predicting Mudflow Areas. (1982). Selecting a methodology for delineating mudslide hazard areas for the National Flood Insurance Program. Washington, DC: National Academy Press. U.S. Public Health Service. (1950). A baseline report on water pollution control for the Santa Ana River Sub-Basin of California. n.p. Vengosh, A., Davisson, M. L., & Bullen, T. D. (1999). Tracing waste-water in river and ground water of Orange County using boron isotopes and general geochemistry (No. UCRL-ID133529). Livermore, CA: Lawrence Livermore National Laboratory. 80 Santa Ana River & Watershed Bibliography Waldman, P. (2002, Dec 27, 2002). As perchlorate contamination grows, so do troubles of property developers: Water containing the chemical dumped during cold war hinders growth plans in parched areas. Wall Street Journal, p. B.1. One major problem is that perchlorate is turning up in many unexpected places, including at military training and test ranges where rockets and missiles -- with their large quantities of solid propellants -- aren't believed to have been used. Some scientists believe other types of munitions that used tiny amounts of perchlorate may be the culprits. Many of the ordinary military ranges with perchlorate pollution lie on the outskirts of growing cities, in places that were once distant from civilian neighborhoods but now serve as watersheds and open space for sprawling suburban communities. Some examples are given in the article. Water Resources Engineers. (1968). Progress report on incoporating the unsaturated zone into existing groundwater quality and quality models of the Upper Santa Ana River Basin. Walnut Creek, CA: State Water Resources Control Board. Water Resources Engineers, California State Water Resources Control Board, & California Regional Water Quality Control Board--Santa Ana Region. (1969). An investigation of salt balance in the upper Santa Ana River Basin (Final report). Walnut Creek, CA: WRE. Water Resources Engineers Inc. (1966). First quarterly report of an investigation of salt balance in the Upper Santa Ana River Basin. Lafayette, CA: Water Resources Engineers Inc. Water Resources Engineers Inc. (1967). First annual report of an investigation of salt balance in the Upper Santa Ana River Basin. Walnut Creek, CA: Author. Water Resources Engineers Inc. (1967). Sixth quarterly report of an investigation of salt balance in the Upper Santa Ana River Basin. Walnut Creek, CA: Author. Water Reuse Study Management Board. (1982). Orange and Los Angeles Counties water reuse study: Facilities plan. Los Angeles, CA: Author. West Basin Municipal Water District. (1946). West Basin ground water lowering levels 1903, 1930, 1946 and extent of sea water contamination of fresh water supply. n.p.: Author. Wild, D. (1993). Surfing's eco warriors. Rolling Stone(659), 70. Surfrider Foundation, a passionate and effective nonprofit group of environmental activists that is working for cleaner coastal waters, is profiled. The group has succeeded in getting fines levied against several polluters. Wright, A. G. (2001). Heavy metal returns as nemesis. ENR, 246(6), 17. Chromium-6 is the target of California environmental officials as groundwater testing turns up the suspected carcinogen in more locations. In a controversial move, Glendale is refusing to accept water treated by a new $25-million plant because low levels of the metal, up to 17 parts per billion, have been detected. 81 Water Resources Institute, California State University San Bernardino Yeh, W. W. G., University of California Los Angeles Dept. of Civil Engineering, & Santa Ana Watershed Project Authority. (1992). Development of a multi-objective optimization model for water quality management planning in the Upper Santa Ana Basin. Los Angeles, CA: Dept. of Civil Engineering University of California. 2.3 Basin-wide Development and Use General Information Where are we water-wise? (1958, May 27). Paper presented at the Southern California Water Conference, Los Angeles, CA. The California poll 8601. (1986). [1 computer reel + 1 codebook + associated documentation + machine-readable documentation.]. San Francisco, CA: Field Institute. Anderton, F. (1998, Dec 31, 1998). In California, water rights are as hot as ever. New York Times, p. F.3. Economic Development Corporation of Los Angeles County. (1998). Expansion & relocation survey for the Los Angeles five-county area: 1997 results. Los Angeles, CA: Economic Development Corp. Gould, S. (1989). California, Los Angeles, and Orange County: An annotated bibliography. Yorba Linda, CA: Shumway Family History Services. Kyser, J. (1993). 1993/1994 Economic forecast and industry outlook for the Los Angeles fivecounty area. Los Angeles, CA: Economic Development Corporation of Los Angeles County. Villaraigosa, A. R. (2000). America's urban agenda: A view from California. The Brookings Review, 18(3), 48. More than any other state, California reflects the nation's changing demographic, economic, and political realities. If metropolitan-wide approaches are the wave of the future, then nowhere is that strategy more appropriate than in California. California practically invented the metroplex concept. In the San Francisco Bay Area and in Los Angeles-Orange County-Inland Empire, it is hard to know where the cities end and the suburbs begin. The state is home to 4 of the nation's 25 largest metropolitan areas - the San Francisco Bay Area, the metro Los Angeles-Orange County-Inland Empire, greater San Diego, and the Sacramento-Yolo County area. States can play at least three important roles in improving metropolitan areas. First, they can help cities and suburbs address their fiscal dilemmas. Second, they can help make communities more livable by dealing with infrastructure, traffic congestion, pollution, and parks. Finally states can help support working families, especially those on the bottom rungs of the economic ladder, many of whom live in distressed neighborhoods in cities and older suburbs. 82 Santa Ana River & Watershed Bibliography Basin-wide History Southern California paradise: History of Santa Ana City and Valley, its past, flourishing present and bright future: An interesting and faithful description of this beautiful country. (1887). Santa Ana, CA: Board of Trade. History of Santa Ana City and Valley: Its past, flourishing present and bright future (Originally printed in 1887). (1999). Orange, CA: Paragon. Appel, L. K. (1976). Key to the Charles H. Lee Collection.Unpublished manuscript, Berkeley, CA. "This is an annotated listing of reports, papers, photographs and maps in the Charles H. Lee collection, Water Resources Center Archives, University of California, Berkeley"--p. iii. Brook, H. E. (1912, 1912). Santa Ana, the city of resources. Arrowhead Magazine, 12. Brown, J. J., & Boyd, J. (1922). History of San Bernardino and Riverside Counties: With selected biography of actors and witnesses of the period of growth and achievement. Madison, WI: Western Historical Association. Conde, B. (1939). Santa Ana of the Yorbas. Southern California Quarterly, 21(1), 60-79. Cottrell, M. G. (1985). Tomato Springs: The identification of a jasper trade and production center in Southern California. American Antiquity, 50(4), 833-849. In this report I present evidence of a prehistoric trade network that operated between the inland desert and coastal regions of southern California. Jasper, a nonlocal commodity from sources in the inland deserts, was found in large quantities at the Tomato Springs site, a prehistoric coastal village. This lithic material appears to have been of some value to the inhabitants of the coastal region, as evidence indicates that it was procured in quantity for a period of approximately 4,500 years over distances in excess of 175 km. The available data indicate that jasper trade between the inland deserts and the coast does not fit any distance-decay models proposed for trade in spite of the distances under consideration. Cottrell, M. G., & Wagner, H. M. (1990). Tomato Springs: Additional research results. Pacific Coast Archaeological Society Quarterly, 26(1), 17-23. Corroborates preliminary conclusions from analysis of artifacts found at the Tomato Springs site in Orange County, California, which suggests coastal inland and interior desert trade for jasper and obsidian. Dinnean, L. (1986). Nineteenth century illustrators of California sights and scenes: A selection of works by pioneer graphic artists (Vol. no. 34). Berkeley, CA: Friends of the Bancroft Library. Dominguez, A. O. (1950). A historical study of Rancho San Juan Cajon de Santa Ana and its owners until 1857. Unpublished Thesis (M.A.), University of Southern California, Los Angeles, CA. 83 Water Resources Institute, California State University San Bernardino Eberhart, H. (1961). The cogged stones of Southern California. American Antiquity, 26(3), 361370. Cogged stones are one of the few classes of artifacts which are limited in occurrence to the "middle" period of southern California's prehistory. They are stone discs, 61/8 inches or less in diameter, characterized by grooves or indentations in the edge. On the basis of the nature of the latter and of the presence or absence of perforation they are described in four types. Some of the variations may have historical significance, but this cannot be proven with the data at hand. Few specimens have been excavated under controlled conditions. The distribution is virtually limited to the coastal drainage south of Ventura County and appears to center along the Santa Ana River Valley. According to the interpretation of coastal chronology employed, cogged stones were made during the period 6000-3500 B.C. Their use is unknown, but the absence of any pattern of wear and the conjunctions of certain of the specimens suggest that they served some ritual function. Elliott, W. W. (1965). History of San Bernardino and San Diego Counties, California with illustrations (Reproduction 1883. Including material on present-day Riverside County). Riverside, CA: Riverside Museum Press. Farrar, I. E. (1972). My seventy-nine years in southern California.Unpublished manuscript, Hemet, CA. Foster, J. M., Swanson, M. T., & Hampson, R. P. (1989). Operator housing in the Santa Ana River Canyon (Archaeological-cultural resources services for civil works projects in Southern California). Pacific Palisades, CA: U.S. Army Corps of Engineers, Los Angeles District. Gibson, W. D., & Johnson, L. P. (1976). Tomas Yorba's Santa Ana Viejo, 1769-1847. Santa Ana, CA: Santa Ana College Foundation Press. Gould, S. (1994). An illustrated history of Modjeska, Sienkiewicz and Salvator: The Polish and German speaking writers of Los Angeles and Orange County from 1870 to 1910 (1st illustrated ed.). Hollywood, CA: Sun Dance Press. Guthe, C. E. (1935). Archaeological field work in North America during 1934. Part 1. American Antiquity, 1(1), 47-66. Haas, L. (1995). Conquests and historical identities in California, 1769-1936. Berkeley, CA: University of California Press. Hâijar, C. N., Pâerez, E., Escobar, A., as recorded in 1877 by Thomas Savage (or under his supervision), & translated by Vivian C. Fisher and others. (1988). Three memoirs of Mexican California (Vol. no. 36). Berkeley, CA: Friends of the Bancroft Library, University of California at Berkeley,. 84 Santa Ana River & Watershed Bibliography Hale, D. K. (1979). California's first mining frontier and its influence on the settlement of that area. Journal of the West, 18(1), 14-21. Mining in California began about 20 years after its settlement by Spanish missionaries. Metals, including gold and silver, were found near Santa Barbara, San Fernando, San Diego, Santa Ana, and San Francisco. The development of mines in California coincided with declining production in Mexico before 1790. After that year, improved technology revived the Mexican mines, and Upper California's mineral resources were neglected and forgotten. During the Mexican period, placer gold was mined near San Luis Obispo and Los Angeles. These discoveries failed to bring large immigration to the frontier because the Hispanic governments were unable to provide adequate supplies or protection. Published primary and secondary sources; 2 illus., map, 54 notes. Harley, R. B. (1994). Seek and ye shall find: St. Boniface Indian Industrial School, 1888-1978. San Bernardino, CA: Catholic Diocese of San Bernardino. Hart, J. D. (1960). American images of Spanish California (Vol. no. 8). Berkeley, CA: Friends of the Bancroft Library, University of California. Hill, J. J. (1921). The Old Spanish Trail: A study of spanish and mexican trade and exploration northwest from New Mexico to the Great Basin and California. Hispanic American Historical Review, 4(3), 444-473. Hill, J. J. (1927). The history of Warner's ranch and its environs. Los Angeles, CA: John Treanor. Inland Valley Daily Bulletin. (1995). Pictorial memories of the Inland Valley. Marceline, MO: Heritage House Publishing. Irons, C. (1976). Bienvenidos al canon de Santa Ana: A history of the Santa Ana Canyon. Santa Ana, CA: Orange County Environmental Management Agency. Jones, C. T. A. C. (1834). A Visit to Los Angeles in 1834 - Commodore Thomas Ap Catesby Jones narrative of his visit to Governor Micheltorena. Historical Society of Southern California Quarterly XVIII(1), 719. Kirkman, G. W., Harriman, W. R., & Goodman, J. B. (Cartographer). (1938). Principal historic sites, old highways, also battle fields, Spanish, Mexican, early American, in old Los Angeles County [1 map : col. ; 75 x 85 cm. folded in cover 23 x 14 cm]. Koerper, H. C., Ericson, J. E., Drover, C. E., & Langenwalter, P. E., II. (1986). Obsidian exchange in prehistoric Orange County. Pacific Coast Archaeological Society Quarterly, 22(1), 33-69. Traces the sources of obsidian artifacts found at Indian sites in Orange County and in the Prado Basin of adjacent Riverside and San Bernardino counties; obsidian in the late prehistoric period was obtained primarily from Obsidian Butte near the Salton Sea, while earlier sites yield obsidian obtained mostly from eastern Sierra Nevada sources. 85 Water Resources Institute, California State University San Bernardino Mason, R. D., Whitney-Desautels, N. A., Langenwalter, P. E., & Scientific Resource Surveys Inc. (1987). Archival research and remote sensing investigations concerning reported cemeteries and isolated graves in the Santa Ana River Project Area (No. DACW 09-86C-0013). Los Angeles, CA: United States. Army. Corps of Engineers. Los Angeles District. Morse, R. K. (2000). The mission is our future: Defining a Californian identity on the historical memory of the missions. Journal of the Association for History and Computing, Vol. 3(no. 3). Examines the role of Catholic missions in California, focusing on the several ways mission spaces have been used since their introduction in the late 18th century. First, the missions have served an educational purpose, with a California initiative requiring every fourth grade student to complete a project on the missions. Second, there is the obvious spiritual purpose of the missions, with several sites continuing to be places of worship through the 20th century. Third, the missions in many respects have been sites of social activism or critique for social structures. This critique is evident in the art decorating mission spaces. Fourth, there has been the presence of commerce and the selling of the mission ideals through tourism, making the mission at San Juan Capistrano the third most-visited site in Orange county after Disneyland and Knott's Berry Farm. The final and perhaps the most important use of the missions has been for the authentication of the continued settlement of California. A revival in mission lore and a romanticized view of the missions gave a purpose to California as it came out of the boom of the gold rush and was confronted with the reality of competition with the eastern seaboard. Payne, T. (1962). Life on the Modjeska Ranch in the gay nineties. Los Angeles, CA: Theodore Payne Foundation. Prudhomme, C. J. (1924). A romantic history clings to Santa Ana grant.Unpublished manuscript, Orange County, CA. Roberts, C. E. (1936). The Partition of the Rancho Santiago de Santa Ana (WPA Project No. 3105). Santa Ana, CA: Federal Writers' Project, Work Projects Administration. Santa Ana Board of Trade. (1888). Santa Ana city and valley. Santa Ana, CA: Author. Santa Ana Library. (1999). History of Santa Ana city and valley: 1887. Orange, CA: Paragon Agency. Santa Ana River Water Association. (1946). Articles of association of Santa Ana River Water Association. Santa Ana, CA: Author. Santa Ana Valley Immigration Association. (1885). The Santa Ana Valley of Southern California: Its resources, climate, growth and future. Santa Ana, CA: Author. Santa Ana Valley Irrigation Company. (1890). Articles of incorporation and by-laws of the Santa Ana Valley Irrigation Company.Unpublished manuscript, Orange, CA. 86 Santa Ana River & Watershed Bibliography Scott, M. B. (Ed.). (1977). Development of water facilities in the Santa Ana River Basin, California, 1810-1968: A compilation of historical notes derived from many sources describing ditch and canal companies, diversions, and water rights. Menlo Park, CA: U.S. Dept. of Interior Geological Survey. Self, R. O. (2003). California and the new suburban history. Reviews in American History, 31(1), 127-134. Smith, B. (1999). Redefining the Inland Valley: Ilustrated history, driving tours and resources. Claremont, CA: Landmark Graphics. Stephenson, T. E. (1931). Shadows of Old Saddleback: Tales of the Santa Ana mountains, the Santiago, the Trabuco, their canyons and their hills from the day of the Dons down through the years when pioneers built their cabins among the oaks and sycamores. Santa Ana, CA: Fine Arts Press. Stephenson, T. E. (1948). The Shadows of Old Saddleback: From the day of the Dons down through the years when pioneers built their cabins among the oaks and sycamores. Orange, CA: Fine Arts Press. Stephenson, T. E. (1974). Shadows of old Saddleback: Tales of the Santa Ana Mountains. Orange, CA: Rasmussen Press. Stevenson, H. J. (Cartographer). (1885). Map of the County of Los Angeles and parts of San Bernardino and San Diego Co's.: California [1 map]. Swanner, C. D. (1953). Santa Ana, a narrative of yesterday; 1870-1910. Claremont, CA: Saunder Press. Swanner, C. D. (1974). Santa Ana: Narrative of yesterday. Claremont, CA: Saunders Press. Vickery, J. C. (1977). Defending Eden: New Mexican pioneers in Southern California, 18301890. University of California, Riverside, Riverside, CA. Viehe, F. W. (1991). The social-spatial distribution in the black gold suburbs of Los Angeles, 1900-1930. Southern California Quarterly, 73(1), 33-54. Describes the impact of oil production in southern Los Angeles County and Orange County. In the period 1900-30, suburban growth in this area was tied to the expansion of oil field development. Such cities as Huntington Park, Hermosa Beach, Long Beach, and Whittier all benefited from petroleum production. Townships without petroleum industry facilities, however, lacked incorporated suburbs and grew more slowly. The oil discoveries helped urbanize Southern California and changed the way spatial distribution in the region was taking place as oil industry suburbs grew at almost twice the rate of other areas in the region. The incoming population to these suburbs was almost entirely white, and housing restrictions made it nearly impossible for blacks or Hispanics to move in. These suburbs became noted for their young, Anglo-Saxon, Protestant population. 87 Water Resources Institute, California State University San Bernardino Wallace, W. J. (1962). Prehistoric cultural development in the Southern Californian deserts. American Antiquity, 28(2), 172-180. Archaeological remains from the southern Californian desert region, spanning a period from 7000 B.C. to historic times, are segregated into four broad cultural horizons. The earliest certain evidences of human occupation consist of stone tools and weapons from the shore line of ancient Lake Mohave. The Lake Mohave artifacts comprise types designed primarily for hunting and related activities. Next in sequence are the lithic materials from Pinto Basin and other localities that demonstrate a mixed huntinggathering economy. The third or Amargosa period is inadequately known. Triangular arrowpoints, pottery, and numerous seed-grinding implements distinguish the closing aboriginal phase. The major research needs are indicated. Wallace, W. J. (1968). Prehistoric seasonal campsites in Southern California. Masterkey, 42(4), 134-141. A surface survey in Orange County recently revealed four seasonal campsites of unknown antiquity. The sparse surface finds consisted entirely of seed-grinding implements and hammerstones and it is assumed the four camps served as temporary bases for tiny foraging bands. Although unimpressive and meager of content, the encampments provide useful information on the seasonal round of activities of the region's aboriginal inhabitants. Warren, C. N. (1967). The San Dieguito Complex: A review and hypothesis. American Antiquity, 32(2), 168-185. The confusing terminology surrounding the San Dieguito complex is reviewed, and a critical evaluation of the content of this complex is undertaken. The San Dieguito complex is redefined and includes Lake Mohave, Death Valley I, and Playa I and II complexes. An age of greater than 6000 B.C. is shown for at least one component of the complex and a date of 7000 to 8000 B.C. is suggested for the complex as a whole. The hypothesis is developed that the San Dieguito complex is distinct from the Desert culture and represents a generalized hunting tradition which moved into the area along a northsouth belt in the western Great Basin. West, D. C. (1980). Oral history interview with Dorothy Chappell West (pp. Unbound, 50+ 52 tapes (120 min); 111/121/180). Upland, CA: Upland Public Library. Yorba Linda Public Library. (1983). Californiana and local history: A bibliography. Yorba Linda, CA: Author. Basin-wide Settlement Major streets & highways in the Los Angeles five county area (Cartographer). (1974). [1 map]. Four county freeway map (Cartographer). (1975). [1 map]. Federal and state highway map: Los Angeles and Orange Co (Cartographer). (1976). [1 map]. 88 Santa Ana River & Watershed Bibliography Interstate 15: Transcript of proceedings, public hearing before the Assembly Committee on Transportation, October 15, 1980, Norco City Council Chambers, Norco, California, California Legislature Assembly 123 p. (1980). Major streets & highways in the Los Angeles five county area (Cartographer). (1985). [1 map]. Los Angeles and Orange counties street guide & directory (Cartographer). (1987). [1 atlas (1 v., various pagings)]. Freeways and communities in the Los Angeles 5-county area (Cartographer). (1988). [1 map ; 78 x 106 cm.]. Los Angeles and Orange counties street guide & directory (Cartographer). (1989). [1 atlas (1 v., various pagings)]. Southern California (Cartographer). (2001). [1 map : col. ; 60 x 84 cm., folded to 24 x 11 cm.]. Drier pasture seen in future. (2002, Apr 1, 2002). The Business Press, p. 6. Several government agencies are contributing nearly $11 million to a storm drain designed to funnel rainwater into the Santa Ana River instead of through the dairies that dominate the southern half of Ontario and San Bernardino County near Chino. Albert A Webb Associates. (1974). Preliminary report to watermaster on results of conveyance of nontributary water from state project: Santa Ana Valley pipeline via Santa Ana River to Riverside Narrows. Riverside, CA: Author. Altschul, J. H., Rose, M. R., & Lerch, M. (1984). Man and settlement in the Upper Santa Ana River drainage: A cultural resources overview. Los Angeles, CA: U.S. Army Corps of Engineers. Arthur Young & Company Certified Public Accountants. (1964). Recommendations for future audit engagements: Summary of policies and procedures adopted or proposed by the Department of Water Resources for classification and allocation of costs to the state water project and to water service agencies, review of statements of charges under water supply contracts submitted by the Department of Water Resources as of July 1, 1963. Los Angeles, CA: San Bernardino Valley Municipal Water District. Banks, J. L., Jr. (1949). The upper Santa Ana River watershed (California): Water resources. Unpublished Thesis (M.A.), University of California, Los Angeles, Los Angeles, CA. Batchelder, B. P., Denny, O., Hazeltine, M. M., McDonald, A. J., Muybridge, E., Smith, J. G., et al. (Artist). (1867). California stereoviews related to transportation [Photographs]. Views show a balloon ascension in Stockton, the Vallejo waterfront, Toll's steam wagon, the Cliff House and Ferry Railroad, a church in Santa Barbara, the San Jose Train depot, Streeter's Mill in Sonoma County, Weber Engine Co. #1, the Kearny Street terminus of the California Street Cable Railroad, an excursion train in San Bernardino, San Francisco and San Jose Railroad cars, etc. 89 Water Resources Institute, California State University San Bernardino Bates, L. (1995). Water issues prompt new look at desalination. The American City & County, 110(11), 32. Popular in the 1960s and 1970s, desalination technology stagnated for the next decade. Now, dwindling water supplies are forcing cities and counties to take another look. Desalination is accomplished through one of 2 main methods: through distillation or use of membranes. In reverse osmosis facilities, water is forced through bundles of membranes under pressure, leaving behind impurities. In electrodialysis reversal plants, an electrical current transfers ions through membranes, resulting in desalted water and concentrates. Baum, D. (1994). Water district fights drought with data technology. InfoWorld, 16(30), 68. The Los Angeles-based Metropolitan Water District (MWD) sells and distributes water to 27 member agencies in Los Angeles County, Orange County, San Diego County, Ventura County, San Bernardino County, and Riverside County in California. Aided by the marriage of a geographic information system (GIS) and relational database technology, the MWD maintains information on the region and its water usage patterns to reliably forecast water demand through the year 2020. For its GIS, the MWD purchased ARC/Info software from the Environmental Systems Research Institute Inc. to process the census tract demographic paramaters, generate demographic reports, and provide electronic-mapping capabilities. An Oracle Corp. relational database of tabular data now supplements the spatial data maintained by the GIS database. Black & Veatch, & Ebasco Services Inc. (1992). Inland Feeder Project : Environmental planning technical report : pipeline feasibility (No. 1069). Los Angeles, California: Metropolitan Water District of Southern California. Bookman, M. (1957, November 19). The California Water Plan as it affects the upper Santa Ana River area. Paper presented at the League of Women Voters of San Bernardino meeting, San Bernardino, CA. California Bureau of Sanitary Engineering. (1972). Domestic water use and planning. Berkeley, CA: State Dept. of Public Health, Bureau of Sanitary Engineering. California Department of Public Works Division of Highways (Cartographer). (n.d.). Map of District VIII showing freeways [1 map : photocopy ; 57 x 42 cm.]. California Department of Transportation, & California Private Transportation Corporation. (1990). Development franchise agreement, State route 91 median improvements, Orange and Riverside Counties, California. Sacramento, CA: California Department of Transportation. California Department of Transportation, & California Private Transportation Corporation. (1992). Amendment ... development franchise agreement, State Route 91 median improvements, Orange and Riverside Counties, California (No. T900.M42 amend. cadocs). Sacramento, CA: California Department of Transportation. California Department of Transportation District 7. (n.d.). Freeway report, mid-year (Journal Government document). [n.p.] 90 Santa Ana River & Watershed Bibliography California Department of Transportation Office of Structures Maintenance and Investigations. (1991-1995). Log of bridges on state highways (Journal). Sacramento, CA: Author. California Department of Water Resources. (1932-1964). Water supply conditions in Southern California (California Water Resources Bulletin). Sacramento, CA: Author. California Department of Water Resources. (1957). Upper Santa Ana River drainage area land and water use survey, 1957. Sacramento, CA: Author. California Department of Water Resources. (1960). Upper Santa Ana River drainage area land and water use survey, 1957 (Department of Water Resources Bulletin No. 71). Sacramento, CA: Author. California Department of Water Resources. (1961). Data on water wells in the Dale Valley area, San Bernardino and Riverside Counties, California (Federal-State cooperative ground water investigations. California Dept. of Water Resources Bulletin No. 91-5). Sacramento, CA: Author. California Department of Water Resources. (1961). Water supply conditions in Southern California during 1958-1959. Sacramento, CA: Author. California Department of Water Resources Division of Design and Construction. (1977). Design engineer's criteria for operation and maintenance: State Water Facilities Santa Ana Division; part IV, aqueduct - San Bernardino Tunnel intake to Lake Perris. Sacramento, CA: Author. California Department of Water Resources Division of Resources Planning. (1959). Santa Ana River investigation. Sacramento, CA: Department of Water Resources. California Department of Water Resources Southern District. (1999). Initial study and draft mitigated negative declaration, Sugarloaf Mountain road and drainage repair project. Glendale, CA: Author. California Division of Highways. (1963). Report of meeting with the technical staffs on the proposed location of the route 59 freeway, road VII-LA-59-Z: Between adopted Route 267 and San Bernardino County line, Los Angeles, June 21, 1963. Sacramento, CA: Author. California Division of Highways. (1964). A look at the freeway program, District VII. Sacramento, CA: Author. California Division of Water Resources. (1955). Memorandum report on water conditions in Antelope Valley in Kern, Los Angeles and San Bernardino County. Sacramento, CA: Author. California Legislature Senate Committee on Housing and Land Use. (1995). Developer fees: A summary report from the interim hearing of the Senate Committee on Housing & Land Use (No. 830-S). Sacramento, CA: Senate Publications. 91 Water Resources Institute, California State University San Bernardino California Public Utilities Commission Transportation Division. (1963). Report on safety, maintenance, operation, use and protection of crossings at grade with the lines of Union Pacific Railroad Company at Milliken Avenue, crossing no. 3-43.4, in the counties of Riverside and San Bernardino, and Limonite Avenue, crossing no. 3-49.8, in Riverside County, case no. 7640. Sacramento, CA: Author. California Public Utilities Commission Transportation Division. (1965). Report of commission staff investigation into: Case 8103-Edinger Avenue, Huntington Beach-crossing no. 6NC30.20; case 8104-Vanderlip Avenue, Orange County-crossing no. VM-521.3; case 8104Warren Avenue, Orange County-crossing no. BM 521.3; case 8105-Greenville Street, Santa Ana-crossing no. 6N-38.34C; case 8111-Western Avenue, Stanton-crossing no. 6NC-25.14-C. Sacramento, CA: Author. Camp Dresser & McKee Inc. (1990). Chino Basin desalter feasibility study (Draft). Ontario, CA: Santa Ana Watershed Project Authority. City of Los Angeles, California Dept. of Public Works, & California Division of Highways. (1958). A freeway and expressway system for Los Angeles, Orange and Ventura counties. Los Angeles, CA: Metropolitan Transportation Engineering Board. Comprehensive Planning Organization, Barton-Aschman Associates, & Peat Marwick Mitchell & Co. (1975). San Diego-Los Angeles rail passenger service engineering feasibility study (Final summary report for SB 2267). Sacramento, CA: California Department of Transportation. Conkling, H. (1947). Water supply and use Santa Ana River system: Report to the Santa Ana River Water Association. Redlands, CA: Santa Ana River Water Association. Conkling, H., & Baker, D. M. (1953). Adequacy of present water supply of easterly portion of interior basin of Santa Ana River. n.p.: Santa Ana River Water Supply Committee, Inc. Crother, C. M. (1994). Reclaiming water with wetlands. Civil Engineering, 64(7), 52. The limited supply of potable water in Southern California could potentially stall economic growth in the region and may be available only in restricted amounts for environmental uses. One concept generating interest among water agencies, including the Eastern Municipal Water District (EMWD) in San Jacinto, is water reclamation through the reuse of municipal wastewater. EMWD, along with the US Bureau of Reclamation, is investigating the use of multipurpose constructed wetlands for wastewater treatment, reclaimed-water reuse, environmental enhancement, wildlifehabitat creation, and public education and recreation. By incorporating reclaimed water into its water-resources-management program, EMWD will have the flexibility to provide water of different qualities throughout the district and save potable water for potable uses. D'Altroy, T. N., & Stickel, E. G. (1980). Santa Ana River and Santiago Creek: A cultural resources survey. Los Angeles, CA: United States Army Corps of Engineers, Los Angeles District. Davis, L. C., & Lyons, T. C. (1971). Future costs and qualities of imported water (Final). Walnut Creek, CA: Water Resources Engineers Inc. 92 Santa Ana River & Watershed Bibliography De Leuw Cather & Company. (1966). Interim report to the City of Montclair and the City of Pomona on railroad grade separation connecting Mills and Pipeline Avenues near the Los Angeles - San Bernardino County line. San Francisco, CA: City Councils of the cities of Montclair and Pomona. Department of Real Property Services Acquisition Division Title Section. (1972). Inventory of public lands, Santa Ana River-Santiago Creek greenbelt corridors. Orange County, CA: Orange County Board of Supervisors. Evarts, W. M. (1800). California railroad tax cases. In the Supreme Court of the United States ... Oral argument of Mr. Evarts, for defendants in error. Washington, DC: T. McGill & Co. Law Printers. Evenson, D. E., Krieger, J. B., & Tom, B. J. (1983, June 5-9, 1983). Aquifer Storage - A vital link in Southern California's water supply. Paper presented at the AWWA 1983 Annual Conference; Create a New Excellence, Las Vegas, NV. Southern California's water supplies may well be deficient in the near future. Several projects to supplement water supplies are being considered by the California Department of Water Resources and the Metropolitan Water District of Southern California. One such program involves conjunctive-use storage in the Chino groundwater basin, which is located in the upper Santa Ana River watershed in San Bernardino County. This paper discusses the feasibility study which was conducted for this program. The study examined operational methods for storing and extracting water in Chino Basin, the impacts of a groundwater storage program on Chino Basin and the overlying water users, and the engineering, economic, environmental, institutional, and legal factors involved. The proposed program utilizes both direct and indirect storage methods whereby water would be stored in years of abundant supply for use during times of deficiency. The program has the capability of storing up to 1,000,000 acre-feet of water. Fenves, G. L., & DesRoches, R. (1994). Response of the northwest connector in the Landers and Big Bear earthquakes (No. UCB/EERC-94/12). Berkeley, CA: Earthquake Engineering Research Center, University of California. 93 Water Resources Institute, California State University San Bernardino Frasher, S. (2003, Mar 10, 2003). Inland officials congest capital for traffic relief. The Business Press, p. 2. Agencies involved in the Feb. 10-13 trip included Southern California Association of Governments, Riverside County Transportation Commission, San Bernardino Associated Governments (SANBAG), Southern California Regional Rail Authority (Metrolink), Los Angeles County Metropolitan Transportation Authority, Ventura County Transportation Commission and the Imperial Valley Association of Governments. A single uniform platform with broad political support is easier for [Gary Miller] to present, [Kevin McKee] said. Commission chairman Ron Roberts, a Temecula councilman, credited Southern California Association of Governments Chairman Hal Bernson with driving the unified approach. Riverside County is seeking $100 million for environmental studies, planning and land acquisition for work on the 91 Freeway, and $50 million to plan an alternate route between Moreno Valley and San Bernardino. San Bernardino County requested $30 million [with railroads expected to contribute another $30 million] to build a grade separation at Colton Crossing, $1.5 billion for a dedicated truck was through the Cajon Pass, $100 million to widen I-215 between I-10 and I-210, and $200 million to replace obsolete freeway interchanges inundated by heavy truck traffic. Statement of the California Department of Water resources before the Assembly Committee on Water presented William R. Gianelli, District Engineer Southern California District, California State Assembly 2 pieces (1959). Goodman, J. B. (Cartographer). (1913). Automobile road map touring Los Angeles and vicinity: Showing boulevards, good roads, and highways; also including main line and interurban railway systems, cities, towns, beach and mountain resorts [1 map ; 57 x 43 cm. folded to 25 x 11 cm]. Greenwood, R. S., Hampson, R. P., Sorensen, J., Goldberg, S. K., Swanson, M. T., & Arnold, J. E. (1988). Cultural resources survey, Upper Santa Ana River, California. Pacific Palisades, CA: Greenwood and Associates. Grover, N. C., & U.S. Geological Survey. (1918). Surface water supply of the United States, 1915: Part 11. Pacific slope basins in California (Geological Survey (U.S.) water-supply paper No. 411). Washington, DC: U.S. Government Printing Office. Hampson, R. P., Swanson, M. T., & Greenwood, R. S. (1989). Cultural resources survey: San Timoteo wash flood control project. Pacific Palisades, CA: Greenwood and Associates. Hansen, R. G., & Leeson, H. W. (1963). Water supply conditions in Southern California during 1960-1961 (Department of Water Resources Bulletin No. 39-61). Sacramento, CA: California Department of Water Resources. Hansen, R. G., & Leeson, H. W. (1964). Water supply conditions in southern California during 1961-1962 (California Department of Water Resources Bulletin No. 39-62). Sacramento, CA: California Department of Water Resources. Hass, M. L. (1985). The barrios of Santa Ana: Community, class, and urbanization, 1850-1947. University of California Irvine, Irvine, CA. 94 Santa Ana River & Watershed Bibliography Holman, D. (2003, February 2002). Combined efforts rid area of invasive reeds. American City & County, 506 words. Picture 10,000 acres of water-guzzling reeds, stretching 30 feet high and spreading a foot a day. Somewhere in the middle of that impenetrable mass is the Santa Ana River, which delivers precious water to Southern California. In many places, the river has not been visible for years. Neither have any native cottonwoods or the endangered least Bell's vireo. Now, thanks to a $20 million allocation from a California bond issue, a consortium of counties and governmental agencies is working to remove nearly a third of the invasive reeds in the next five years. I-15 Interregional Partnership, San Diego Association of Governments, Western Riverside Council of Governments, & Southern California Association of Governments. (2003). Existing conditions report, I-15 Interregional Partnership. San Diego, CA: Southern California Association of Governments. Jackson, R. (2001). Water wars wear thin in Inland Empire. Inland Empire Business Journal, 13(10), 1. Jackson, W. H., Detroit Photographic Co., & W.H. Jackson Photograph and Publishing Co. (Artist). (1885). California views [Photographs]. Mammoth plate images. Yosemite National Park with views (one panoramic) of valley, waterfalls, and peaks. Mount Shasta; Mount Lowe Observatory and open car railroad. Views overlooking bays, including Santa Catalina Island. Hotels. Missions, some showing garden, cemetery, and friars. Cattle grazing, tended by person on horseback. One photo of Joshua trees, one of palm-lined avenue in Riverside, and one overlooking orchards. Kasindorf, M. (2003, Mar 20, 2003). Congestion replaces citrus in L.A. fringe: After 20 years of hodge-podge growth, officials in the Inland Empire are trying to control what's called the worst stretch of sprawl in America. USA TODAY, p. A.13. The Inland Empire is tiring of its lunch-bucket regional role. Several cities are suing in court to kill a state-mandated plan that they say would force them to accept a disproportionate share of Southern California's future low-income housing. There's now enough local work in service and construction jobs for blue- collar arrivals. But with 300,000 fewer local jobs than members of the workforce, the mostly middle-income commuter corps is forced onto freeways with a terrible traffic and long distances to go. Kennedy, H. W. (1961, September 25). Future availability of water for irrigation in Southern California. Paper presented at the 1961 Citrus Growers Convention, Los Angeles County Fair, Pomona, CA. Lavelle, M., Kurlantzick, J., & D'Addio, D. (2002). The coming water crisis: Many billions of dollars will be needed to quench America's thirst, but is private business the answer? U.S. News & World Report, 133(6), 22. Leonard, N. N., & Hall, M. C. (1975). Description and evaluation of cultural resources within the U.S. Army Corps of Engineers' Santa Ana River project (No. DAC W09-75-M-1752). Los Angeles, CA: U.S. Army Corps of Engineers, Los Angeles District. 95 Water Resources Institute, California State University San Bernardino Littell, F. J. (1966). Upper Santa Ana River drainage area land and water use survey, 1964. Sacramento, CA: California Department of Water Resources. MacRostie, W., & Dolcini, A. J. (1956). Santa Ana River investigation (State Water Resources Board Bulletin No. 15). Sacramento, CA: State Water Resources Board. Martz, P., Taylor, R. E., U.S. Army Corps of Engineers Los Angeles District, & University of California Riverside Archaeological Research Unit. (1977). Description and evaluation of the cultural resources within Brea, Carbon Canyon, Fullerton and San Antonio Reservoirs, Santa Ana River Basin, Orange, Los Angeles, and San Bernardino Counties. Los Angeles, CA: U.S. Army Corps of Engineers, Environmental Planning Section. Matthews, C. A. (1991). Using ground water basins as storage facilities in Southern California. Water Resource Bulletin. Southern California has traditionally relied on imported water from the Owens Valley, the State Water Project, and the Colorado River. Because of drought conditions and other factors, these sources are being depleted and the state is being forced to search for new sources of supply. An alternative under active consideration is storage of water obtained during peak supply periods in groundwater storage basins for use during dry periods. The Santa Ana River Basin in Orange County has already been established and is providing water to 25 cities in the county. Some of the merits and limitations of developing and exploiting groundwater storage basins in this region are addressed. McKillop, D. H., & Chun, R. Y. D. (1960). Water supply conditions in Southern California during 1957-1958 (Department of Water Resources Bulletin No. 39-58). Sacramento, CA: California Department of Water Resources. McKillop, D. H., Clawson, R. F., & Warne, W. E. (1961). Water supply conditions in Southern California during 1959-1960 (Department of Water Resources Bulletin No. 39-60). Sacramento, CA: California Department of Water Resources. Meister, J. (1995). Waste not, want not: Putting wastewater to work. The American City & County, 110(1), 32. In the 1980s, drought-stricken Californians discovered wastewater reclamation - planned use of purified effluent to replace treated water - which became a primary method of preserving the precious water supply. Although wastewater reuse is distasteful to some, it remains a commonly-used and effective means of increasing local water supplies. In some areas, reclaimed wastewater (ReW) may be the only water source. In 1992, the US Environmental Protection Agency (EPA) published Guidelines for Water Reuse, a set of recommended practices (there are no federal regulations) on safe use of reclaimed wastewater. The guidelines cover 6 major categories of ReW use: 1. urban reuse and irrigation, 2. industrial reuse, 3. agricultural reuse, 4. environmental and recreational application, 5. groundwater discharge, and 6. augmentation of potable water supply. In addition to health concerns that are likely to be voiced in any community considering widespread use of ReW, one of the greatest planning hurdles is identifying an outlet for the effluent. 96 Santa Ana River & Watershed Bibliography Metropolitan Transportation Engineering Board. (1958). Proposed freeway and expressway system for Los Angeles, Orange and Ventura Counties: A report to the Department of Public Works of the State of California. Los Angeles, CA: California Dept. of Public Works,. Murata, H. (1982). Evaluation of data and water planning procedures for the Santa Ana River Basin: Memorandum report. Los Angeles, CA: State of California, Resources Agency, Dept. of Water Resources, Southern District. National Water Research Institute, & Santa Ana Watershed Project Authority. (1995). The Santa Ana River Watershed workshop. Fountain Valley, CA: National Water Research Institute. Nelson, H. J. (1959). The spread of an artificial landscape over Southern California. Annals of the Association of American Geographers, 49(3, Part 2. Man, Time and Space in Southern California: A Symposium), 80-99. Orange County Water District, & Boyle engineering Corporation. (1983). Issue studies: A collection of studies addressing the Southern California's future water supplies. Santa Ana, CA: Municipal Water District of Orange County. Orr, J. H. (2002, Jun 17, 2002). California officials plan to crack down on water quality rulebreakers. Knight Ridder Tribune Business News, p. 1. The state will prohibit restaurants, auto repair shops, factories and builders from simply hosing off their parking lots and shop floors and letting the water and trash flow into storm drains. Both Riverside and San Bernardino counties are scurrying to come up with plans to ensure water running into storm drains is as clean as possible as they renew their pollutant elimination permits as required by federal law. Under the expired permit, home builders were required to prevent storm runoff using so-called best management practices, said Bill Blankenship, deputy director of the Riverside County chapter of the Building Industry Association. Most developers manage storm runoff using sandbags, silt nets and other methods, he said. Water the benefits? The costs appear particularly large, especially since few of Riverside County's waters targeted by the regulations are used primarily for recreation, said Stephen Stump, senior civil engineer with the storm water management division of the Riverside County Flood Control District, who is preparing the county's discharge permit. P & D Technologies. (1990). Identification of study: Corridor alignments and environmental issues and constraints for the I-15 to Orange County segment. Riverside, CA: Riverside County Road Department. Pardee, G. C., Adams, F., Harding, S. T., Robertson, R. D., Tait, C. E., & Lee, C. H. (1912). Report of the Conservation Commission of the state of California January 1, 1913. Sacramento, CA: F.W. Richardson superintendent of State printing. Railroad Commission of the State of California. (1922). Report on proposed extensions of Los Angeles and Salt Lake Railroad Co. in Orange County, California, in connection with Interstate Commerce Commission finance dockets 1590 and 1591. Sacramento, CA: Author. 97 Water Resources Institute, California State University San Bernardino Raup, H. F. (1959). Transformation of Southern California to a cultivated land. Annals of the Association of American Geographers, 49(3, Part 2. Man, Time and Space in Southern California: A Symposium), 58-78. Rock, G. H. (Cartographer). (1922). Outdoors sport map, highways and distances, rivers, railways, elevations of cities and towns in Los Angeles, Riverside, Orange and San Bernardino counties [2 maps on 1 sheet]. Rosecrans, W. S. (1930). The ground waters of the Los Angeles Basin: Presentation of facts stressing necessity of proposed Los Angeles Basin Ground Water Survey (Paper presented at Los Angeles County Ground Water Conference). Los Angeles, CA: Los Angeles County Conservation Association. Rosta, P. (2000). California water conduit has unique inspection and fast fix. ENR, 244(22), 22. Aided by an innovative inspection technology and an aggressive schedule, Southern California's largest water agency replaced 18 prestressed concrete sections of a major Orange County water line in less than 5 days last month. Officials of the Metropolitan Water District of Southern California decided on the whirlwind project after electromagnetic inspection detected weakened steel reinforcement wires in the 20-yearold pipeline. Salinas, T. (2003, Oct 15, 2003). New rail would link Los Angeles, Orange counties. Knight Ridder Tribune Business News, p. 1. Stanton, Garden Grove, Huntington Beach and Buena Park have passed resolutions backing study of the concept, which calls for a raised magnetic levitation or "mag lev" system to be built along 33 miles of the old Pacific Electric railway corridor. On Tuesday, the Buena Park City Council, though, opted not to formally join the Orange Line Development Authority the joint-powers agency heading up the work nor contribute $3,460 to the authority. It would have become the only Orange County city to join the coalition. Buena Park council members cited weak participation by other Orange County cities as a top concern. Santa Ana Watershed Planning Agency, & Water Resources Engineers. (1970). Unit water requirements and waste increments: A final report on Task VI-6. Walnut Creek, CA: Water Resources Engineers Inc. Schuyler, J. D., & Lippincott, J. B. (1898). Southern California Power Company: Reports on the water supply of the Santa Ana River available for water and power developments with: Reports on proposed water and power developments on the Santa Ana River near Rincon, Cal. Scott, M. B., & Troxell, H. C. (1948). Water losses in the lower Santa Ana River Canyon, California. n.p.: U.S. Geological Survey. Serpico, P. C. (1988). Santa Fe route to the Pacific: Historical review of Southern California branch line construction from Los Angeles to Port Ballona, Redondo Beach, Santa Monica and the modern day operations at Los Angeles Harbor and Long Beach (1st ed. ed.). Palmdale, CA: Omni Publications. 98 Santa Ana River & Watershed Bibliography Shelton, M. J. (1956, September 20). Organization and program of the new State Department of Water Resources. Paper presented at the Los Angeles County Division of the League of California Cities meeting, Lafayette Hotel, Long Beach, CA. Shelton, M. J. (1956, November 16). The road ahead for water in California. Paper presented at the Citrus Belt Division, League of California Cities meeting, San Bernardino, CA. Sonderegger, A. L. (1931). Letter of July 29, 1931 to W. P. Whitsett, Chairman, Board of Directors, in regard to the effect of a favorable bond election on the local water situation. In C. W. P. Whitsett, Board of Directors (Ed.) (pp. 17 leaves). Los Angeles, CA: n.p. Southern California Association of Governments. (1990). Southeast Los Angeles, Western Orange County transportation study: Task 1 report. Los Angeles, CA: Author. Southern Pacific Company (Cartographer). (1914). Map of California: Compiled from official and authentic sources [1 map]. Stanford Research Institute. (1959). Investigation of alternative aqueduct systems to serve Southern California; Feather River and Delta diversion projects. Sacramento, CA: California Dept. of Water Resources. Stanton, P. J. (1971). Preliminary ramp control plan southbound Santa Ana Freeway from 4-level interchange to Norwalk Boulevard (Freeway Operation Dept. report No. 71-7). Los Angeles, CA: Division of Highways, District 7,. Thurston, A. G. (Cartographer). (1915). Thurston's travel and mileage map of the highways, cities, towns, railways : Los Angeles to San Diego and Los Angeles, Riverside, Orange, San Bernardino and San Diego counties [2 maps on 1 sheet]. Troxell, H. C. (1932). The lower Santa Ana River inflow 1930 and a comparison with past records. Los Angeles, CA: U.S. Geological Survey. Tsutsumi, S., & Farkov, E. (Cartographer). (2001). Los Angeles area freeway system [1 map]. U.S. Army Corps of Engineers. (1975). Review report on the Santa Ana River Main Stem: Including Santiago Creek and Oak Street Drain for flood control and allied purposes (Revised draft environmental statement). Washington, DC: U.S. Army Corps of Engineers, Los Angeles District. U.S. Army Corps of Engineers Los Angeles District. (1978). Santa Ana River main stem, including Santiago Creek and Oak Street drain, California. Washington, DC: U.S. Government Printing Office. U.S. Army Corps of Engineers Los Angeles District Planning Division. (1992). Santa Ana River basin and Orange County: Final feasibility study (Final Feasibility). Los Angeles, CA: U.S. Army Corps of Engineers, Los Angeles District. U.S. Bureau of the Census. (1992). 1990 census of population and housing: Los Angeles-Anaheim--Riverside, CA CMSA (part) A, Anaheim--Santa Ana, CA PMSA. Washington, DC: Bureau of the Census. 99 Water Resources Institute, California State University San Bernardino U.S. Department of Commerce Bureau of Census, & U.S. Dept. of Housing and Urban Development Office of Policy Development and Research. (1986-). Current housing reports. H-170, American housing survey for the Anaheim-Santa Ana metropolitan area in .. Washington, DC: U. S. Government Printing Office. W. W. Elliott & Co. (Cartographer). (1882). Map of San Bernardino and San Diego: Compiled for the illustrated history [1 map]. Water Reuse Study Management Board. (1982). Orange and Los Angeles counties water reuse study: Facilities plan; summary. Los Angeles, CA: Author. Waters, B., Cooper, H. E., Gibson, J. A., Bethune, J. D., Colton Land & Water Company, California Southern Railroad Company, et al. (1883). Collection of legal briefs relating to legal action of California Southern Railroad Company, plaintiff-respondent, vs. Colton Land and Water Company, defendant-appellant. San Bernardino, CA: Times Book and Job Print. Western Map Company (Cartographer). (1968). Industrial development map: Los Angeles five county area [1 map]. Wilcox, R. F. (1953). Highways. Los Angeles, CA: Haynes Foundation. Williams, W. E. (1971). Preliminary ramp control plan northbound Santa Ana Freeway from Route 605 to Pomona Freeway (Freeway Operation Dept. report No. 71-3). Los Angeles, CA: California Division of Highways, District 7. Yamauchi, H. (1968). An economic analysis of cost distribution aspects of groundwater quality conservation: Case of Orange County Water District, California. Unpublished Dissertation (Ph.D.), University of California Berkeley, Berkeley, CA. Basin-wide Agriculture and Other Uses Committee hearings, United States Senate. House Committee on Public Lands (1947). This is the Santa Ana River (Cartographer). (1973). Industrial centers in the Los Angeles five county area (Cartographer). (1975). [1 map]. Oral History Interview with Sanford Ballou. (1978). (pp. Unbound, (two copies) 34 p. and 49 p. ; + 32 tapes (120 min)). Upland, CA: Upland Public Library. 100 Santa Ana River & Watershed Bibliography Water Resources Development Act of 1979: Part 4. (1979). Hearings were held to consider several issues affecting the future development of U.S. water resources. Among the topics discussed were: a recommendation to construct pumped storage facilities at the Richard B. Russell dam and lake project being conducted by USACE on the Savannah River between Georgia and South Carolina; the status of flood control efforts at the Santa ANA river in California; the role of local, state, and federal government agencies in implementing and funding water resource projects; and several water resources projects currently underway throughout the U.S. testimony was elicited from sen Mike gravel (D-alsk), Sen. strom thurmond (R-S), Sen. Pete domenici (R-N Me), and representatives of USDI and USACE. Memoranda, related documents, and reports are transcribed. Industrial centers in the Los Angeles five county area (Cartographer). (1980). [1 map]. Greater Los Angeles area industrial map: Including most of L.A. County, Orange County, Riverside County, Ventura County, San Bernardino County (Cartographer). (1981). [1 map]. Official industrial development map of the Los Angeles five- county area, Los Angeles, Orange, Riverside, San Bernardino, Ventura: Including industrially zoned land and major parcels for future development (Cartographer). (1989). [1 map]. Computerized irrigation helps conserve water. (2001). The American City & County, 116(1), 18. In South Orange County, California, 2 homeowners associations are taking advantage of computerized irrigation systems to conserve water and reduce their utility bills. The switch from manually controlled irrigation was recommended by the Municipal Water District of Orange County, which estimated that the associations could save millions of dollars over a 5-year period. Rain, rigs, and cows. (2003). Onearth, 25(1), 42. Hyperdevelopment along the 1,100 miles of California coastline and in its nearby cities is causing widespread water pollution as contaminated stormwater is washed out to sea. In a recent court decision small cities were required to decontaminate stormwater before discharging it into the ocean. Adams, F. (1913). Irrigation resources of California and their utilization. Office of Experiment Stations Bulletin, 254, 95 p., pls. III and XVI. Albert A Webb Associates. (1974). Dairy waste management: Santa Ana Watershed Planning Agency. Riverside, CA: Author. Barron, H. S., Tobey, R. C., Wetherell, C., Moses, H. V., Larsen, G. H., Haas, L., et al. (1995). Citriculture and Southern California. California history, 74(Spring), 143. 101 Water Resources Institute, California State University San Bernardino Benson, M. (1996, December 18, 1996). Water deal pits farmers vs. farmers. Wall Street Journal, p. CA.1. California's two largest county farm bureaus -- Fresno and San Joaquin -- are among a growing number of organized farmers vowing to fight a Kern County-based water agency's proposed $22 million deal to send as much as 24 billion gallons of surplus water south each year for 25 years to the Los Angeles basin. The Arvin-Edison Water Storage District's proposal to send its water to the Metropolitan Water District in Los Angeles would represent the first major water transfer under a 1992 federal law. The irrigation district is among the Bureau of Reclamation's top five customers of federally subsidized water coming off the San Joaquin River at Friant Dam. Berkman, L. (2002). California dairies, farms now face Clean Air Act regulation. Knight Ridder Tribune Business News, Washington, DC, 1. Amy Zimpfer, the EPA's air division director for the southwest region, said the combined settlement of three lawsuits does not impose any new emission reductions on agriculture. But she said usually industries try to reduce emissions below the permit- triggering threshold. Sharon Bolton, executive director of the Riverside County Farm Bureau, said she was just learning about the EPA action. "Obviously we have to figure out what it means," said Bolton. She said she already had been meeting with officials of the South Coast Air Quality Control District to discuss their pollution reduction plans. Anne Harper, a lawyer with Earthjustice, an advocacy law firm that settled with the EPA, said through the permit process the state's regional air quality districts will get a far clearer understanding of which agricultural operations cause air pollution and to what degree. "We are targeting major sources of air pollution. It is not going to affect the small farm," Harper said. Zimpfer said the EPA was persuaded by the environmentalists' legal arguments and by learning that the state's air pollution control districts "have more information than we thought," especially about emissions from diesel pumps used in farm irrigation. Beutler, B., & Makel, B. (1985). *A Scenario* - Outdoor Recreation Opportunities - Lower Santa Ana River Basin -Present to Year 2050* Without Project*. n.p.: U.S. Department of Agriculture Forest Service,. Blaney, H. F. (1930). Irrigation investigations, Southern California Projects: Santa Ana Basin Project (Cooperative investigations, semi-annual inspection reports of state representative). n.p. Bowles, J. (2003, March 7, 2003). Inland tank farm fined for dumping : $48,000: The Rialto-area firm is cited for releasing tainted water into a Santa Ana River tributary. The Press Enterprise, p. B06. Regional water-quality officials fined the owners of an Inland fuel storage complex $48,000 for allegedly dumping contaminated water into a Santa Ana River tributary 16 times. Kinder Morgan Energy Partners, principal owner of the Rialto-area tank farm, had not seen the complaint Thursday but planned to review the charges and determine whether to appeal, spokesman Larry Pierce said. BSI Consultants Inc., & Jurupa Area Recreation and Park District. (1990). Community Park and Recreaiton master plan. Santa Ana, CA: BSI Consultants. 102 Santa Ana River & Watershed Bibliography California Department of Fish and Game. (1957). Report on hunting and fishing potentialities; Prado Dam basin, Riverside and San Bernardino counties, California. Sacramento, CA: Author. California Department of Public Works. (1954). Views and recommendations of state of California on proposed report of the U.S. Department of Agriculture, on San Gabriel and Santa Ana River watersheds, California. Sacramento, CA: Author. California Division of Beaches and Parks. (1961). Prado flood control basin, Riverside and San Bernardino counties: An analysis of state park potentials, requested by 1961 Assembly Concurrent Resolution no. 37. Sacramento, CA: Author. California Division of Water Resources (Cartographer). (1932). Irrigated crops, 1932: In Southern California [1 map]. California Inter-County Recreation Planning Committee. (1960). Southern California regional recreation area study: Mono, Santa Barbara, San Bernardino, Kern, Inyo, Orange, Ventura, San Diego, Riverside, Los Angeles, Imperial. Los Angeles, CA: Author. Chaput, D. (1985). The Temescal tin fiasco. Southern California Quarterly, 67(1), 1-24. Following the discovery of tin in 1859, the Temescal area in modern-day Riverside County, California, became a hotbed of mining speculation and litigation over land titles. The heyday of Temescal tin mining was brief, from about 1890 to 1892. During that period, London investors poured money into Temescal tin mining, only to find that the region lacked the large deposits needed to make their investment feasible. Although the United States became a major producer of tinplate, the Temescal boom fizzled and is remembered mainly for the litigation and the money lost in trying to develop the area's resources. Davis, L. (2003). Partnerships key to Great Park's success. Nation's Cities Weekly, 26(20), 6. The city of Irvine CA plans to transform the former El Toro Marine Air Station into the largest metropolitan park in the nation. Upon completion, the Orange County Great Park will be three times larger than New York City's Central Park. Eldridge, G. H., & Arnold, R. (1907). The Santa Ana, Los Angeles, and Puente Hills oilfields. U.S. Geological Survey Bulletin, 309. Florkowski, J. (2003, Oct 8, 2003). California dairy permit fees about to rise. Knight Ridder Tribune Business News, p. 1. Although the nearly 300 dairies in the Chino Valley-Riverside County area have traditionally paid a one-time fee of $2,000 since the early 1990s for the permit, state lawmakers changed the fee system in March. Last week, the state Water Resources Control Board set the annual fees for dairies and other large animal facilities. The permits are designed to prevent manure and water from coming off dairies and polluting local water bodies such as the Santa Ana River. [Vanden Heuvel] said it's unfair to charge dairies a waste discharge permit fee when the industry isn't allowed to discharge from industry property. 103 Water Resources Institute, California State University San Bernardino Gonzalez, G. G. (1994). Labor and community: Mexican citrus worker villages in a Southern California county, 1900-1950. Urbana, IL: University of Illinois Press. Gregor, H. F. (1963). Regional hierarchies in California agricultural production: 1939-1954. Annals of the Association of American Geographers, 53(1), 27-37. Grenoble, P. (1985). Historic notes: Southern California wine country. Westways, 77(8), 40-43. Describes the thriving vineyards of late-19th- and early-20th-century Southern California, particularly in the valleys around Los Angeles, and mentions the rebirth of the wine industry in recent years in the Temecula area of Riverside County and in Santa Barbara and San Luis Obispo counties. Hall, W. H., State Engineer. (1886). Report of the state engineer of California on irrigation and the irrigation question. Sacramento, CA: J.D. Young. Hall, W. H., & Fletcher, E. (1888). Irrigation in California (Southern): The field, water-supply, and works, organization and operation in San Diego, San Bernardino, and Los Angeles Counties; the second part of the report of the State Engineer of California on irrigation and the irrigation question. Sacramento, CA: State Engineer of California. Hall, W. H., & Wilson & Wilson. (1891). Alessandro Irrigation District, California: Its physical, engineering and business problems and conditions. San Francisco, CA: Bacon & Co. Hampson, R. P., Greenwood, R. S., & Swanson, M. T. (1990). The Billingsley Dairy: A family enterprise in the Prado Basin (No. CA-RIV-3508-H). Pacific Palisades, CA: Greenwood and Associates. Hatch, R. B. (1957). Report on state park potentialities of Prado Dam, Riverside and San Bernardino counties, California in accordance with Assembly Concurrent resolution no. 141, Chapter resolution no. 241. Sacramento, CA: State of California, Dept. of Natural Resources, Division of Beaches and Parks. Hinedi, Z. R., Chang, A. C., & Yesinowski, J. P. (1989). Phosphorus-31 magic angle spinning nuclear magnetic resonance of wastewater sludges and sludge-amended soil. Soil Science Society of America journal, 53(4), 1053-1056. Phosphorus-31 magic angle spinning nuclear magnetic resonance (MAS NMR) spectroscopy was used to examine the forms of P in two municipal sludges and a sludgeamended soil. The signal-to-noise ratio and the resolution of the spectra improved considerably when paramagnetics in the sludge and sludge-treated soil samples were removed by a reducing treatment involving citrate-bicarbonate-dithionite (CBD). The spectra suggested that the P solid phases in the anaerobically digested sludge from Los Angeles County, Cafifornia were calcium phosphates. The strong paramagnetic effects, however, precluded more precise identification of the calcium phosphate phase. In the anaerobically digested alum-treated sludge from Riverside, three P solid phases are detected, carbonated apatite, a pyrophosphate, and aluminium phosphate. In the Domino soil (fine-loamy, mixed, thermic Xerollic Calciorthid), amended with sludge from Los Angeles County, 31P MAS NMR indicated the presence of carbonated apatite and pyrophosphate solid phases. Class Descriptors: NAL: 56.9 SO3 104 Santa Ana River & Watershed Bibliography Hochman, E., & Zilberman, D. (1977). Two goal regional environmental policy: The case of the Santa Ana River Basin. Journal of Environmental Economics and Management, 4(1), 25. The value of information about the functional relationships between targets and instruments can hardly be understated in determining public policy measures. In this study, these marorelations are obtained for a competitive industry by way of aggregation over many individual firms following simple behavioristic patterns. With the exact knowledge of the macrorelations, obtaining the numerical values of the instruments becomes the exercise of a simple mathematical programming problem. These principles are applied via an examination of the water pollution problems generated by the dairy industry in the santa ana river basin. Local governments in the basin face the problem of controlling environmental quality with minimum opportunity costs in terms of output. Includes graphs, table, equations, and references. Jaffe, M. (1996). Empire of the orange. Sunset, 196(2), 64. The orange was an economic dynamo that helped build Southern California, then, ironically, helped bring the end of the way of life it had promised and of the empire it had built. A guide to the past, present, and flavor of Southern California's beautiful and vanishing citrus country, including tourist information, is presented. Kelly, D. (1996). California's Jet Jam '96 propels new wave audience to personal watercraft racing. Trailer Boats, 25(11), 28. The highlights of California's Jet Jam '96, a personal watercraft race event, are discussed. A section of California's Santa Ana river was used for the event, which was round ten of the '96 Bud Jet Sports Tour. Kelly, D. (2000, March 04, 2000). 'Coast-to-crest' trail picks up head of steam: Santa Ana River pathway would cross three counties. The Press Enterprise, p. 654 words. The dream of uniting the Pacific Ocean with the San Bernardino Mountains via a hiking, biking and horse trail may be just a few years away, officials said Friday. The route along the Santa Ana River and its tributaries has been mapped out, money is rolling in and opposition to a pathway through San Bernardino, Riverside and Orange counties has been virtually non-existent so far. County officials discussed the status of individual projects, endangered species and the benefits of putting a trail through their cities and towns.The plan must be approved by each city in the county. So far, 12 have agreed. McCann, W. (1980). Manufacturing statistics in the Los Angeles 5-county area: Los Angeles, Orange, Riverside, San Bernardino & Ventura Counties: A statistical supplement to the Industrial Centers Map, providing official statistics in handy form, documenting the industrial rise of the Los Angeles region, with emphasis on its growing importance and diversity. Sherman Oaks, CA: Western Economic Research Co. 105 Water Resources Institute, California State University San Bernardino Miller, K. (2001, Jul 9, 2001). State money available to help farmers conserve. The Business Press, p. 4. "We will sure look at anything we can find that will save us money," said Dan Callicott, vice president and general manager of San Jacinto-based Agri-Empire, a potato grower with operations in Hemet, San Jacinto Valley, Westmoreland, Anza, Borrego, Bakersfield and the Coachella Valley. Callicott hadn't heard of the program, but said he'll probably apply for the assistance now that he knows about it. Agri-Empire is a heavy electricity user: It draws on power to irrigate fields, run conveyor belts, illuminate packing sheds and cool stored food. "There is some potential (for saving energy) in terms of wells," said Nathan de Boom, environmental specialist for the Milk Producers Council, which represents 270 dairies in the Inland Empire that produce nearly 1 billion gallons of milk a year. Moffitt, L. J. (1977). Water quality versus production: The case of the dairy industry in the Santa Ana River Basin. Berkeley CA: Division of Agricultural Sciences, University of California. Moffitt, L. J., University of California Division of Agricultural Sciences California Agricultural Experiment Station, & Giannini Foundation of Agricultural Economics. (1976). Water quality versus production: The case of the dairy industry in the Santa Ana River Basin. n.p.: Author. Moffitt, L. J., Zilberman, D., & Just, R. E. (1979). A "Putty Clay" approach to aggregation of production/pollution possibilities: An application in dairy waste control (Giannunu Foundation Agriculture Economics Working Paper No. 50). Berkeley, CA,: University of California Experimental Station. The main purpose of this paper is to develop a methodology for calculating efficient pollution taxes, to demonstrate the practicality of its application, and to quantitatively investigate the superiority of taxes to standards in a particular problem, dairy pollution in the Santa Ana River basin of California. Murphy, D. E. (2003, Jan 17, 2003). Government strengthens threat of denying water to California farmers. New York Times, p. A.17. The Imperial district, which provides water to about 400 farmers in Southern California, sued the Interior Department after Interior Secretary Gale A. Norton ordered a reduction of about 7 percent in the district's water from the Colorado. Ms. Norton took the action after the district missed the deadline last month to sell that amount of water to neighboring San Diego County. She also ordered a cut in water supplies requested by the Los Angeles-based Metropolitan Water District of Southern California. The letter by Mr. [Bennett W. Raley] said the water districts ''should not assume that earlier drafts of relevant documents, including provisions regarding reasonable and beneficial use, will be acceptable to the United States.'' The principle of ''reasonable and beneficial use,'' a mainstay of Western water law, holds that no water user has the right to waste water. Ogu, P. E. (1995). The Agua Mansa enterprise zone: An empirical analysis. Unpublished M.P.A., California State University San Bernardino, San Bernardino, CA. 106 Santa Ana River & Watershed Bibliography Orange Heights Orange Association. (1998). OHOA collection.Unpublished manuscript, Corona, CA. Collection contains nine subgroups which accommodates the records of citrus associations that have merged with OHOA and includes: Orange Heights Orange Association; Olive Heights Citrus Association; Consolidated Orange Growers; Queen Colony Fruit Exchange; Corona College Heights Orange and Lemon Association; Corona Growers, Inc.; Sunkist Growers, Inc.; San Gabriel Valley Labor Association; and a number of smaller groups of records from Brookside; Citrus Growers, Inc.; Corona Foothill Lemon Association; Exchange By-Products Co.; Exchange Orange Products Co.; Fallbrook Citrus Association; Foothill Lemon Association; Fruit Growers Supply Co.; Goleta Lemon Association; Irvine Valencia Growers; La Verne Co-Op; Orange County Fruit Exchange, Orange Heights Lemon Association; Royal Citrus; Santa Ana Valley Irrigation Co.; Sierra Madre Lamanda Citrus Assoc.; and Vinavista. Collection included twenty general ledgers, three payroll ledgers, one bond deduction payroll ledger, two social security ledgers and two shipping records which were discarded after filming because of space considerations. Riverside County Planning Commission. (1974). Santa Ana River Regional Park, Rubidoux, California (Environmental impact report). Riverside, CA: Riverside County Parks Dept. Rowe, J. (1988). Southland importing food as developers plow under farms. Orange County Business Journal, 11(5), 40. Just a few years ago, visitors to Riverside County's Coachella Valley could look out over 10,000 acres of baseball-sized tomatoes that tasted as good as they looked. Today, such production is a memory, pushed out by the relentless crush of development endemic to Riverside, San Bernardino and Orange counties. To the average consumer, however, the loss of Coachella production has not been noticed -- the grocery produce bins still are laden with red tomatoes. But the disappearance of tomatoes from Coachella, the loss of citrus in eastern San Bernardino and Riverside counties and the diminishing production of celery, lettuce and other crops in Orange County is of profound concern to agricultural officials in all three areas. They worry that the loss of ability to grow certain crops has left California and the rest of the nation dependent on foreign imports, a stunning turnabout for a nation that has taken food for granted for generations. (excerpt) Sandow, G. (Cartographer). (1888). Detail irrigation map: Southern California. To accompany: Report of the State Engineer of California on irrigation and the irrigation question ... 1886-1888. [12 maps]. Santa Ana Recreation and Parks Department Urban Park and Recreation Recovery Program. (1981). Santa Ana UPARR recovery action plan. Santa Ana, CA: Author. Santa Ana Valley Irrigation Company. (1900-). Annual report of the board of directors and the board of audit of the Santa Ana Valley Irrigation Company (Annnual). Orange, CA: Author. Sarver, T. R. (1976). Recommended approaches for the reduction of pollutants in the Santa Ana River Basin due to inadequate management of dairy wastes. MAI, 14(02), 70. 107 Water Resources Institute, California State University San Bernardino Stokley, S. (1993, March 24, 1993). Tests show dairy sewage reached Santa Ana River; Water board tests showed dairy runoff could be a hazard for anyone drinking directly from the river or wading or swimming in it. The Press Enterprise, p. 592 words. The results of the first-ever testing of tributaries to the Santa Ana River following a major rainstorm confirm what most residents of the Chino-Corona-Norco areas already suspected - that thousands of gallons of dairy sewage escaped from the 300 dairies in the area during the torrential January and February rainstorms. This could pose a hazard to humans if they drank it or came into contact with it by wading or swimming in the river. U.S. Department of Agriculture Forest Service, U.S. Geological Survey, & Huber, W. L. (Cartographer). (1910). Collection of U.S. Forest Service and U.S. Geological Survey maps of national forest areas in California University of California Library Photographic Service, & USAIN State and Local Literature Preservation Project. (2000). Agricultural societies [titles concerning California agriculture].Unpublished manuscript, Berkeley, CA. West Basin Municipal Water District, Central Basin Municipal Water District, & Metropolitan Water District of Southern California. (1993). Handbook on the use of recycled water for industrial/ commerical cooling systems. Carson, CA: West Basin Municipal Water District. Western Municipal Water District, & University of California Cooperative Extension. (1990). Landscapes Southern California style: Creating beautiful landscapes to save water (Booklet). Riverside, CA: Western Municipal Water District. Western Municipal Water District of Riverside County, & San Bernardino Valley Municipal Water District. (2001-). Water extractions for calendar year Covers water extractions made from the groundwater basins of the Santa Ana River Watershed above Prado Dam (excluding that part of the Chino Basin in San Bernardino County). Young, A. A. (1945). Irrigation requirements of California crops (California Division of Water Resources Bulletin No. 51). Sacramento, CA: California State Printing Office. Irrigation and water supply in the South Pacific Basin, the Great Basin Desert Area, the San Joaquin Valley, the Sacramento Valley, and the Sacramento-San Joaquin Delta. Zupancic, J. (1999). Reclaimed water: Challenges of irrigation use. Grounds Maintenance, 34(3), 33. Using effluent for irrigation presents a variety of technical, contractual, chemical, practical and dramatic challenges. The challenges of irrigation use are discussed. 108 Santa Ana River & Watershed Bibliography Basin-wide Creative/Artistic Expressions Water resources development in California photograph album (Artist). (n.d.). [Photographs]. Didion, J. (1998). The Santa Ana. In S. Gilbar (Ed.), Natural state: A literary anthology of California nature writing (pp. 326-329). Berkeley, CA: University of California Press. Galloway, J. D., Huber, W. L., Young, G. S., & Robinson, F. D. (Artist). (1910). Collection of photographs of various dams and power plants in California and other western states [Photographs]. Gilbar, S. (1998). Natural state: A literary anthology of California nature writing. Berkeley, CA: University of California Press. Greenestaff, L. C. (2003, August 4, 2003). Activist helps preserve Santa Ana River's character. Inland Valley Daily Bulletin, p. 629 words. Ruth Anderson Wilson pointed across the wide and brushy alluvial plain where the Santa Ana River sweeps under Mission Boulevard. "The river is continually under threat," the still-feisty 80-year-old warned. Though threats might exist, the 100-mile river flows through mostly wild terrain rather than concrete ditches, in large part because of Wilson's decades-long work. This summer, The Santa Ana Watershed Project Authority inaugurated the annual Ruth B. Anderson Wilson Award in honor of her contributions. The inaugural award went to the Orange County Watershed District for its efforts in removing a non-native, prolific, and damaging plant -- the bamboo-like plant arundo -from the river bottom. Harte, B. (1901). Under the redwoods. New York, NY: Houghton, Mifflin and Company. Lippincott, J. B. (Artist). (1899). J.B. Lippincott photographs [Photographs]. Lippincott, J. B., & U.S. Geological Survey (Artist). (1895). U.S.G.S. photographs 340 to 648 Lippincott, J. B., & U.S. Geological Survey (Artist). (1895). U.S.G.S. photos 1 to 164 Muckenfuss, M. (2003, June 22, 2003). A photographer on the river edge: A professor wins a fellowship studying the Santa Ana River. The Press Enterprise, p. 1022 words. The pine trees outside Sant Khalsa's mountain home are dying. Drought, bark beetles and ozone, says Khalsa, have combined to kill off a million pine trees in the San Bernardino National Forest. People should have seen it coming, the artist says. One might argue that Khalsa herself didn't heed the warnings. She and her husband, David, moved here two years ago and are just completing the renovation of their home. This connection -- past to future -- and the change it is bringing are nothing new for Khalsa. These elements are unifying themes in the work she has done over the years, work that recently has garnered some important attention. Khalsa has received several grants and accolades over the past year. 109 Water Resources Institute, California State University San Bernardino Packard, W. E. (Artist). (1910). Views of irrigation and land reclamation projects in the Imperial Valley and other California locales [Photographs]. Includes views of farms (some experimental), farming (hemp harvesting, etc.), and farm buildings. Photos of flooded areas and destruction by cyclon include views of the Colorado River flood of 1906. Also depicted are many views of the Delhi land settlement, focusing on agriculture, dwellings, etc. Other photos depict the Riverside Experiment Station, University Farm at UC Davis, Durham agricultural views, and members of the Agriculture Club of U.C. Berkeley. A view of a Chinese restaurant at Mexicali (Mexico), an interior of a store at Meloland, Calif., and photos of W.E. Packard homes are also included. Sleeper, J. (1976). A grizzly introduction to the Santa Ana Mountains: A boys' book of bear stories (not for boys) (1st ed.). Trabuco Canyon, CA: California Classics. Basin-wide Litigation / Legal Issues Anaheim Union Water Company; Hemet Town Water Company; Lake Hemet Water Company; Riverside Highland Water Company; Riverside Water Company; Santa Ana Valley Irrigation Company.Unpublished manuscript(1888-1969). Berkeley, CA. Hewitt v. Story et al., 39 158 (Circuit Court, S.D. California 1889). Hewitt v. Story et al., 51 101 (Circuit Court, S.D. California 1892). Hewitt v. Story et al., 64 510 (Circuit Court of Appeals, Ninth Circuit 1894). Rincon Water & Power Co. v. Anaheim Union Water Co. et al., 115 543 (Circuit Court, Southern District California, S.D. 1902). Jacob Stoner, Appellant, v. Fred Zucker et al., Respondents, 148 516 (Supreme Court of California 1906). City of Santa Ana (a Municipal Corporation), et al., Respondents, v. Santa Ana Valley Irrigation Company, Appellant, California Reports 211 (Supreme Court of California, Department Two 1912). United States v. Certain Parcels of Land in Riverside County, Cal., et al., 67 780 (United States District Court for the Southern District of California, Central Division 1946). United States v. California, 432 40 (Supreme Court of the United States 1947). In the Supreme Court of the State of California : San Bernardino Valley Municipal Water District, petitioner, vs. Public Utilities Commission of the State of California, and Riverside Water Company, a corporation, respondents, opening brief of San Bernardino Valley Municipal Water District in support of petition for writ of review [iii], 19 leaves (Supreme Court of the State of California 1960). 110 Santa Ana River & Watershed Bibliography Anaheim Union Water Company, a corporation, Petitioner, v. Commissioner of Internal Revenue, Respondent. Santa Ana River Development Company, a corporation, Petitioner, v. Commissioner of Internal Revenue, Respondent, 35 1072 (United States Tax Court 1961). In the Supreme Court of the State of California : San Bernardino Valley Municipal Water District, petitioner, vs. Public Utilities Commission of the State of California, and Riverside Water Company, a corporation, respondents, petition for writ of review 1 v. (various pagings) (Supreme Court of the State of California 1961). In the Superior Court of the State of California, in and for the County of Los Angeles: San Bernardino Valley Water Development Company, plaintiff, vs. San Bernardino Valley Municipal Water District, defendant, deposition of Thomas R. Bacon taken on Monday, March 5, 1962 29 leaves (Superior Court of the State of California 1962). In the Supreme Court of the State of California : San Bernardino Valley Municipal Water District, petitioner, vs. Public Utilities Commission of the State of California, and Riverside Water Company, a corporation, respondents, reply brief of petitioners, San Bernardino Valley Municipal Water District, in support of petition for writ of review [i, 12] leaves (Supreme Court of the State of California 1962). In the District Court of Appeal, Fourth Appellate District, State of California: William E. Leonard, et al, petitioners, vs. the Board of Directors of the San Bernardino Valley Municipal Water District, et al, respondents, the City of San Bernardino, a municipal corporation, and the Board of Water Commissioners of the City of San Bernardino, real parties in interest (for petitioners), East San Bernardino County Water District, repondent intervenor (real party in interest for respondents) petition for leave to intervene, points and authorities in support thereof, answer in intervention and points and authorities in support thereof 1 v. (various pagings) (District Court of Appeal, Fourth Appellate District, State of California 1963). In the Supreme Court of the State of California: William E. Leonard, Donald G. Mauldin, E. Dana Brooks, Alfred Merle Sessions and Ralph G. Velasquez, individually, jointly and as representatives of all of those persons who have signed a petition for exclusion of territory from the San Bernardino Valley Municipal Water District, which said petition was filed with the Secretary of said Municipal Water District on October 2, 1963, and which said petition is entitled, "Petition for exclusion from San Bernardino Valley Municipal Water District", petitioners, vs. the Board of Directors of the San Bernardino Valley Municipal Water District, a public agency, and A.M. Herman, Leroy Holmes, Joseph E. Bonadiman, Horace T. Hinckley, and Maurice S. Shumaker, as members of said Board of Directors, repondents, the City of San Bernardino, a municipal corporation, and the Board of Water Commissioners of the City of San Bernardino, real parties in interest, petition for hearing 1 v. (various pagings) (Supreme Court of the State of California 1964). Central Basin Municipal Water District, Petitioner, v. Carl Fossette, as Secretary of Central Basin Municipal Water District, Respondent; Azusa Agricultural Water Company et al., Real Parties in Interest, 235 689 (Court of Appeal of California, Second Appellate District, Division One 1965). Annual report of the Santa Ana River Watermaster for water year... (1970-). [computer laser optical discs ; 4 3/4.]. n.p.: Santa Ana River Watermaster,. 111 Water Resources Institute, California State University San Bernardino Before the Power Plant and Transmission Line Siting Committee in the matter of the application of Arizona Public Service Company, Southern California Edison Company, El Paso Electric Company, San Diego Gas and Electric Company, Nevada Power Company, Department of Water and Power of the City of Los Angeles, City of Anaheim, California, City of Burbank, California, City of Glendale, California, City of Pasadena, California, and City of Riverside, California for a certificate of environmental compatibility for two additional generating units at the Palo Verde Nuclear Generating Station : Case no. 40 : Phoenix, Arizona, November 2, 1978, 212 leaves (1978). United States of America et al., Plaintiffs, v. J.B. Stringfellow, Jr., et al., Defendants. and Related Counterclaims; and Third Party Complaints, 1993 19113 (United States District Court for the Central District of California 1993). Southwest Center for Biological Diversity, California Native Plant Society; Tri-County Conservation League, Plaintiffs, v. Colonel John P. Carroll, in his official capacity as District Engineer of the Army Chief of Army Corps of Engineers; and United States Army Corps of Engineers, and Does 1 through 10, Inclusive, Defendants. Western Municipal Water District of Riverside County; and San Bernardino Valley Municipal Water District, Defendants in Intervention., 182 944 (United States District Court for thr Central District of California 2001). California Trout, Inc., Petitioner, v. Federal Energy Regulatory Commission; Southern California Edison Company, Respondents., 313 1131 (United States Court of Appeals for the Ninth Circuit 2002). Attachment of riparian rights to flow of stream or watercourse; Construction, Cal Wat Code § 101 (2004). California Wildlife, Coastal, and Park Land Conservation Program. Availability of funds for expenditure for specified purposes, Cal Pub Resources Code § 5907 (2004). Conjunctive use program; Substitution of alternate supply, Cal Wat Code § 1011.5 (2004). Creation of district; Boundaries, Cal Wat Code § 33215 (2004). Division of state into regions, Cal Wat Code § 13200 (2004). Execution of plans and projects for Santa Ana River Basin, Cal Wat Code § 12678 (2004). Funding of Santa Ana River Watershed Subaccount, Cal Wat Code § 79104.24 (2004). Matching of state's financial commitment, Cal Wat Code § 79104.30 (2004). Orange County Water District Act, Cal Uncod Water Deer Act. 5683 § 2 (2004). Orange County Water District Act, § 31.5. Basin equity assessments; Production requirements and limitations; "Supplemental sources"; "Basin production percentage"; Engineering investigation; Hearing on assessments, Cal Uncod Water Deer, Act 5683 § 31.5 (2004). Orange County Water District Act, § 38. Exclusion of water producing facilities; Grounds; Procedure, Cal Uncod Water Deer, Act 5683 § 38 (2004). 112 Santa Ana River & Watershed Bibliography Reduction in allocation of property tax revenue for flood control, harbors, beaches, and parks (Operative date contingent), Cal Rev & Tax Code § 96.16 (2004). Riverside County Flood Control and Water Conservation District Act, Cal Uncod Water Deer, Act 6642 (2004). San Bernardino County Flood Control Act, § 1.2. Zone two; Territory included; Boundaries, Cal Uncod Water Deer, Act 6850 § 1.2 (2004). San Bernardino County Flood Control Act, § 1.3. Zone three; Territory included; Boundaries, Cal Uncod Water Deer, Act 6850 § 1.3 (2004). Santa Ana River, Cal Wat Code § 12721.5 (2004). Santa Ana River Basin, Cal Wat Code § 12676 (2004). Santa Ana River Mainstem, including Santiago Creek and Oak Street Drain, Cal Wat Code § 12678.1 (2004). Santa Ana River Watershed Subaccount, Cal Wat Code § 79104.22 (2004). United States of America ex rel Alva Bettis, Plaintiff, v. Odebrecht Contractors of California, Inc. et al., Defendants., 297 272 (United States District Court for the District of Columbia 2004). Use of Santa Ana River Watershed Subaccount, Cal Wat Code § 79104.26 (2004). Use of Santa Ana River Watershed Subaccount to pay costs, Cal Wat Code § 79104.34 (2004). Bel Bruno, J. (1995, September 8, 1995). Trends in the region: legislators mull costs of clean water, land. Bond Buyer, p. 24. Many California lawmakers believe that some environmental mandates have become so complicated that they result in huge bills for taxpayers while providing little benefit to the public. The most recent backlash occurred this week when California lawmakers considered repealing a stringent drinking-water mandate that would cost localities an estimated $6 billion after it takes effect next year. Many municipal market participants worry that the state and local governments in California - already reeling from recession and the spiraling costs of delivering social services - simply can't afford more burdensome regulations. John Gaston, chairman of the California-Nevada section of the American Water Works Association, believes that is the bill goes through, “the bond market would have a swift and negative reaction.” Brennan, P. (1999). Legislator pushes plan to deregulate water. Orange County Business Journal, 22(16), 3. State Sen. Steve Peace, who was a key player in the deregulation of energy, is now proposing a bill that could allow more private sector transfer of water through public water-delivery system. 113 Water Resources Institute, California State University San Bernardino Dantos, M. (1999). Threatened lawsuit would explore Ferc's Hydro Licensing Authority: McGraw-Hill Companies, Inc. Forging into relatively unchartered waters of Ferc's hydropower licensing authority, a conservation group is poised to sue the commission and a utility over alleged violations of the Clean Water Act. Operating under consecutive annual licenses issued by Ferc and ignoring provisions of the CWA and other statutes, Southern California Edison Co. has diverted surface flows, drying up small California waterways, according to California Trout Inc., which recently served notice of its intent to pursue the matter in court. Doody, J. J. (1969). The Santa Ana River: Its use and legal problems. n.p.: California Water Commission, California Dept. of Water Resources. Figler, A. (1999, Dec 15, 1999). Calif. Water District retools debt offering to meet court standards. Bond Buyer, p. 5. Florkowski, J. (2003, Dec 16, 2003). Dairies oppose California fees. Knight Ridder Tribune Business News, p. 1. The Milk Producers Council complaint stems from the passage of a bill earlier this year by state legislators. That bill, AB 10X, forces dairies to pay annual fees in order to make up for the water quality boards' cost of regulating dairies. According to the Milk Producers Council analysis of the bill, all dairies should be subject to the annual fees, but only Southern California dairies are being asked to pay because they have to obtain permits from the local water quality board. Milk Producers Council staff, however, think AB 10X applies to all dairies because of language within the bill. Gaffney, M. (1992). The taxable surplus in water resources. Contemporary Policy Issues, 10(4), 74. Taxes or rental charges for water use are bearable and legal and would spur water economy. Unfortunately, the following fallacies impede acceptance of these ideas: 1. Water rights are real property. 2. A charge on water would be passed on to consumers. 3. The cost of water is just its development cost. 4. Markets solve most problems if property rights are firm. 5. Only consumptive use is a social cost. 6. Common rights must spell tragedy. These fallacies are dispelled. Water is public domain. A package of water taxes or rental charges would improve incentives and the water economy. When one pays for water, one often shifts to higher-valued crops, substituting capital and labor for water and raising yields. Government can thus tax water withdrawals while improving the water economy. Water markets work badly now because no cash drain motivates sellers and because selling prices rise indefinitely. To overcome this resistance, policymakers must subject water licenses to severance or property taxes or other public charges that are based on their opportunity cost values. Gianelli, W. R. (1965). Water right filings: Prado Dam, Santa Ana River (summary). Sacramento, CA: California State Water Rights Board. 114 Santa Ana River & Watershed Bibliography Huber, W. L. (1919). Materials relating to consulting work for Southern Sierras Power Company, Riverside, California, in opposition to H.R. 406, a Bill amending an act entitled "An act authorizing and directing the Secretary of the Interior to sell to the City of Los Angeles, California, certain public lands in California; and granting rights in, over, and through the Sierra Forest Reserve, and the San Gabriel Timberland Reserve, California, to the City of Los Angeles, California," approved June 30, 1906 (66th Congress, 1st Session).Unpublished manuscript. Kravetz, S. (1998, Apr 16, 1998). California commission's water probe could shield utilities from lawsuits. Wall Street Journal, p. 1. An unusual move by California regulators to investigate water quality in the state may shield water utilities from several major lawsuits, at least for a while. California's Public Utilities Commission began a statewide investigation last week into the quality of drinking water in reaction to four recent lawsuits filed in state Superior Court in Los Angeles and Sacramento Counties. The suits allege that water companies knowingly sold customers contaminated water, before many wells from Sacramento to the San Gabriel Valley were closed after traces of industrial chemicals were found. Lawsuits were filed against Southern California Water Co., San Gabriel Valley Water Co., Suburban Water Systems Co. and a unit of Citizens Utility Co. The water utilities themselves spurred the investigation, telling the commission that the lawsuits made them financially vulnerable. The commission moved quickly out of concern that any large potential settlements could lead to rate spikes for customers, who would ultimately foot the bill for damages awarded in a civil trial. Kriz, M. (2003). Water wars. National Journal, 35(10), 732. Any water pact negotiated by the four Southern California agencies cannot take effect without the approval of each agency's board and of the Interior Department, The Imperial Irrigation District board is elected by residents of the irrigation district, not just by the farmers who own water rights and who would potentially gain by selling those rights to cities. San Bernardino Valley in re City of San Bernardino vs. City of Riverside and Riverside Water Company. 19 items 1909). LRP Publications. (2003, January 20, 2003). License issued under Federal Power Act does not trigger CWA. Real Estate/Environmental Liability News, 724 words. The issuance of annual licenses for a hydroelectric project after the expiration of the project's original license is not subject to the requirements of state water quality certification under the Clean Water Act. (California Trout Inc. v. Federal Energy Regulatory Commission, et al., No. 01-70787 (9th Cir. 12/16/02).) Southern California Edison Co. operates Project 1933. The project consists of two water conveyance and power generation systems located on the Santa Ana River. The project diverts water from the lower portion of the Santa Ana River for water supply and power generation. Water quality certification request In 1996, Edison's 50-year license for the project, issued by the Federal Power Commission, the predecessor of the Federal Energy Regulatory Commission expired. 115 Water Resources Institute, California State University San Bernardino Neste Brudin & Stone. (1970). Legal and governmental constraints affecting water quality management, Santa Ana River Watershed. San Bernardino, CA: Author. P&D Consultants Inc. (1997). Supplemental EIR no. 1 for the east branch extension-- phase 1 covering the redesign of portions of the San Gorgonio Pass Water Agency water importation project. Glendale, CA: The Department. Ross, A. F. (1957). Memorandum of decision in the case of Orange County Water District versus the four up-river cities of Riverside, San Bernardino, Colton and Redlands. n.p.: Orange County Water District. Snell, M. B. (2002). Bold strokes. Sierra, 87(2), 16. California has passed a law requiring developers to prove there is a 20-year supply of water before they are given permits to build subdivisions with more than 500 units. 116 Santa Ana River & Watershed Bibliography 3.0 Los Angeles County 3.1 Los Angeles County Physical Environment General Information H. M. Gousha Company (1991). City map library [folded maps in containers], Colorado Springs, CO: B & L Map Co. Land, M., Everett, R. R., & Crawford, S. M. (2002). Geologic, hydrologic, and water-quality data from multiple-well monitoring sites in the Central and West Coast Basins, Los Angeles County, California, 1995-2000 (open-file report No. 01-277). Denver, CO: U.S. Dept. of the Interior, U.S. Geological Survey. Los Angeles County Climate Dean, G. A. (1947). The climate of the Los Angeles area according to the Koppen Classification. Unpublished Thesis (M.A.), University of California Los Angeles, Los Angeles, CA. Los Angeles County Geology Buwalda, J. P. (1953). Geological report on the Santa Ana feeder, Bryant Ranch pipe line and tunnel and drill holes on the San Juan Tunnel line. Los Angeles, CA: Metropolitan Water District of Southern California. California Division of Mines and Geology. (1979). Mineral land classification of the greater Los Angeles area. Sacramento, CA: Author. Los Angeles County Hydrology Hamlin, H. (1905). Underflow tests in the drainage basin of Los Angeles river (Water-supply and irrigation paper No. 112). Washington, DC: U.S. Government Printing Office. Los Angeles County Flood Control District. (1957). Sea-water intrusion in California (California Dept. of Water Resources Bulletin No. 63). Sacramento, CA: California Dept. of Water Resources. Simpson, L. D. (1969). Hydrologic report on storms of 1969 (Unabridged). Los Angeles, CA: Los Angeles County Flood Control District. Tidemanson, T. A. (1991). Los Angeles County Department of Public Works: Hydrology manual. Alhambra, CA: Los Angeles County Dept. of Public Works, Hydraulic/Water Conservation Division. Water Replenishment District of Southern California. (1995). 1995-96 proposed groundwater replenishment assessment. Cerritos, CA: Author. 119 Water Resources Institute, California State University San Bernardino 3.2 Los Angeles County Environmental Issues Los Angeles County Biodiversity Los Angeles County Dept. of Arboreta and Botanic Gardens, & California Arboretum Foundation. (1989). Arboreta and botanic gardens [Booklet]. Arcadia, CA: Los Angeles County Department of Arboreta and Botanic Gardens. Los Angeles State and County Arboretum, & Los Angeles County Dept. of Arboreta and Botanic Gardens. (1991). Seed list. Arcadia, CA: Los Angeles County Dept. of Arboreta and Botanic Gardens. Wetzer, R. (1991). Catalog of the isopod Crustacea type collection of the Natural History Museum of Los Angeles County (Technical reports Natural History Museum of Los Angeles County No. 3). Los Angeles, CA: Natural History Museum of Los Angeles County. Los Angeles County Ecology Harrison, A. T., Small, E., & Mooney, H. A. (1971). Drought relationships and distribution of two mediterranean-climate California plant communities. Ecology, 52(5), 869-875. The summer drought-deciduous coastal sage in Southern California near Los Angeles has a bimodal, coastal and interior, distribution at low elevations (sea level to 300 m), whereas the evergreen sclerophyllous chaparral is developed at higher elevations. Winter rainfall is 300-350 mm at the low elevations and 500-600 mm at the higher altitudes. Photosynthesis and transpiration in response to artificial drying were examined in fieldcollected leaves of species from the two vegetation types. The fully hydrated mesomorphic leaves of the coastal sage species had initially higher photosynthesis and transpiration rates which declined rapidly during the first 20-30 min of drying, presumably because of hydroactive stomatal closure. Chaparral species, at slightly higher altitudes with higher precipitation and with deeper and more extensive root systems and xeromorphic leaf characteristics, are less sensitive to conditions of high evaporative demand and can maintain net assimilation, although low at times, throughout the long summer drought period. Los Angeles County Hazards/Disasters Brady, A. G., Mork, P. N., & Seekins, L. C. (1989). Processed strong-motion records, Whittier Narrows, California earthquake, October 1, 1987. Menlo Park, CA: U.S. Geological Survey. Countryman, C. M., McCutchan, M. H., & Ryan, B. C. (1969). Fire weather and fire behavior at the 1968 canyon fire (USDA Forest Service research paper PSW). Berkeley, CA: Pacific Southwest Forest and Range Experiment Station, Forest Service, U.S. Dept. of Agriculture. U.S. Army Corps of Engineers Los Angeles District. (1939). Report on engineering aspects: Flood of March 1938: Appendix I, theoretical and observed bridge pier losses. Los Angeles, CA: Author. 120 Santa Ana River & Watershed Bibliography Los Angeles County Environmental Resources Management Comprehensive plan for flood control & conservation: General features [Z-ML-46] (1931). [1 map] Los Angeles, CA: Los Angeles County Flood Control District. Inundation map of Prado Dam (1974). [1 map on 12 sheets] Los Angeles, CA: U.S. Army Corps of Engineers, Los Angeles District. Inundation map of Whittier Narrows Dam (1974). [1 map on 5 sheets] Los Angeles, CA: U.S. Army Corps of Engineers, Los Angeles District. Major facilities, control and conservation of flood waters (1979). [1 map] Los Angeles, CA: Los Angeles County Flood Control District. California. (1992). Engineering News - Record, 68 words. A bid opening by U.S. Army Corps of Engineers, Los Angeles, for the Lower Santa Ana River channel list E.L. Yeager Construction Co. Inc. of Riverside, as submitting a low bid of $ 32,365,040 for the project. Work will consist of a 2.3-mile reinforced concrete channel, retaining walls, bridge pier, site clearing and grubbing. It will be located at Fairview Channel on San Diego Freeway in Orange County. URL: http://www.enr.com California. (1993). Engineering News - Record, 65 words. A bid opening by the Army Corps of Engineers, Los Angeles, shows CBPO of America Inc., Sherman Oaks, as the lowest bidder at $ 28,275,696 for Lower Santa Ana River channel located at San Diego Freeway and Riverview Golf Course in Santa Ana. The project will consist of construction of approximately 5.0 miles of reinforced concrete trapezoidal channel. Contract award expected in 60 days. URL: http://www.enr.com California water agency suing for MTBE remediation funds. (2003). Oxy - Fuel News, 15(20), 1. So, the question becomes, who knew about the properties of MTBE and its potential contamination effects. Not the spiller at the gasoline station, [Jon Hinck] said. It's the refiner, who actually put the MTBE in the gasoline knowing that MTBE gasoline would have a higher contamination reach than gasoline without MTBE, he said. Frank Maisano, spokesman for the Oxygenated Fuels Association, said the lawsuit is another example of politicians and lawyers using scare tactics to secure money. What's more, going after MTBE producers is "a joke on its face," he said, since the Clean Air Act explicitly allows the use of MTBE in gasoline. Barela, D. A. (1979). Whittier narrows flood-control basin, Los Angeles County drainage area, California: Hydraulic model investigation (No. 2-112). Los Angeles, CA: U.S. Army Engineer District, Los Angeles, Corps of Engineers. Baumann, P. (1956, June 22). The water conservation phase of flood control. Paper presented at the Conservation Conference, Claremont College, Los Angeles, CA. 121 Water Resources Institute, California State University San Bernardino Bliss, E. S., Johnson, C. E., & Schiff, L. (1956, February 7). Report on conference on water spreading for ground-water replenishment. Paper presented at the Water spreading for ground-water replenishment, Los Angeles County Flood Control District Building, Los Angeles, CA. Bookman-Edmonston Engineering Inc., & Castaic Lake Water Agency. (1975). Draft environmental impact report for main conveyance and treatment facilities for State Project water (Draft). Glendale, CA: Bookman-Edmonston Engineering. California Board of Engineers Flood Control. (1914). Provisional report of Board of Engineers, Flood Control: Submitted to the Board of Supervisors, Los Angeles County. Los Angeles, CA: Author. California Division of Water Resources South Coastal Basin (Cartographer). (1930). Comprehensive plan, preliminary layout of ultimate development [1 map]. California Forest and Range Experiment Station Angeles National Forest. (1936). The role of forest vegetation in flood control problems in Los Angeles County. [n.p.]: U.S. Forest Service. Cecil, G. H. (1938). Plan of upstream flood control for Los Angeles County. Los Angeles, CA: Conservation Association of Los Angeles County. Cecil, G. H. (n.d.). Some factors influencing flood control and water conservation in the south coastal basin of Southern California. Los Angeles, CA: Conservation Association of Los Angeles County. City of Los Angeles. (1924). Illustrated brochure for the Los Angeles Bureau of Power and Light [Brochure]. Los Angeles, CA: Los Angeles Bureau of Power and Light. Conservation Association of Los Angeles County. (1934). Miscellaneous materials related to soil and water conservation, water problems of Southern California, and fire prevention.Unpublished manuscript, n.p. Conservation Association of Los Angeles County. (1935). Pathway of progress. Los Angeles, CA: Author. Cottrell, E. A. (1932). The Metropolitan Water District of Southern California. The American Political Science Review, 26(4), 695-697. Danza, J. M. (1998). Why raise river walls higher? ENR, 240(20), 159. Problems with The Los Angeles County Department of Public Works proposed flood control solution of the Los Angeles river is a $300-million Los Angeles County Drainage Area Project, which involves raising levees and flood walls on the channelized river are discussed. Eaton, E. C. (1930). Active co-mixtures for improvement of present cements for hydraulic purposes. Los Angeles, CA: Los Angeles County Flood Control District. 122 Santa Ana River & Watershed Bibliography Eaton, E. C. (1931). Comprehensive plan for flood control and conservation: Present conditions and immediate needs. Los Angeles, CA: Los Angeles County Flood Control District. Eaton, E. C., & Gillelen, F. (1931). Los Angeles County Flood Control District report on check dams (No. RS I-1). Washington, DC: U.S. Dept. of Agriculture, Forest Service. Edwards, B. D., & Evans, K. R. (2002). Saltwater intrusion in Los Angeles area coastal aquifers: The marine connection (USGS fact sheet). Reston, Va.: U.S. Dept. of the Interior, U.S. Geological Survey. Eisner, S. (1992). Seven decades of planning and development in the Los Angeles region. In E. A. Holden (Ed.), Oral History collection (pp. ix, 176 leaves, bound). Los Angeles, CA: University of California, Los Angeles. The interview begins with Eisner's boyhood and education, then continues through his various planning and teaching positions. Major topics covered include the Los Angeles County Regional Planning Commission, the Los Angeles City Planning Commission, the Los Angeles City Redevelopment Agency, Chavez Ravine, the development of freeways in Southern California, and planning issues in various California communities. Ferrell, W. R. (1958). Report on channel stabilization feasibility. Los Angeles, CA: Los Angeles County Flood Control District, Dams and Conservation Branch, Debris Reduction Study Group. Ferrell, W. R., & Barr, W. R. (1959). Report on debris reduction studies for mountain watersheds. Los Angeles, CA: Los Angeles County Flood Control District, Dams and Conservation Branch. Hailu, E. (2002). Optimal mitigation model for inland saltwater plume in coastal basins with seawater intrusion potential - case study: West Basin in Los Angeles County, California. Unpublished Dissertation, Univ. of California, Los Angeles, Los Angeles, CA. Hedger, H. E. (1924). A report upon a combined flood control and water conservation system for the San Gabriel River, Los Angeles County, California. Unpublished Thesis (B.S.), University of California, Berkeley, CA. Hedger, H. E. (Cartographer). (1941). Comprehensive plan [1 map : col.]. Hedger, H. E. (Cartographer). (1948). Comprehensive plan, control and conservation of flood waters [1 map]. Hedger, H. E. (1952). Report of H.E. Hedger, Chief Engineer of the Los Angeles County Flood Control District, on the Control of surface storm water by storm drains and drainage channels: Part I. General description of work proposed and map showing general location of projects. Los Angeles, CA: Los Angeles County Flood Control District. Hedger, H. E. (Cartographer). (1955). Comprehensive plan, control and conservation of flood waters [1 map]. 123 Water Resources Institute, California State University San Bernardino Hedger, H. E. (1968). Harold Hedger flood control engineer: Oral history of California water resources development. In D. Simms (Ed.) (pp. [vi], 90 leaves, bound). Los Angeles, CA: Oral History Program, University of California Los Angeles. Hedger discusses the origin and development of the District. Huber, W. L. (Artist). (1913). Dams in Los Angeles County Kenyon, E. C., Jr. (1935). Accuracy of capacity curves for district's reservoirs: Memorandum to Paul Baumann (Dam Data Sheets). Los Angeles, CA: Los Angeles County Flood Control District. Lippincott, J. B. (1939). Review of flood control and conservation in Los Angeles County. Los Angeles, CA: n.p. Lippincott, J. B., & Reagan, J. W. (1902). Los Angeles county flood control district (Tentative report). Los Angeles, CA: Los Angeles County Flood Control District. Los Angeles County Dept. of County Engineer. (1970). Little Baldy Water Company service area water study report. Los Angeles, CA: Department of County Engineer, County of Los Angeles Waterworks Utilities Division. Los Angeles County Farm Bureau. (1936). The value of a flood control program that will conserve run-off waters for agricultural use by surface and ground storage and at the same time furnish protection of life and property. (Memorandum report to Major Theodore Wyman, Jr., District Engineer, U.S. War Dept., from Los Angeles County Farm Bureau.). Los Angeles, CA: Author. Los Angeles County Flood Control District (Cartographer). (1934). Comprehensive plan for flood control & conservation [1 map]. Los Angeles County Flood Control District. (1940-). Semi-annual report of the Los Angeles County Flood Control District for the period ... to (Journal). Los Angeles, CA: Author. Los Angeles County Flood Control District. (1955). History, functions and plans. Los Angeles, CA: Author. Los Angeles County Flood Control District. (1971). Flood control and water conservation vital to Los Angeles County. Los Angeles, CA: Author. Los Angeles County Flood Control District. (1974-). Hydrologic report (Vol. v.1-). Los Angeles, CA: Author. Los Angeles County Flood Control District Hydraulic Dept. (1937). Report to Chief Engineer on rainfall, runoff and dam operation in Los Angeles County Flood Control District (Biennial report). Los Angeles, CA: Los Angeles County Flood Control District. Los Angeles County Mechanical Dept. (1945). List of water service agencies, Los Angeles County, October 1, 1945.Unpublished manuscript, Los Angeles, CA: Author. 124 Santa Ana River & Watershed Bibliography McIlwain, R. R., Pitts, W. T., & Evans, C. C. (1970). West Coast Basin Barrier Project, 19671969: A Los Angeles County Flood Control District report on the control of seawater intrusion. Los Angeles, CA: Los Angeles County Flood Control District. Nerenbaum, L. M. (1942). A report upon the design and construction of the Santa Fe Dam, a Los Angeles County Flood Control Project under the United States Engineering Department. Unpublished Thesis (B.S.), University of California, Berkeley, CA. Newton, C. T., & Hedger, H. E. (1959, 9-13 February). Los Angeles county flood control and water conservation. Paper presented at the American Society of Civil Engineers Los Angeles Convention, Statler Hotel, Los Angeles, CA. Reagan, J. W., Olmsted, F. H., Leeds, C. T., Lippincott, J. B., & Hawgood, H. (1915). Reports of the Board of Engineers, Flood Control to the Board of Supervisors, Los Angeles County, California. Los Angeles, Cal.: Los Angeles County Board of Supervisors. Reppy, R. V. (1919). Political and legal aspects of flood control in Los Angeles County. Paper presented at the American Society of Civil Engineers, Southern California Association of Members, flood control in Southern California meeting, Los Angeles, CA. Saint, P. K., Hanes, T. L., & Lloyd, W. J. (1993). Waterbodies, wetlands and their beneficial uses in the Los Angeles Region (4): A report presented to L. A. Regional Water Quality Control Board. Los Angeles, CA: L. A. Regional Water Quality Control Board. Salsbury, M. E. (Cartographer). (1963). Comprehensive plan, control and conservation of flood waters [1 map]. Salsbury, M. E. (1963, June 26-27). Water conservation in Los Angeles county, 1963. Paper presented at the Biennial Conference on Ground Water Recharge and Ground Water Basin Management, University of California, Berkeley. Salsbury, M. E. (1964). Report on the control of surface storm water by storm drains and drainage channels, 1964 program. Los Angeles, CA: Los Angeles County Flood Control District. Schuyler, J. D. (1888). Letter report to Porter Land and Water Company on water supply. In P. L. a. W. Company (Ed.) (pp. 4 leaves). Schuyler, J. D. (1899). Report on flood channels and waterways crossing under the S.P.R.R. track in the vicinity of Charter Oak Station, Los Angeles County, Cal: n.p. Schwarz, J. (1991). A water odyssey: The story of Metropolitan Water District of Southern California. Los Angeles, CaA: Metropolitan Water District of Southern California. Simpson, L. D. (1969). Storms of 1969 (summary report). Los Angeles, CA: Los Angeles County Flood Control District. Solari, F. J. (1967). West Coast Basin Barrier Project, 1963-1967: A Los Angeles County Flood Control District report on the control of seawater intrusion. Los Angeles, CA: Los Angeles County Flood Control District. 125 Water Resources Institute, California State University San Bernardino Stone, H. W. (1998). `Greening' L.A. river is risky. ENR, 240(20), 159. Because there is very limited land available in Los Angeles County, the environmentalists are looking at the existing earth-bottom flood-control channels as corridors and which to create more natural habitat and build "natural rivers." While such a desire is understandable, there are risks. Tettemer, J. M. (1972). Flood control developed and operated with simulation. New York, NY: American Society of Civil Engineers. U.S. Army Corps of Engineers Los Angeles District (Cartographer). (1939). Los Angeles County drainage area flood control. Los Angeles, CA: Author. U.S. Army Corps of Engineers Los Angeles District (1962). Design memorandum no. 2, general design for Emerald Wash Channel and Live Oak Wash Channel upstream from "D" Street. Los Angeles, CA: Author. U.S. Army Corps of Engineers Los Angeles District (Cartographer). (1973). Inundation map of San Antonio Dam [1 map on 3 sheets]. U.S. Environmental Protection Agency. (1999). NPDES program implementation review--final report: California Regional Water Quality Control Board 4, Los Angeles Region. Washington, DC: United States Environmental Protection Agency. University of Southern California Institute of Government (1939). Papers presented at Eleventh annual Institute of Government, June 12-16, 1939. Paper presented at the Institute of Government, Los Angeles, CA: Author. Zielbauer, E. J., Burnham, W. L., Keene, A. G., & Bruington, A. E. (1961). Coastal basins barrier and replenishment investigation: Alamitos barrier project geologic investigation. Los Angeles, CA: Los Angeles County Flood Control District. Los Angeles County Health and Safety Blood lead levels in high-risk areas: California, 1987-1990. (1992). Environmental toxicology newsletter, 12(2), 3-4. Danielson, J. A., & Los Angeles County Air Pollution Control District. (1973). Air pollution engineering manual (2nd ed. ed. Vol. no. AP-40). Research Triangle Park, NC: Environmental Protection Agency, Office of Air and Water Programs, Office of Air Quality Planning and Standards. 126 Santa Ana River & Watershed Bibliography Mueller, B. A., Newton, K., Holly, E. A., & Preston-Martin, S. (2001). Residential water source and the risk of childhood brain tumors. Environmental Health Perspectives, 109(6), 551556. Gestation may represent a window of susceptibility to transplacental effects of environmental exposures, including chems. in water. The N-nitroso compds. (NNC), a class of chems. with demonstrated neurocarcinogenic potential, include substances detected in drinking water. We used data from a study of possible risk factors for childhood brain tumors (CBT) to study the assocn. of source of residential drinking water during pregnancy and CBT occurrence among offspring. An increased risk of CBT was obsd. in western Washington among offspring of women who relied exclusively on well water, and a decreased risk of CBT was obsd. in Los Angeles County. Given the crude measurement method used and because measurements often were obtained years after these pregnancies occurred, the relevance of the dipstick findings is unclear. Sloss, E. M. (1996). Groundwater recharge with reclaimed water: An epidemiologic assessment in Los Angeles County, 1987-1991 (No. MR-679-WRDSC). Santa Monica, CA: Rand. Los Angeles County Water Quality Baldridge, R. C. (1970). Evaluation of the ground water quality sampling network in the coastal plain of Los Angeles County (Technical information record No. TIR 1408-1). Los Angeles, CA: State of California, Resources Agency, Dept. of Water Resources, Southern District, Planning Branch. California Department of Water Resources. (1968). Planned utilization of ground water basins: Coastal Plain of Los Angeles County (Department of Water Resources Bulletin No. 104). Sacramento, CA: Author. California Regional Water Pollution Control Board--Los Angeles Region. (1964). Report on compliance with discharge requirements and monitoring programs for calendar year 1963. Los Angeles, CA: Author. California Regional Water Pollution Control Board--Los Angeles Region, & California Regional Water Quality Control Board--Santa Ana Region. (1952). Underground water pollution resulting from waste disposal. June, 1952. Sacramento, CA: Author. California Regional Water Quality Control Board Los Angeles Region. (2000). Staff report and record of decision: Standard urban storm water mitigation plans and numerical design standards for best management practices. Los Angeles, CA: Author. Camp Dresser & McKee Inc. (1989). West coast basin barrier project study (Final report). Ontario, CA: Author. County Sanitation Districts of Los Angeles County. (1972). Project report, joint water pollution control plant digester cleanings system. Los Angeles, CA: Author. County Sanitation Districts of Los Angeles County. (1979). Supply characteristics, subtask 2.6 of Orange and Los Angeles Counties water reuse study. Whittier, CA: County Sanitation District no. 2 of Los Angeles County. 127 Water Resources Institute, California State University San Bernardino Danza, J. M. (1994). Water quality and beneficial use investigation of the Los Angeles River: Prospects for restored beneficial uses. Unpublished M.S., California State University, Fullerton, Fullerton, CA. Lew, D., California Department of Transportation, University of California Davis Dept. of Civil Engineering, & University of California Davis Dept. of Agricultural and Resource Economics. (1996). Approaches to economic valuation of changes in receiving water quality: A critical review. Davis, CA: University of California, Davis. Los Angeles Bureau of Engineering, Daniel Mann Johnson & Mendenhall, & Black & Veatch. (1986). Hyperion full secondary concept report. Los Angeles, CA: Authors. Los Angeles County Sanitation Districts, & Bratcher, R. C. (1978). The effects of advanced wastewater treatment on trace organic compounds: A report (No. 61). Sacramento, CA: California State Water Resources Control Board. McClelland, E. J. (1964). Aquifer-test compilation for the Los Angeles and Santa Ana Regions, California. Sacramento, CA: U.S. Geological Survey Ground Water Branch. Parker, A. (1972). A case study of salt water intrusion in the Los Angeles coastal ground water aquifer. Unpublished Term paper, University of California, Berkeley, Berkeley, CA. 3.3 Los Angeles County Development and Use Clason Map Co. (Cartographer). (1923). Map showing purchasing power of Los Angeles [1 map]. Shows streets, railroads, canals, rivers, etc.; divided by colored blocks indicating average rent paid within that area. Soja, E., Morales, R., & Wolff, G. (1983). Urban restructuring: An analysis of social and spatial change in Los Angeles. Economic Geography, 59(2, Restructuring in the Age of Global Capital), 195-230. Los Angeles County History Los Angeles City and Santa Ana Valley directory for 1883-4, containing a history of Los Angeles, list of streets, names of residents, churches, societies and other useful information. Also, containing a brief history and business directory of Santa Ana. (1883). Los Angeles, CA: Los Angeles Directory Pub. Co. Else, J., Woodard, A., & Reisner, M. (Writer) (1997). Mulholland's dream, Cadillac desert ; 1. Chicago, Ill.: Home Vision Cinema : Public Media Incorporated. Guinn, J. M. (1893). Los Angeles in the later sixties and early seventies (Vol. III, Part I). Heizer, R. F. (1968). The Indians of Los Angeles County, Hugo Reid's Letters of 1852. Highland Park, CA: Author. 128 Santa Ana River & Watershed Bibliography Herald Publishing Company. (1876). The Herald pamphlet for Los Angeles. Los Angeles, CA: The Herald publishing company. Contains a complete description of Los Angles county, California. Its agricultural, manufacturing and mineral resources. Its geographical and commercial positions. Its harbors, railroads and railroad system. Statistics relating to climate, soil, products, etc. Historical Society of Pomona Valley. (1978-1984). Mt. San Antonio historian. Pomona, CA: Historical Society of Pomona Valley. Layne, J. G. (1930). Annals of Los Angeles: Part I. From the founding of the Pueblo to the American occupation. California Historical Society Quarterly, XIII(no. 3), 195. Los Angeles Bureau of Water Works & Supply. (1941). Water wheels of progress: An account of Los Angeles and its water supply from 1781-1941. Los Angeles, CA: Dept. of Water and Power. Phoenix, C. (1999). Cruising the Pomona Valley, 1930 to 1960: Modern and roadside architecture, art and attractions in Pomona, Ontario, Montclair, Claremont, Upland, La Verne, Rancho Cucamonga, and the Los Angeles County Fairgrounds: A tour guide. Los Angeles, CA: Horn of Plenty Press. Rios-Bustamante, A., & Castillo, P. (1986). An Illustrated History of Mexican Los Angeles, 17811985. Los Angeles, CA: Chicano Studies Research Center, University of California, Los Angeles. Robinson, A., Baker, G. H., & McNary, M. J. D. (Cartographer). (1873). Map of a portion of Los Angeles County showing the Abel Stearns' Ranchos [1 map]. Robinson, W. W. (1959). Los Angeles from the days of the pueblo. San Francisco, CA: n.p. Romer, M. (1963). The story of Los Angeles. Journal of the West, II, 31-65. Rueger, H. (1903). Rueger's Atlas showing country property of Los Angeles County, California ... showing acreage, subdivisions, townships and ranges, town plats, owner's name of property containing five acres or more; also showing railroads and electric roads. Los Angeles, CA: Author. Schuyler, J. D., & Storrow, S. (1901). Report on the water system of the Paso de Bartolo Water Company, Los Angeles County, Cal: n.p. Stern, N. B. (1983). Louis Phillips of the Pomona Valley: Rancher and Real Estate Investor. Western States Jewish History, 16(1), 54-81. Profiles Louis Phillips, an immigrant Polish Jew who became a pioneer rancher, businessman, and civic leader in the Pomona Valley and other parts of Los Angeles County. Temple, T. W., II. (1960). 1844 Los Angeles Padron. Southern California Historical Society Quarterly(December). 129 Water Resources Institute, California State University San Bernardino Warner, J. J., Hayes, B., & Widney, J. P. (1876). An historical sketch of Los Angeles County, California. Los Angeles, CA: Lewis Lewin & Company. Wilson, J. A. (1880). History of Los Angeles County, California, with illustrations descriptive of its scenery, residence, fine blocks and manufactories. Oakland, CA: Thompson & West. Wood, R. F. (1971). Juan Crespi - The man who named Los Angeles. Southern California Quarterly, LIII(No . 3), p. 199-234, [116] p. of plates. Los Angeles County Settlement California freeway and expressway system, Los Angeles County (1967). [1 map]. Simplified maps of Los Angeles and vicinity : Principal streets, roads & highways, freeways and points of interest (1970). [2 maps on 1 sheet] Vernon CA: Western Publishing & Novelty Company. Water service policy: Preliminary general plan January 1978 (1978). [1 map] Los Angeles, CA: Author. 1986 Aerial atlas of Los Angeles County (1986). [1 atlas (loose-leaf)] Santa Ana, CA: Air Photo Services. Transportation: A listing of transportation facilities and services in the Los Angeles five-county area. (1987). Los Angeles, CA: Los Angeles Area Chamber of Commerce. Map of Los Angeles area freeways (2000). [1 map : col.; 58 x 89 cm., folded to 23 x 11 cm.]. On verso are indexes to Los Angeles cities, points of interest, colleges and green spaces, "Map of Palm Springs and vicinity" and "Map of Ventura County and vicinity" with indexes to cities, streets and places of interest. California water agencies may sue EPA for state opt-out. (2001, Jul 30, 2001). Oxy - Fuel News, p. 1. At a July 20 meeting in Santa Monica, the Metropolitan Water District of Southern California (MWDSC) and a handful of other municipal water districts met to develop an action plan to prevent further MTBE pollution of the region's water supplies. MTBE has contaminated nearly two dozen wells in Los Angeles, Orange, San Diego and Riverside counties. The city of Santa Monica, which has experienced MTBE contamination in years past, is suing several oil companies over MTBE clean-up costs, according to MWDSC. Among the options the water agencies are looking at is suing EPA to allow California to opt out of the RFG program, MWDSC Vice President for External Affairs Adan Ortega told Oxy-Fuel News. Map of Pomona and vicinity showing locations of artesian wells, pipe lines & conduits already constructed & proposed (n.d.). [1 map : col. ; 56 x 43 cm.] Los Angeles, CA: Pomona Land & Water Co. 130 Santa Ana River & Watershed Bibliography Pamphlet boxes of materials on the water supply of Los Angeles County and the city of Los Angeles, California.Unpublished manuscript(n.d.). Ballantine, W. (1972). Sound study: Route 210 freeway from Fair Oaks Avenue to Rosemead Boulevard and Route 7 freeway from Columbia Street to 0.1 mi. north of Colorado Boulevard in the County of Los Angeles. Los Angeles, CA: Division of Highways, District 7. Banks, J. H., California Dept. of Transportation, San Diego State University Foundation, San Diego State University Dept. of Civil Engineering, & United States Federal Highway Administration. (1993). Emergency parking areas along restriped urban freeways (Final report No. FHWA/CA/SDSU-CE9301). San Diego, CA: San Diego State University Foundation. California Department of Water Resources. (1956). Los Angeles County land and water use survey, 1955 (California State Water Resources Board Bulletin No. 24). Sacramento, CA: State Water Resources Board. California Department of Water Resources. (1956-). Report on watermaster service in West Coast Basin watermaster service area, Los Angeles, California, for period. Los Angeles, CA: Author. California Department of Water Resources. (1964). Coastal Los Angeles County land and water use survey, 1960. Sacramento, CA: Author. California Division of Water Resources. (1945-). Report on watermaster service in Raymond Basin watermaster service area, Los Angeles County, California, for period... (Annual Report). Sacramento, CA: Author. California Metropolitan Transportation Commission Transportation Finance Advisory Committee. (1985). Transportation finance advisory committee final recommendations. Oakland, CA: Metropolitan Transportation Commission. Conkling, H. (1946). An imported water supply for West Basin, Los Angeles County, California; report to West Basin Water Association. Los Angeles, CA: West Basin Water Association. Eckis, R. (1934). South Coastal Basin investigation: Geology and ground water storage capacity of valley fill (California Division of Water Resources Bulletin No. 45). Sacramento, CA: California State Printing Office. Eisner, S., Esse, E. J., & Cooke, T. D. (1943). Freeways for the region. Los Angeles, CA: Los Angeles County, Calif. Regional Planning Commission. Endo, G., & Anderson, E. R. (1976). Safety evaluation of restriping and ramp control on the Pomona Freeway (Freeway Operation Branch Report No. 76-1). Los Angeles, CA: Dept. of Transportation, District 07, Freeway Operation Branch. Endo, G., & Calderon, E. A. (1973). Santa Ana freeway widening: An evaluation of widening and ramp control (Final report No. Contract no. DOT FH-11-7786). Los Angeles, CA: California Dept. of Transportation. 131 Water Resources Institute, California State University San Bernardino Endo, G., & Padilla, R. (1976). Safety evaluation of part-time shoulder lane and ramp control on the Santa Ana Freeway southbound between Route 605 and San Antonio Drive on-ramp (Freeway Operation Branch Report No. 76-5). Los Angeles, CA: Dept. of Transportation, District 07, Freeway Operation Branch. Hawley, A. T. (1876). The present condition, growth, progress & advantages of Los Angeles City & County, Southern California. Los Angeles, CA: Mirror Printing, Ruling & Binding House. Heller, J. (1998). Pacific Electric stations (1st ed.). Long Beach, CA: Electric Railway Historical Association of Southern California. Kennedy, S. R. (Cartographer). (1958). Freeway progress of Los Angeles County road system, metropolitan area [1 map]. Knecht, J. H. (1965). Prospects for waste water reclamation in the Los Angeles Basin: A report of the Water Resources Section. Los Angeles, CA: Water Resources Section. Koonce, S. J., & Bruington, A. E. (1977). Water supplies for Los Angeles County. Los Angeles, CA: County of Los Angeles, Deptarment of County Engineer. Layne, J. G. (1930). Annals of Los Angeles: Part II. From the American conquest to the Civil War. California Historical Society, XIII(4), 301. Layne, J. G. (1935). Annals of Los Angeles: From the arrival of the first white men to the Civil War 1769-1861. San Francisco, CA: California Historical Society. Layne, J. G. (1936). The first census of the L.A. District, Padron de la ciudad de Los Angeles usu jurisdiccion, ano 1836. Quarterly of Southern California Historical Society(September and December), 19 p. Leonard, R. L. (1963). Integrated management of ground and surface water in relation to water importation: The experience of Los Angeles County. Unpublished Dissertation (Ph.D.), University of California, Berkeley, CA. Lofgren, B. E. (1971). Estimated subsidence in the Raymond Basin, Los Angeles County, California, for a postulated water-level lowering, 1970-2020. Sacramento, CA: U.S. Geological Survey. Los Angeles County Flood Control District. (1977). Report on impounding rain water. Los Angeles, CA: Author. Los Angeles County Transportation Commission. (1987). On the road to the year 2000: Highway plan for Los Angeles County. Los Angeles, CA: Author. Los Angeles Dept. of Water and Power. (1928). Data on available water supply and future requirements of the City of Los Angeles and the metropolitan area. Los Angeles, CA: Author. Los Angeles Dept. of Water and Power. (1978). From pueblo to metropolis: Water and power in the story of Los Angeles. Los Angeles, CA: Dept. of Water and Power. 132 Santa Ana River & Watershed Bibliography Metropolitan Water District of Southern California. (1996). Foothill area study. Los Angeles, CA: Author. Morhar, I. L. (Cartographer). (1976). Freeway progress of Los Angeles County road system, metropolitan area [1 map]. Newmark, M. H., & Newmark, M. (1929). Census of the city and county of Los Angeles California for the year 1850. Los Angeles, CA: n.p. Olden, W. R. (1873). General description and character of lands in Los Angeles County, California. "The Stearns ranchos", with a description of its rivers, dairy lands, sugar, productions and profits of cultivation, harbors and roadsteads, transportation facilities, railroads, climate, land titles and prices [Pamphlet]. Anaheim, CA: n.p. Pacific Electric Railway Company. (1944). This is Pacific Electric [Booklet]. Los Angeles, CA: Author. Pomona Valley Municipal Water District, & Engineering-Science Inc. (1973). Economic analysis and summary report for Phase I and Phase II water supply investigations. Arcadia, CA: Engineering-Science, Inc. Pomona Valley Municipal Water District, & Engineering-Science Inc. (1975). Summary report for Northern and Southern study areas supplemental water supply project. Arcadia, CA: Engineering-Science, Inc. Pomona Valley Municipal Water District, & Engineering-Science Inc. (1976). Supplemental water supply alternatives utilizing project element "building blocks". Arcadia, CA: Engineering-Science, Inc. Stauffer, T. H., Bradley, N., Milne, C., & Carrier, D. R. (1961). Report on required facilities for replenishing and protecting ground water reserves in the central and west coast ground water basins. Los Angeles, CA: Los Angeles County Flood Control District. Sterngold, J. (2000, Dec 26, 2000). Private sector sets water sale to Californians. New York Times, p. A.1. Achieving that will require tough negotiations and political savvy, something Cadiz has worked hard at. Mr. [Keith Brackpool] was a large contributor to Gov. Gray Davis's election campaign, and has been appointed by the governor to serve on several advisory boards related to natural resources and growth. In addition, the company named to its board last year Tony Coelho, formerly a powerful Democratic congressman and a former chairman of Vice President Al Gore's presidential campaign. The Met's arrangement with Cadiz has two components. Under the first, surplus water would be diverted from the Met aqueduct in wet years and transferred through a pipeline to the Cadiz property for storage. The water would be sprinkled into shallow spreading ponds, where it would seep slowly underground. Officials in the Los Angeles area hope to buy large volumes of privately owned water from this Mojave Desert site owned by Cadiz Inc. Citrus groves lie in the green area in foreground. Behind it are dormant vineyards. Swett, I. L. (1953). Lines of Pacific Electric. Interurbans special; no.16. Taylor, P. C. (1985). Organization for construction of a rail transit project: n.p. 133 Water Resources Institute, California State University San Bernardino Tilton, G. F. (1909). Tilton's trolley trip: From the sea to the orange groves, over the Pacific Electric. Los Angeles, CA: Author. U.S. Census Office. (1850, 1860, 1870, 1880). Population schedules of the ... census of the United States. California. Washington, DC: U.S. Census Office. Viole, F., & Wood, J. H. (Cartographer). (1907). "Security" map of Los Angeles [2 maps on 1 sheet] Los Angeles, CA: Security Savings Bank. Water Replenishment District of Southern California. (1994-). Community report (Journal). Cerritos, CA: Author. Los Angeles County Agriculture and Other Uses Los Angeles County popular street atlas (Cartographer). (1980). [1 atlas ( 13 362 p. in various pagings)]. Map of Los Angeles and vicinity (Cartographer). (1981). [1 map: col.]. Los Angeles County street atlas and directory (Cartographer). (1984). [1 atlas (1 v. (various pagings))]. Los Angeles County CDFA/USDA. (1992). California grower, 16(4), 12. Barthold, G. M., & Renie, J. J. (1945). The new Renie commercial atlas of Los Angeles city and county. Showing boundaries of adjoining counties and ... [their] 45 incorporated cities ... highways ... roads, streets ... block numbers ... forest areas, ranger stations, lakes, reservoirs, beaches, mountain resorts, airports and plants, schools (2nd ed.). Los Angeles, California: E.A. Westberg. California Department of Parks and Recreation. (1966). Outdoor recreation outlook to 1980: Monograph no.1, Los Angeles metropolitan complex (Planning monograph No. 1). Sacramento, CA: Author. California Department of Water Resources. (1974). Ritter Canyon Aquatic Recreation Area: Recreation development plan (California Dept. of Water Resources Bulletin No. 117-17). Sacramento, CA: Author. California Farmland Mapping and Monitoring Program (Cartographer). (1994). Los Angeles County important farmland map, 1992 [1 map on 2 sheets]. Cunningham, G. (1964). Day tours, geographical journeys in the Los Angeles area. Palo Alto, CA: Pacific Books. Feldman, E. (1993). The Proposition A story: How Los Angeles County voters gained $540 million for parks, recreation, and natural lands. San Francisco, CA: Trust for Public Land, Western Region. Fielding, G. J. (1964). The Los Angeles milkshed: A study of the political factor in agriculture. Geographical Review, 54(1), 1-12. 134 Santa Ana River & Watershed Bibliography Fletcher, L. B., & McCorkle, C. O. (1962). Growth and adjustment of the Los Angeles milkshed: A study in the economics of location (Vol. 787). Berkeley, CA: Agricultural Experiment Station. Gilbert, J., & Wehr, K. (2003). Dairy industrialization in the first place: Urbanization, immigration, and political economy in Los Angeles County, 1920-1970. Rural Sociology, 68(4), 467-490. At the beginning of the 21st century rural sociologists debated the pace and extent of industrialization in the dairy sector of the United States. The authors offer the perspective of historical sociology to this debate, positing that time and place significantly determine the outcomes of processes such as industrialization. They present a historically grounded explanation for the rise of industrial dairying, which first occurred in Los Angeles County, California. Beginning with the immigration of Dutch dairy farmers to Los Angeles in the 1920's, a contingent and sequential process - embedded within the local and state political economy - of exploding population growth, rapid urbanization, and skyrocketing land prices led to repeated geographical relocations and expansions of large-scale dairies during the next three decades. Agricultural industrialization is not inevitable but instead is the result of contingent factors (cultural and political-economic) as well as the particular sequencing of events and processes. In thus historicizing the industrialization debate, the authors seek limited, rather than universal, generalizations. Los Angeles County Chamber of Commerce Agricultural Dept. (1932). What the newcomer should know about the small farm home in Los Angeles County (Rev. ed.). Los Angeles, CA: Author. Los Angeles County Chamber of Commerce Agricultural Dept. (1934). What the newcomer should know about the small farm home in Los Angeles County (Rev. ed.). Los Angeles, CA: Author. McCann, W. (Cartographer). (1968). Sports and recreation map of the Los Angeles-Orange County Region [1 map : both sides, col. ; 60 x 79 cm.] Los Angeles, CA: California Federal Savings and Loan Association. McCann, W. (Cartographer). (1977). Sports and recreation map: Los Angeles five-county area [1 map : col. ; 62 x 91 cm.] Los Angeles, CA: Los Angeles Times, Marketing Research. McCann, W. (Cartographer). (1984). Sports and recreation map: Los Angeles five-county area [1 map] Sherman Oaks, CA: Western Economic Research Co.. Rounds, M. B. (1938). Keeping farm soil on the farm: A factual study of the effects of farm practices and feasible farm structures on the retention or loss of soil from farms in Los Angeles County during the flood of February 27-March 4, 1938. n.p.: University of California Agricultural Extension Service. Seward, E. N. (1954). Investigation of waste dischargers from citrus packing plants in Los Angeles County (Water quality investigations). Sacramento, CA: California Division of Water Resources. Wissler, S. G. (1943). Stratigraphic formations of the producing zones of the Los Angeles Basin oil fields. California Division of Mines Bulletin, 118, 209- 234. 135 Water Resources Institute, California State University San Bernardino Young, T. (2001). Moral order, language and the failure of the 1930 recreation plan for Los Angeles county. Planning Perspectives, 16(4), 333-356. Young, T. (2002). Moral order, language and the failure of the 1930 recreation plan for Los Angeles County. Journal of Planning Literature, 16(4), 561-643. Zierer, C. M. (1934). The citrus fruit industry of the Los Angeles Basin. Economic Geography, 10(1), 53-73. Los Angeles County Creative / Artistic Expressions Los Angeles aqueduct (Artist). (1907). [Photographs]. Mountain lake in the Sierra Nevadas, Owens Valley -- Owens River at proposed point of diversion for L.A. Aqueduct -- Red Rock Caânon, Owens Valley -- Owens Valley Cottonwood Creek at Lone Pine road crossing, July 28-06 -- Camp in Grapevine Canyon L.A. Aqueduct survey party -- Red Rock tunnel-site near summit, Nov.-06 -- Owens Valley Nov. 27-06 showing diversion canal -- Elizabeth Lake, Nov. 26 inspection trip of consulting engineers -- Independence, Cal., Nov. 21-06, inspection trip of consulting engineers -- Rock Creek, Owens Valley Nov.20-06 -- Crossing Rock Creek in the ice at Little Round Valley Nov. 20-06 -- Riverside Canal showing first lining -- Jawbone Canyon view up canyon from south end of pipe -- Red Rock tunnel-site near South Portal Nov.-'06 -- Redlands-Bear Valley Canal -- Boulder lined storm ditch at Redlands -Concrete lined storm ditch near Riverside, Cal. -- Santa Ana Canal near Yorba -Redlands Canal -- Owens River at proposed point of diversion for L.A. Aqueduct. C.B. White Photo (Artist). (1913). Views of the Mt. Lowe inclined railway [Photographs]. Both views show people posed on Mt. Lowe railway car at the bottom of the incline. Ladies are shown wearing large and various hats. Photographic print has extensive promotional and descriptive information printed on verso. Watkins, C., Payne, H. T., Ellis, L. S., & other photographers and publishers (Artist). (1870). Stereoscopic views of Los Angeles and Ventura Counties and vicinity [Photographs]. Views of Los Angeles and Ventura counties and vicinity, including Alhambra, Catalina Island, Long Beach, Pasadena, San Pascual Canyon in the San Gabriel Mountains, San Gabriel and Santa Monica; includes views of homes, vineyards, oranges and orange groves, a date palm, pigeon and ostrich farms and gardens including one with agave, fan palms and eucalyptus; hotels, including a view of tourists on the porch of Sierra Madre Villa and the interior of a dining room with the staff; beaches, rock formations and the wharf at Santa Monica, people on the beach at Long Beach; missions including a view of a stairway on the outside of the Mission San Gabriel; a 200 lb. bass caught at Catalina; the prize float of the Tournament of Roses Parade; a group of hikers, mostly women on a hill overlooking Pasadena; two views of the Mt. Lowe Railroad; two views of the California Midwinter Exhibition including an exhibit and the arrival of the camels; a view of the San Fernando tunnel. 136 Santa Ana River & Watershed Bibliography Los Angeles County Litigation / Legal Issues In the Supreme Court of the State of California: National Audubon Society et al., Petitioners, v. The Superior Court of Alpine County, respondent; Dept. of Water and Power of the City of Los Angeles et al., Real parties in interest 64, 66, 61 (California Supreme Court 1983). Statement on behalf of the County Supervisors Association of California presented to the Joint Interim Committee on Water Problems of the California State Legislature, at its public hearing in Los Angeles, Dec. 13, 1954., California State Legislature Joint Interim Committee on Water Problems 10 leaves (1954). Statement of Harold W. Kennedy, County Counsel of the County of Los Angeles and Attorney for the Los Angeles County Flood Control District: In support of S. J. Resolution 135 relating to a saline water demonstration plant introduced by United States Senator Clinton P. Anderson of New Mexico, presented to the Subcommittee on Irrigation and Reclamation of the Committee on Interior and Insular Affairs on March 20 and 21, 1958, at Washington, D. C, 12 leaves (1958). Anaheim Water Company, Et al., respondents, v. Semi-Tropic Water Company, appellant, 64 185 (Supreme Court of California 1883). Agatha Archers et al., Appellants, v. City of Los Angeles (a Municipal Corporation) et al., Respondents. James L. Allison et al., Appellants, v. City of Los Angeles (a Municipal Corporation) et al., Respondents, 19 19 (Supreme Court of California 1941). Lillian Candace House, Appellant, v. Los Angeles County Flood Control District, Respondent, 25 384 (Supreme Court of California 1944). California Water Service Company. (1952). California Water Service Company, a corporation, et al., plaintiffs, vs. City of Compton, et al., defendants. California Water Service Company, a corporation, et al., plaintiffs vs. Alexander Abercromby, et al., defendants [Case No. 506806]: Report of referee. Sacramento, CA: California Division of Water Resources. 137 Water Resources Institute, California State University San Bernardino This page intentionally left blank 138 Santa Ana River & Watershed Bibliography 4.0 Orange County 4.1 Orange County Physical Environment General Information Dickerson, F. (1972). The physical environment of Orange County. Santa Ana, CA: n.p. McFadden, J. (1885). The Santa Ana Valley, its location, resources, and general characteristics of soil and climate. Santa Ana, CA: Santa Ana Valley Immigration Association. Slabaugh, F. W. (n.d.). Orange County, California: Nature's prolific wonderland. Santa Ana, CA: Orange County Board of Supervisors. U.S. Geological Survey (Cartographer). (1901). Santa Ana quadrangle, California (Orange Co.) [1 map]. Orange County Geography Eckmann, E. C. (1919). Soil survey of the Anaheim area, California. Washington, DC: U.S. Government Printing Office. Leadabrand, R. (1971). Guidebook to the mountains of San Diego and Orange Counties, including the Santa Ana Mountains, the Palomar country, the Julian-Cuyamaca country, the Laguna Mountains, much of which is embraced by the Cleveland National Forest. Los Angeles, CA: W. Ritchie Press. White, K. L. (1980). Terraces of the Santa Ana Canyon. Annals of the Association of American Geographers, 70(1), 94-105. Landscape sculpturing processes in Southern California are much slower than previously believed. Pedogenetic techniques identified riverine terraces of the Santa Ana Canyon spatially and chronologically. The investigation developed time relationships primarily on the basis of clay development within the solum. The developed terrace dates are 22,700 YBP, 43,800 YBP, and 63,300 YBP. These correspond to dates derived from Gulf of Mexico cores, morainal lobes in Illinois, and glacial tills in California. Orange County Geology Barrows, A. G. (1974). A review of the geology and earth-quake history of the NewportInglewood structural zone, Southern California (No. 75622491). Sacramento, CA: California Division of Mines and Geology. Buwalda, J. P. (1937). Geological report on the Santa Ana and Corona Tunnel lines (Hagador Canyon, Black Star Canyon route). Los Angeles, CA: Metropolitan Water District of Southern California. 141 Water Resources Institute, California State University San Bernardino Fife, D. L. (1974). Geology of the south half of the El Toro quadrangle, Orange County, California (No. 74624154). Sacramento, CA: California Division of Mines and Geology. Howard, H. (1978). Late Miocene marine birds from Orange County, California. Contributions in Science, 290, 1-28. Miller, R. V., Tan, S. S., & County of Orange Environmental Management Agency. (1976). Geology and engineering geologic aspects of the south half Tustin Quadrangle, Orange County, California (No. 77621140). Sacramento, CA: California Division of Mines and Geology. Morton, P. K., Miller, R. V., & Fife, D. L. (Cartographer). (1973). Preliminary geoenvironmental maps of Orange County, California [Preliminary Report 15]. Morton, P. K., Russell V. Miller, & James R. Evans. (1976). Environmental geology of Orange County, California. Sacramento, CA: California Division of Mines and Geology. Orange County Flood Control District. (1932). Engineering and geological reports for flood control and conservation project of Orange County Flood Control District. Santa Ana, CA: Arthur. Poland, J. F. (1956). Ground-water geology of the coastal zone, Long Beach-Santa Ana area, California (Geological Survey water-supply paper No. 1109). Washington, DC: U.S. Government Printing Office. Poland, J. F., & Piper, A. M. (1945). Geologic features in the coastal zone of the Long BeachSanta Ana area, California: With particular respect to ground-water conditions. n.p.: U.S. Geological Survey. Raschke, R. E. (1984). Stratigraphy and paleontology of the Upper Oso Dam area, Orange County, California. Unpublished Thesis (M.S.), California State University, Long Beach, Long Beach, CA. South Coast Geological Society. (1978). Geologic guidebook to the Santa Ana River basin , California: Prepared for the October 7, 1978 field trip. Santa Ana, CA: Author. Tan, S. S., Miller, R. V., & Evans, J. R. (1984). Environmental geology of parts of the La Habra, Yorba Linda and Prado Dam quadrangles, Orange County, California. Sacramento, CA: Division of Mines and Geology. U.S. Army Corps of Engineers Los Angeles District. (1993). Santa Ana River Delta beach and offshore profile survey and sediment sampling: Coast of California storm and tidal waves study, South Coast Region, Orange County. Los Angeles, CA: US Army Corps of Engineers, Los Angeles District. Woodring, W. P., & Popenoe, W. P. (1945). Paleocene and eocene stratigraphy of northwestern Santa Ana Mountains, Orange County, California. Orange County Hydrology Newport Harbor survey (Cartographer). (1887). [1 ms map]. 142 Santa Ana River & Watershed Bibliography Bradley, J. A. (1952). The rate of absorption in the percolating area of the Lower Santa Ana River. n.p.: Orange County Flood Control District. Chase, A. W., Ellicott, E., & Lawson, F. A. (Cartographer). (1875). Hydrography of Newport Bay or Santa Ana Lagoon and approaches, Cal. [1 map]. Chase, A. W., & Leutze, E. H. C. (Cartographer). (1878). Newport entrance: Los Angeles County, California [1 map]. Relief shown by contours and spot heights; depths shown by soundings and isolines. Shows drainage, wetlands, etc.Contour interval 20 ft.; soundings in feet. Oriented with north toward upper right. Clemens-Knott, D. (1998). Hydrogeochemical study of waters on the lower Forebay region of the Santa Ana River-coastal groundwater basin, Orange County, CA. Livermore, California: Lawrence Livermore National Laboratory. Gleason, G. B. (1945). Statement regarding the present condition of the underground water basin of Orange County. Santa Ana, CA: Orange County Water District. Hardt, W. F., & Cordes, E. H. (1971). Analysis of ground-water system in Orange County, California, by use of an electrical analog model (Open-file report). Menlo Park, CA: U.S. Dept. of the Interior, Geological Survey, Water Resources Division. Loo, C. B., & Tompkins, E. (1980). Ground water basin objectives for Irvine Forebay subarea (Memorandum report). Los Angeles, CA: California Dept. of Water Resources, Southern District. Mendenhall, W. C., Gannet, H., & Goode, R. U. (Cartographer). (1905). Map showing wells, artesian areas, and water levels in the Downey and Las Bolsas quadrangles [1 map]. Mills, W. R. (1992). Orange County ground water management. Report - California Water Resources Center, University of California, 77, 133-138. Muckel, D. C. (1956). A review of the report "Water losses in the Santa Ana River Canyon below Prado Dam, California, of the Soil Conservation Service, dated June 1946." n.p.: United States Soil Conservation Service. Oancea, C. C. (Cartographer). (2001). Water courses and watersheds, County of Orange, California. Orange County California Watershed & Coastal Resources Division. (2004). Introduction to Orange County California's 13 watersheds. Retrieved March 18, 2004, 2004, from http://www.ocwatersheds.com/watersheds/introduction.asp Orange County Environmental Management Agency, & Williamson and Schmid. (1986). Orange County hydrology manual. Irvine, CA: Williamson and Schmid Civil Engineers. Orange County Flood Control District (Cartographer). (1936). Profile showing ground water levels, Santa Ana Canyon to Pacific Ocean: Orange County, Calif [1 ms. profile]. 143 Water Resources Institute, California State University San Bernardino Orange County Water District. (1947). Progress report on the policy for balancing the present supply and draft on the Orange County underground water basin. n.p.: Author. Poland, J. F. (1945). Withdrawals of ground water from the Long Beach-Santa Ana area, California, 1932-1941. n.p.: U.S. Geological Survey and Orange County Flood Control District. Poland, J. F. (1946). Hydrology of the Long Beach-Santa Ana area, California, with special reference to the water-tightnes of the Newport-Inglewood structural zone. Long Beach, CA: U.S. Geological Survey. Robert Bein William Frost & Associates, CH2M Hill inc., G. Fred Lee & Associates, Richard Watson & Associates, & Silverado Constructors. (1997). Final drainage report, evaluation monitoring demonstration project: Eastern Transportation Corridor, Orange County CA: Phase 1. Santa Ana, CA: Transportation Corridor Agencies. Sinnett, A., & Poland, J. F. (1959). Hydrology of the Long Beach-Santa Ana area, California, with special reference to the watertightness of the Newport-Inglewood structural zone. With a section on withdrawal of ground water, 1932-41 (No. gs 59000199 rev). Washington, DC: U. S. Government Printing Office. U.S. Army Corps of Engineers Los Angeles District. (1942). Hydrologic data: Storm of March 14, 1941 Brea and Fullerton Creeks and vicinity. Los Angeles, CA: Author. U.S. Geological Survey Water Resources Division, United States Soil Conservation Service Division of Irrigation, & Orange County Water District. (1945). Water losses in Lower Santa Ana River Canyon (First progress report of joint investigation). Los Angeles, CA: U.S. Geological Survey. Von Geldern, O., & Benyaurd, W. H. H. (Cartographer). (1887). Newport Bay, California: Bar, entrance and inner waters [U.S. National Archives, Record Group no. 77] [1 ms map on 2 sheets]. Surveyed in March 1887 under direction of Major W.H.H. Benyaurd, Corps of Engineers; by Otto von Geldern, Assistant Engineer. Relief shown by hachures; depths shown by soundings and isolines. Shows drainage, salt marshes, etc. Oriented with north towards upper right. Soundings in feet to 24 ft., beyond that in fathoms. Wall, J. R., Cordes, E. H., & Moreland, J. A. (1966). Progress report on salt-water intrusion studies, Sunset and Bolsa Gaps, Orange County, California (Open-file report). Menlo Park, CA: U. S. Geological Survey, Water Resources Division. Wall, J. R., Moreland, J. A., & Cordes, E. H. (1967). An investigation of potential salt-water intrusion from inland waterways in the shallow alluvial and coastal deposits of Sunset and Bolsa Gaps, Orange County, California. Menlo Park, CA: U.S. Geological Survey, Water Resources Division. 144 Santa Ana River & Watershed Bibliography Williams, A. E. (1997). Stable isotope tracers: natural and anthropogenic recharge, Orange County, California. Journal of Hydrology, 201(1-4), 230-248. Stable isotopic techniques have been utilized to locate occurrences and trace movements of a variety of naturally and anthropogenically recharged waters in aquifers of Orange County, California. This basin is of particular interest not only because it provides the dominant water supply for the two million residents of this well-populated county, but also because it is representative of a common arid environment where natural recharge is dominated by distant, high-elevation precipitation transported by a major river, Such arid basins are particularly sensitive to climatic and anthropogenic disturbance of their recharge and their subsurface hydrology. In order to identify distinctive waters, oxygen and hydrogen stable isotope ratios from Orange County wells have been compared with a regional database including an array of surface water samples representative of watershed runoff, Four distinctive subsurface water types can be resolved. Waters of ''local'' rainfall and imported, ''Colorado'' River aqueduct origins are easily distinguished from dominant, ''native'' Santa Ana river compositions by use of hydrogen and oxygen stable isotope analysis. Recent human interference with Santa Ana river flow and recharge is also marginally resolvable by isotopic techniques. Distinguishable isotopic signatures of ''recent'' Santa Ana recharge appear to be due to evaporative loss, perhaps during storage in the Prado Reservoir or in percolation ponds, prior to recharge into Orange County aquifers, Characterization of traceable isotopic signatures of distinct natural and anthropogenic recharge components provides a major advance towards use of such techniques for developing a well constrained, three-dimensional hydrologic model for this complex basin. Woodward-Clyde Consultants. (1993). Santa Ana Regional Drainage Area management plan. Riverside, CA: Riverside County Flood Control Water Conservation District. Yoshiba, G. T. (1999). A hydrogeochemical study in the lower forebay area to characterize and delineate groundwater flow in Orange County, California. MAI, 37(05), 148. Isotopes of hydrogen and oxygen serve as natural tracers in groundwater and may be used to delineate the complex groundwater movement through Pleistocene and Recent aged aquifers of the Lower Forebay in Northern Orange County, California. The $\delta\sp{18}$O and $\delta$D analyses from 102 groundwater samples demonstrated the existence of Colorado River water as deep as 700 to 1,000 feet bgs. Spatial variation of tritium-helium-3 values identified a zone of fast moving subsurface flow in the lower Forebay corresponding to a permeable, gravel-rich zone at a depth roughly between 300 to 400 feet bgs. An average flow rate of 10 feet per day was calculated using $\sp3$H$\sp3$He data from various monitoring wells located along the fast flow path originating from the presumed point of recharge (Anaheim Lake). From about the early 1950's, inorganic Santa Ana River water concentrations show a sharp increase in dissolved solids as a result of urban development in the upper Santa Ana River basin. The groundwater mixing model using $\delta\sp{18}$O values and general minerals have lead to the conclusion that water-rock interaction is not significant within the Orange County Forebay. However, the cation chemistry of groundwaters may have been altered by subsurface ion exchange with clays. Ion exchange best explains the potassium (K$\sp{+}$) and sodium (Na$\sp{+}$) deficit in groundwaters within the lower Forebay as modeled by Clemens-Knott et al. (1998). 145 Water Resources Institute, California State University San Bernardino Orange County Topography Northeastern Orange County (Cartographer). (1968). [1 map]. California: Santa Ana : 1:100 000-scale topographic map : 30 x 60 minute series (topographic) (Cartographer). (2003). [1 map]. Raub, J. S. (Cartographer). (1955). Topographic survey of the University of California South Coastal Field Station, Orange County, California [1 ms. map]. 4.2 Orange County Environmental Issues General Information OC's environmental groups. (2000). Orange County Business Journal, 23(10), 23. Orange County Biodiversity Ali, A., & Mula, M. S. (1976). Insecticidal control of Chironomid midges [Chironomus, Tanytarsus, Cricotopus] in the Santa Ana River water spreading system, Orange County, California. Journal of Economic Entomology, V. 69(4). Ali, A., & Mulla, M. S. (1975). Chironomid midge problem in water spreading basins and flood control channel in the Santa Ana River, Orange County, California. Proceedings and papers of the annual conference of the California Mosquito and Vector Control Association, 116-117. California Department of Fish and Game. (1953). Biological survey, lower Newport Bay. n.p.: Santa Ana Regional Water Pollution Control Board. California Department of Fish and Game Coastal Wetlands Program. (1976). The natural resources of Anaheim Bay - Huntington Harbour. Sacramento, CA: Author. California State Water Resources Control Board Surveillance and Monitoring Section. (1979). Newport Beach Marine Life Refuge, Orange County (California marine waters areas of special biological significance reconnaissance survey report). Sacramento, CA: Author. Collins, C. T., Bender, K. E., Rypka, D. D., & Southern California Ocean Studies Consortium. (1979). Report on the feeding and nesting habits of the California least tern in the Santa Ana River marsh area, Orange County California (No. DACW09-78-C-008). n.p.: U.S. Army Corps of Engineers. Frey, H. W., Ronald F. Hein, & Spruill, J. L. (1970). Report on the natural resources of Upper Newport Bay and recommendations concerning the Bay's development. Sacramento, CA: California Dept. of Fish and Game. Garner, R., Wong, R., Kern, J., & Gleason, E. (1973). Marine animals of the Santa Ana River and adjacent channels: A study by the Orange County Flood Control District. Santa Ana, CA: Orange County Flood Control District. 146 Santa Ana River & Watershed Bibliography Gruwell, J. A., Brown, B. L., Schreiber, E. T., & Webb, J. P., Jr. (1989). Arbovirus activity in passeriform birds in Orange County, California, 1988. Proceedings and papers of the annual conference of the California Mosquito and Vector Control Association, 57, 28-36. Gruwell, J. A., Brown, B. L., & Webb, J. P., Jr. (1988). Passeriform birds as a surveillance method for arbovirus activity in rural and suburban sites in Orange County, California, 1987. Proceedings and papers of the annual conference of the California Mosquito and Vector Control Association, 56th, 58-68. Gruwell, J. A., Brown, B. L., Webb, J. P., Jr., & Challet, G. L. (1991). Passeriform and columbiform arbovirus activity in Orange County, California, 1989. Proceedings and papers of the annual conference of the California Mosquito and Vector Control Association, 58, 20-28. Hardy, R. A. (1970). The marine environment in Upper Newport and Sunset Bays, Orange County, California: A report to the California Regional Water Quality Control Board, Santa Ana Region from the Resources Agency of California, Department of Fish and Game. Long Beach, CA: California Resources Agency. Kelly, C. K. (1990). Plant Foraging: A marginal value model and coiling response in Cuscuta subinclusa. Ecology, 71(5), 1916-1925. Stems of the parasitic plant Cuscuta subinclusa (Convolvulaceae) discriminate among host species and invest in resource acquisition (coil around the stem of a host plant) relative to host quality in a way predicted by a marginal value model of resource use. Larger parasites are more likely to overwinter and set seed a second season than smaller ones, and parasites that start from overwintered tissue are significantly larger at flowering than are those that have started from seed. Thus, seed set is correlated with parasite size at the end of the season, linking the foraging response and fitness of the plant. Kelsey, R., & Collins, C. T. (1995). Avifaunal survey of Newport Slough, Newport Beach, California: U.S. Fish and Wildlife Service, Southern California Refuge Complex. Kobetich, G. C. (1994). Biological opinion on the effects of the San Joaquin Hills Transportation Corridor (SJHTC) on the Coastal California Gnatcatcher and Coastal Cactus Wren, Orange County, California. Carlsbad, CA: U.S. Dept. of the Interior, Fish and Wildlife Services, Carlsbad Field Office. LSA Associates. (1993). San Joaquin Hills Transportation Corridor conservation plan for California Gnatcatcher and Cactus Wren (LSA project No. TCA901K). Costa Mesa, CA: San Joaquin Hills Transportation Corridor, Transportation Corridor Agencies. Lyren, L. M. (2001). Movement patterns of coyotes and bobcats relative to roads and underpasses in the Chino Hills area of Southern California. Unpublished Thesis (M.S.), California State Polytechnic University, Pomona, Pomona, CA. Marsh, G. A., & Abbott, K. D. (1972). Plants and animals of the Santa Ana River in Orange County. Santa Ana, CA: Orange County Flood Control District. Marsh, G. A., & Fisher, R. (1992). Plants and animals of the Santa Ana River in Orange County. Santa Ana, CA: Orange County Flood Control District. 147 Water Resources Institute, California State University San Bernardino P & D Technologies. (1988). San Joaquin Hills Transportation Corridor biological resource analysis. Santa Ana, CA: Orange County, Environmental Management Agency. P & D Technologies, United States Federal Highway Administration, & California Dept. of Transportation. (1991). Biological resources analysis (Technical report). Costa Mesa, CA: Foothill/Eastern Transportation Corridor Agencies. PRC Engineering. (1988). Mule deer activity analysis. Santa Ana, CA: Orange County Environmental Management Agency. Remington, S. (2000). The distribution and diversity of bats in Orange County, California. Unpublished Thesis (M.S.), California State Polytechnic University, Pomona, Pomona, CA. Turell, M. J., O'Guinn, M. L., Dohm, D. J., Webb, J. P., Jr., & Sardelis, M. R. (2002). Vector competence of Culex tarsalis from Orange County, California, for West Nile virus. Vector Borne and Zoonotic Diseases, 2(3), 193-196. Venkatesan, M. I., Northrup, T., & Phillips, C. R. (2002). Determination of linear alkylbenzenes in fish tissue by gel permeation chromatography and gas chromatography-mass spectrometry. Journal of Chromatography, A 942(1-2), 223-230. A gel permeation chromatog. (GPC) procedure is described for sepn. of the long-chain linear alkylbenzenes (LABs) from fish muscle tissues. This technique was found to remove the matrix interference significantly and thereby improve the sensitivity of detection of LABs in the exts. Gas chromatog.-mass spectrometry (GC-MS) was then used to quantitate LABs in different species of fish and also fish from different locations on a transect from the outfalls from the Orange County Sanitation Districts, in the coastal waters of Southern California. The results are consistent with the proximity of the (sewage) source. The data, thus, show that LAB contents in fish tissues, esp. that from white croaker (Genyonemus lineatus) are useful in assessing exposure to sewage residues in the marine waters. This method of concg. LABs by GPC could be applicable to all other similar biol. matrixes. Vogl, R. J. (1966). Salt-marsh vegetation of Upper Newport Bay, California. Ecology, 47(1), 8087. The salt-marsh vegetation of Newport Bay was separated into littoral and maritime zones and was sampled quantitatively for frequency of occurrence and cover. The littoral zone (marsh proper) was divided into a narrow lower belt covered by Spartina foliosa, a broadest middle band dominated by Batis maritima and Salicornia virginica, and a narrowest upper strip influenced by Salicornia virginica and Monanthochloe littoralis. Although the marsh was subjectively divided into zones, individual species could not be readily segregated into zones since the frequency of each species varied along environmental gradients to produce a vegetational continum. Walton, W. E., Schreiber, E. T., & Mulla, M. S. (1990). Distribution of Culex tarsalis larvae in a freshwater marsh in Orange County, California. Journal of the American Mosquito Control Association, 6(3), 539-543. 148 Santa Ana River & Watershed Bibliography Webb, J. P., Jr., Binding, P. L., & Cassidy, C. T. (1987). Preliminary studies of urban/suburan mosquito species in relation to SLE virus transmission in Orange County. Proceedings and papers of the annual conference of the California Mosquito and Vector Control Association, 55, 16-19. Webb, J. P., & Dhillon, M. S. (1984). The effect of Bacillus thuringiensis israelensis (serotype H14) on Aedes squamiger at the Bolsa Chica Marsh, Orange County, California. Mosquito news, 44(3), 412-414. Webb, J. P., Medina, M. J., & Bennett, S. G. (1988). Mosquito abundance and arbovirus activity in Orange County, 1987. Proceedings and papers of the annual conference of the California Mosquito and Vector Control Association, 56th, 32-36. Webb, J. P., Schreiber, E. T., Bennett, S. G., Allen, R., Smith, T. J., & Challet, G. L. (1989). Evaluation of mosquito and arbovirus activity in Orange County, 1988. Proceedings and papers of the annual conference of the California Mosquito and Vector Control Association, 57, 18-22. Zembal, R., & Hoffman, S. M. (2002). A Survey of the Belding's Savannah Sparrow (Passerculus sandwichensis beldingi) in California, 2001 (Species Conservation and Recovery Program final report No. 2002-01). Fountain Valley CA: Santa Ana River Watershed Program, Orange County Water District. Orange County Ecology MacDonald, K. B. (1985). Santa Ana Marsh and adjacent lowlands terrestrial resources report. Los Angeles, CA: U.S. Army Corps of Engineers. Orange County Hazards/Disasters Transcript of hearing, Orange County water certificates, Sacramento, Calif., Nov. 25-26, 1957, California State Senate Special Committee on Governmental Administration (1957). Brennan, P. (2003, December 11, 2003). Orange County, California, habitat seen as hazard to nearby buildings. Knight Ridder Tribune Business News, p. 1. A big storm could trigger flooding of Upper Newport Bay and nearby buildings with millions of gallons of raw sewage unless a 21/2-mile stretch of overgrown streamside trees and shrubs is immediately destroyed and removed, county officials said Wednesday. The willows, mulefat and other plants have been growing for years, and have become valuable habitat for egrets, herons and other creatures. But calculations by flood engineers this summer revealed the channel was so full of trees and sediment that a 10year storm - - that is, a storm of an intensity expected roughly every 10 years, but that could happen any year -- would swamp the Irvine Ranch Water District sewage treatment plant on the creek's west bank. 149 Water Resources Institute, California State University San Bernardino Dwight, R. H. (2001). Health and economic impacts of coastal water pollution in North Orange County, California: A multi-disciplinary analysis. DAI, 62(10B), 122. California's North Orange County (NOC) has an increasing problem with urban runoff polluting the coastal waters. This multi-disciplinary analysis was designed to investigate to what extent, if any, the urban runoff and polluted coastal waters affect public health and economics. The primary conclusions from this research project are: (1) Urban runoff from the three rivers (Los Angeles, San Gabriel, Santa Ana) is the primary source of pollution affecting NOC's coastal waters. (2) Increased illness rates in NOC surfers during the El Niño winter-indicates there is a public health risk from recreational exposure to coastal waters in this area. (3) The economic burden of illnesses associated with polluted recreational waters is significant and should be considered in economic analysis of pollution abatement options. Mestre Greve Associates, & P & D Technologies. (1991). Eastern Transportation Corridor noise analysis. Costa Mesa, CA: Foothill/Eastern Transportation Corridor Agencies. Speer, S. A. (1997). Geographic and epidemiologic analysis of the proximity to petroleum refinery waste dumps and the incidence of acute myeloid leukemia and multiple myeloma in Orange County, California. Unpublished Dissertation, Univ. of California, Irvine, Irvine, CA. Turbow, D. J. (2003). Evaluation of recreational health risk in coastal waters based on Enterococcus densities and bathing patterns. Environmental Health Perspectives, p 598(596). Along a contiguous stretch of coastline in Huntington Beach and Newport Beach, CA, historical enterococcus density data were obtained for the period June 1998-December 2000, and relationships between enterococcus density and highly credible gastrointestinal illness were examined to determine risk to the individual bather from exposure to sewage and storm-drain runoff, respectively. Although the spatial location of bathers did not make a substantial difference in terms of the estimated aggregate illness rates, these rates were sensitive to the relationship between enterococcus density and highly credible gastrointestinal illness risk. Turbow, D. J. (2003). Recreational health risks and public perception of beach water quality : A combined simulation and survey-based approach. Unpublished Dissertation (Ph.D.), University of California, Irvine, Irvine, CA. Wieske, D., & Penna, L. M. (2002). Storm-water strategy. Civil Engineering, 72(2), 62. Increased public scrutiny, beach closures and media coverage -- particularly in Orange County, California -- have placed new pressures on public agencies to deal proactively with the issue of urban runoff. Urban runoff has many components, the most obvious being storm water from seasonal rainfall. Nuisance flow (water that flows into drainage systems and eventually into the receiving waters during dry weather) is a concern because it occurs during the peak tourist season. So the city has installed 8 nuisance flow diversion systems, which collect and divert low-flow runoff from approximately 1150 urban acres of the city into the sewer system. 150 Santa Ana River & Watershed Bibliography Orange County Environmental Resources Management Board of Consultants meeting May 1940 re Brea Dam and Santa Fe Dam, 1 v. in various foliations (1940). Inundation map of Brea Dam (Cartographer). (1974). [1 map on 4 sheets]. Inundation map of Carbon Canyon Dam (Cartographer). (1974). [1 map on 6 sheets]. Flood inundation maps for Prado Dam: Orange County, California, Santa Ana River Basin, California (Cartographer). (1985). [1 map on 8 sheets]. Building again after a three-year void in commercial building, the Irvine Co is starting work on various retail and industrial plans, including construction of two buildings in the Irvine Spectrum. (1994). Orange County business journal, 17(34), 11. California. (1994). Engineering News - Record, 70 words. A contract for phases 5 and 6 of the Lower Santa Ana River channel project was awarded to C.A. Rasmussen, Corona, by U.S. Army Corps of Engineers, Los Angeles. The approximately 6.2-mile project includes stone and grouted stone channel from Riverview Golf Course to Glassell St. in Santa Ana. Estimated project cost, $ 21.1 million. Construction start possible in June 1994 and completion targeted for June 1995. $427 million ground water replenishment system is approved. (2002). National Driller, 23(12), 76. For 25 years, OCWD has purified sewer water to drinking water standards for injection into the ground water basin to keep seawater out of the underground drinking water supply. As Orange County continues to use more ground water, the GWR System will expand that process, providing a new source of water for the underground barrier as well as for OCWD's water portfolio. Orange County perspective; Dredge the Santa Ana River. (2003, November 16, 2003). Los Angeles Times, p. 505 words. In the case of the lower Santa Ana River, nature has been particularly rough and the Army Corps of Engineers has set up concrete levees and made plans to raise dams. Its job there has been not to improve hunting but to protect the thousands of lives and homes along the river's vast flood plain. That has to remain the chief goal. Environmentalists seek to protect an area of the river that has sprouted a riparian habitat, but in the name of safety, engineers should go ahead with plans to dredge the bottom of the river. The plants will come back, and future river managers can look for ways to encourage nature spots along its banks. 151 Water Resources Institute, California State University San Bernardino USA: In California, the Orange County Water District (OCWD) plans to use new dredges from Liquid Waste Technology (LWT) to increase water capacity in the Santa Ana River by maintaining and restoring the percolation rate of the recharge basins. (Field Notes). (2003). Water & Waste Water International, 18(2), 157 words. OCWD provides over two million people in the region with their water from groundwater reserves that are maintained by a recharge system, replacing water pumped from wells. OCWD's facilities have a recharge capacity of some 300,000 acre-feet per year. The recharge basins gradually accumulate a thin layer of fine sediments and biological material that slows or even stops percolation. OCWD's new LWT dredges will maintain and restore the percolation rate by precisely removing this thin layer of organic sediment. Agency, O. C. E. M. (1988). Floodplain hydraulic study, San Joaquin Hills Transportation Corridor, State Route 73. n.p.: Author. Barbas, M., Walker, D., & Coastal Municipal Water District. (2001). Coastal reflections: The history of Coastal Municipal Water District. Dana Point, CA: Coastal Municipal Water District. Barette, M. (2000). Pipe fitting. Planning, 66(8), 14. All around the country, managers of water and stormwater projects are giving a new spin to the concept of green infrastructure. In Florida, one of the South Dade Watershed Project's central aims is to reclaim the old flood control canals, but as waterways and greenways. The water management district hopes to create a series of hydric parks that will serve the public and restore the natural function of the watershed. Instead of piping effluent into the ocean, the Orange County Groundwater Replenishment System will take effluent from the sanitary district, purify it and use it to replenish the groundwater system. The stormwater management system of the Kennet Campus of PECO Energy Co. in southeastern, Pennsylvania, mimics a natural system. As one naturalized detention basin fills, the water cascades into the next wetland. Boyle Engineering Corporation. (1961). Engineering report upon alternate plan for water transportation facilities to Los Alisos Water District, El Toro Water District, MoultonNiguel Water District. Santa Ana, CA: Author. Brennan, P. (2002, January 18, 2002). Orange County, California, cities told they must help shape water regulation. Knight Ridder Tribune Business News, p. 1. The session, organized by the law firm Manatt, Phelps & Phillips at a hotel in Costa Mesa, drew mayors, council members and business leaders from various Orange County cities -- all of them potentially facing stiffer regulations from regional water agencies. One agency, the Santa Ana Regional Water Quality Control Board, could approve a new raft of rules today that likely will include stepped-up inspection of construction, business and industrial sites to ensure contaminated water is kept out of storm drains. Cities in northern and central Orange County would have to develop their own programs to meet the new rules, potentially including enforcement. 152 Santa Ana River & Watershed Bibliography Brennan, P. (2003, March 20, 2003). Conservancy in Orange County, California, opposed in vote. Knight Ridder Tribune Business News, p. 1. The Orange County Board of Supervisors voted Tuesday to oppose the creation of a Santa Ana River Conservancy, an idea put forth last month by state Assemblyman Lou Correa, D-Anaheim. Brennan, P. (2003, December 14, 2003). Huntington Beach, California, may spearhead ocean desalination movement in state. Knight Ridder Tribune Business News, p. 1. One of the biggest objections desalination promoters face is cost. The favored method for removing salt from seawater, known as reverse osmosis, relies on filters with holes so tiny that even microscopic salt particles can't fit through them. Much larger bacteria and other micro-organisms are also filtered out. A second Orange County desalination plant, proposed by the Municipal Water District of Orange County, would produce 27 million gallons per day. That proposal is still in the early planning stages; it could be built in Dana Point or at the San Onofre nuclear plant, using a seawater intake tunnel once used to cool a now- defunct reactor. Brooks, N. H., & al., e. (1982). Deep ocean disposal of sewage sludge off Orange County, California: A research plan. Pasadena, CA: Environmental Quality Laboratory, California Institute of Technology. Bunis, D. (2003, February 4, 2003). Effects of federal budget on Orange County, California, projects are mixed. Knight Ridder Tribune Business News, p. 1. For the second year in a row, President George W. Bush wants to eliminate funding for the Empowerment Zones, including the one in Santa Ana. "This would slow down the construction effort the Corps plans to undertake considerably," said Herb Nakasone, flood-control manager for the county. " The longer it takes, the longer the residents of Orange County will be vulnerable to major flooding." Cain, S. (2000). Design firm Pacific Aquascape eyes growth watershed. Orange County Business Journal, 23(39), 16. California Regional Water Quality Control Board--Santa Ana Region, U.S. Army Corps of Engineers Los Angeles District, & California Dept. of Fish and Game. (1996). IRWD's Wetlands Water Supply Project permits and agreements.Unpublished manuscript. Campbell, R. (1996, April 30, 1996). Improvements on California's Santa Ana River will lower insurance premiums. The Orange County Register. Homeowners in central Orange County could cut their flood-insurance bills in half because of progress taming the Santa Ana River. Rep. Dana Rohrabacher, R-Huntington Beach, said Monday that the Federal Emergency Management Agency has agreed to reduce insurance rates in the river's flood plain downstream of Anaheim. Insurance premiums have tended to be higher in Orange County because of the high price of housing and the severity of the flood threat. But the Army Corps of Engineers has rebuilt the Santa Ana River channel,substantially reducing the flood danger. 153 Water Resources Institute, California State University San Bernardino CH2M Hill Inc. (1995). Draft environmental impact report for the Irvine Ranch Water District Wetlands Water Supply Project (No. 95011047). Irvine, CA: Irvine Ranch Water District. CH2M Hill Inc., & Irvine Ranch Water District. (1996). Addendum to EIR for Irvine Ranch Water District's Wetlands Water Supply Project. Irvine, CA: Irvine Ranch Water District. Chalmers, R. B., & Everest, W. R. (2002). Supercharged. Civil Engineering, 72(1), 58. Like many utilities serving growing populations, the water and wastewater districts in Orange County, California have been facing concurrent challenges: maintaining a safe, reliable supply of drinking water while dealing with increasing volumes of wastewater flow. But the county has also been faced with a challenge unique to coastal cities: keeping salt water out of its groundwater supply basin while pumping enough water from the basin to meet the community's needs. In an innovative solution sponsored jointly by the Orange County Water District and the Orange County Sanitation District, treated wastewater flows that would otherwise have required the construction of an additional Pacific Ocean outfall pipe will be put through advanced treatment processes instead. The highly treated water will then be reused for two purposes: recharging the local groundwater supply basin and expanding an existing seawater intrusion barrier. Clarke, W. N., Sr., Hodges, E., & Ooten, R. J. (1990). Cost-effective dewatering of municipal treatment plant sludges using belt presses. Water Science and Technology, 22(12), 173182. An evaluation was conducted at the County Sanitation Districts of Orange County (CSDOC), California, which led to the purchase and installation of the belt filter presses currently in use. A selection process was made including pre-qualification of bidders after an exhaustive nationwide search and study of all known existing belt filter press facilities. Subsequent methods were employed for purchasing belt filter presses of the same make and manufacturer. Operating experience and maintenance costs as well as minor modifications which were found to be desirable are documented. The paper discusses the design criteria, capacity, polymer addn. system, performance at CSDOC Plant No. 1 and Plant No. 2, sludge characteristics and the effect of chem. conditioning. Discussion regarding operation and maintenance criteria, such as staffing, operating and maintenance modes, operational checks, belt life and belt specification, ventilation required for the removal of odorous materials and H2S, data recording, and polymer dosing is included. Cost considerations, including capital costs, as well as operating and maintenance costs for the past 5 yr are covered. Conkling, H. (1958). Program of well measurement in Southern Chino Basin near Santa Ana River. San Bernardino, CA: San Bernardino County Flood Control District. Cotton Bridges Associates. (2003). Program environmental impact report for the Orange County great park: (annexation, general plan amendment, zoning and related actions) (draft No. Sch# 2002101020). Irvine, CA: City of Irvine. Crooke, H. W. (1958, December 10). A working solution to ground water management. Paper presented at the Irrigation Districts Association Convention, Santa Barbara, CA. 154 Santa Ana River & Watershed Bibliography Etcheverry, B. A. (1935). Orange County Flood Control District general plan.Unpublished manuscript. General plan for projects with cost estimates, all submitted under cover of application to U.S. Federal Emergency Administration of Public Works for funding in amount of $7,398,055.00. Fine, H. (1995). Powerful districts awash in controversy. Orange County Business Journal, 18(34), 1. For most of their existence, Orange County's water districts operated out of the public spotlight. But no more. The fallout from the county's bankruptcy has focused attention on the powerful districts, which have a combined revenue of $320 million a year. The three largest districts alone--Irvine Ranch, Santa Margarita and Moulton Niguel--have combined reserves of at least $680 million, according to Salomon Bros., the county's financial consultant. The county, scrambling to present a recovery plan to the state Legislature this week. is expected to propose diverting some of the districts' annual property tax revenue, as much as $20 million a year for 20 years, for bankruptcy relief. That would be legally easier than going after the reserves, said Salomon's Justin Bailes, and would leave water districts with the option of raising fees, cutting expenses or tapping their reserves to make up the lost revenue. (excerpt) Fine, H. (1996). Region's water boss pushes bond initiative. Orange County Business Journal, 19(43), 3. John Foley, the newly reelected chairman of the region's water wholesale agency, wants to see local water districts contract out more services to the private sector. But he's leery of calls to privatize the districts themselves, and he thinks the recent failed effort by Assembly Speaker Curt Pringle, R-Garden Grove, to consolidate all of OC's water districts tried to go too far, too fast. Fine, H. (1996). Westminster wrestles with water options: Privatization debate may echo throughout OC. Orange County Business Journal, 1. A year after California-American Water Co.'s failed takeover attempt of the Santa Margarita Water District, privatization of Orange County's public water agencies is back in the news again. The city of Westminster is in the midst of a push to contract out its water utility, which is facing a $10.5 million debt and needs an estimated $20 million more in capital improvements. The city now is negotiating with three private water companies: San Diego-based Cal-American, San Dimas-based Southern California Water Co. and California Water Service Co. of San Jose. A final decision on whether to contract out operation and maintenance of its water system could come next month. If Westminster decides to proceed with privatization of its water utility, it would be the first OC city to do so in decades. Thus, what happens there is being watched closely by the other city-owned utilities and by private water companies eager to pick up contracts in a new market. 155 Water Resources Institute, California State University San Bernardino Florkowski, J. (2003, Dec 31, 2003). Santa Ana, Calif., water agency misses checks of dairy storm runoff. Knight Ridder Tribune Business News, p. 1. Although the board was not able to inspect after Friday's rain, staff will devote time after future storms to regulating the dairies, said Steve Mayville, chief of the dairy unit. Officials with Newport Beach-based Defend the Bay, which sued a handful of Riverside and San Bernardino dairies in June 2002, say the Santa Ana board is not the only state office suffering. The Santa Ana board is doing a good job with its limited resources while a majority of dairies are keeping water on their property legally, [Bob Caustin] said. Ford Sauvajot Management Group, I., & South County Issues Discussions Group. (1996). Service delivery system and governance improvement study (phase I draft report). n.p.: South County Issues Discussion Group. George, J. F., Pickering, G. A., & Turner, H. O. (1994). General design for replacement of or modifications to the Lower Santa Ana River drop structures, Orange County, California. Vicksburg, MS: U.S. Army Engineer Waterways Experiment Station. Goodman, R. H., Jr. (1997). The biology of the southwestern pond turtle (Clemmys marmorata pallida) in the Chino Hills State Park and the west fork of the San Gabriel River. Unpublished Thesis, California State Polytechnic University, Pomona, Pomona, CA. Goudey, R. F., & Jenks, H. N. (1936). Study of reclamation of urban waste waters in Orange County 1930 to 1936 (Final report): n.p. Gross, B., & Reinhard, M. (2001). Organic compound behavior during percolation and groundwater transport at Anaheim Lake and Kraemer Basin. Fountain Valley, CA: Orange County Water District. Harvey, G. E. (1978). Urban sprawl and its effect on future urban wildlife management. Unpublished Thesis (M.S.), California State University Fullerton, Fullerton, CA. Harvey O. Banks Consulting Engineer Inc. (1972). Environmental enhancement plan, middle Santa Ana River green belt. Belmont, CA: Author. Harwood, S., & Myers, D. (2002). The dynamics of immigration and local governance in Santa Ana: Neighborhood activism, overcrowding, and land-use policy. Policy Studies Journal, 30(1), 70-91. Examines how the city of Santa Ana, California, responded to a changing urban landscape. During 1960-96 the rapid growth of the immigrant neighborhoods called into question traditional ways of municipal governance and city planning. The local government used land use policy to promote urban revitalization and bring substandard housing up to code. Initially the urban policy choices fueled neighborhood-based protest and exacerbated racial and class tensions throughout the city; however, neighborhood activism later created a space for government reform. 156 Santa Ana River & Watershed Bibliography Hillburg, B. (2002, Apr 19, 2002). Southern California groups meet with Navy, FAA over base redevelopment. Knight Ridder Tribune Business News, p. 1. Frustrated Navy officials, who have been trying to dispose of the base since it closed in 1999, then announced a proposal to sell the site to developers. The Navy's final decision will be announced Tuesday. The board turned the base's 4,700 acres of unincorporated land over to the city of Irvine. Under the plan, Irvine officials would rezone the entire site for recreation, school and other public and private uses, and would assist the Navy in selling off the acreage. Jack G. Raub Company. (1976). Environmental impact report, Upper Oso Dam and reservoir, Santa Margarita Water District (draft EIR). Mission Viejo, CA: Santa Margarita Water District,. James M. Montgomery Consulting Engineers. (1980). Engineering analysis of reuse projects within areas 1, 2 and 3 (subtask 3.4): Draft report: Orange and Los Angeles Counties water reuse study. Pasadena, CA: Author. James M. Montgomery Consulting Engineers. (1980). Engineering analysis of reuse projects within areas 4, 5 and 6, (subtask 3.4): Draft report: Orange and Los Angeles Counties water reuse study (Draft report). Pasadena, CA: Author. Keith Companies. (1990). Environmental impact report for Fleming Property-Modjeska Canyon Wilderness Park (Draft). Costa Mesa, CA: County of Orange Environmental Management Agency. Kenneth Q. Volk and Associates. (1958). Evaluation of the Yorba Linda Water Company as of December 31, 1958. Los Angeles, CA: Author. LA/OMA Project, & United States Environmental Protection Agency Region IX. (1980). Proposed sludge management program for the Los Angeles/Orange County metropolitan area, California (Draft environmental impact statement/environmental impact report). Whittier, CA: LA/OMA Project. Landers, J. (2003). Prado expansion begins in July. Civil Engineering, 73(8), 20. Although the 106 ft. high Prado Dam - intended to control flooding along the Santa Ana River in Southern California - was completed three years after the 1938 disaster, the structure's presence has not eliminated concerns that the country could once again suffer the effects of a severe flood. With these fears in mind, the US Army Corps of Engineers and the Orange County Flood Control District have set out to enlarge the dam, and major construction work on the project began in early July. In March, the Corp's Los Angeles district awarded a $67-million contract to Yeager Skanska Inc. to raise the height of the dam 28.4 ft., construct a new intake tower, and improve the structure's outlet works. Larry Munsey International. (2000). Supplemental EIS and project EIR for Prado basin and vicinity, including stabilization of the Bluff Toe at Norco Bluffs (Draft environmental impact statement/environmental impact report No. SC# 97071087). Tustin, CA: U.S. Army Corps of Engineers, Los Angeles District, Planning Division, Environmental Research Branch. 157 Water Resources Institute, California State University San Bernardino Larry Seeman Associates, & Phillips Brandt Reddick. (1979). Draft master environmental assessment, Irvine Ranch Water District, Orange County, California (Draft EIS). Newport Beach, CA: Authors. Lee, C. H. (1931). Santiago Dam, Orange County, California.Unpublished manuscript, n.p. Leeds, H., and Jewett,. (1964). Flood control and water conservation in Santa Ana River channel. San Francisco, CA: Orange County Flood Control District. Leeds Hill and Jewett. (1969). Review report on flood control and water conservation in Santa Ana River channel. San Francisco, CA: Orange County Water District. Lindstrom, K. P., & Renescu, A. (1994). Pollution prevention: A winning strategy for the protection of the environment. Water Science and Technology, 30(5), 195-202. This case study presents the development and implementation of the County Sanitation Districts of Orange County (Districts) Pollution Prevention Program (P3) aimed at reducing the environmental release of pollutants. The P3 has been integrated in the districts' environmental management program and incorporates the goals of the Districts' 30-yr Master Plan called 2020 Vision. The Districts take a multi-media approach to environmental protection giving equal importance to emissions to air, water or the land. The Districts' P3 efforts, applied in combination with an aggressive Source Control Program, has resulted in significant redns. in heavy metals and other pollutant discharges to the environment. The P3 is a major element of the Districts' Source Control Program. During the past seven years, pollution prevention (the management of waste generation or redn. of waste before it is generated) has proven to be the most effective strategy to protect the environment. The Program has resulted in redns. in influent loadings of heavy metals and other pollutants of concern, and an improving record of compliance by major industrial dischargers. The redn. in metals and other pollutants has resulted in quantifiable improvements in environmental conditions in the marine environment (in the vicinity of the discharge) several miles offshore near the ocean outfall, in reduced air emissions from the treatment plants, and in the concns. of heavy metals in the residual biosolids produced for recycling. Long-term monitoring data shows improvements in effluent toxicity (as measured by fish survival), redns. in the concns. of metals in sediments around the ocean outfall and long-term gradual improvements in biol. conditions as measured by the no. of species of benthic invertebrates. Data on the trends for each of these and other conditions, are presented along with the specific methods employed to achieve the redns. from industrial dischargers. The successes of P3 were acknowledged by the United States Environmental Protection Agency (EPA), which awarded the Districts the Administrator's national 1992 Pollution Prevention Achievement Award. Lippincott, J. B. (1925). Report on water conservation and flood control on the Santa Ana River for Orange County. Lippincott, J. B. (1939). Brea flood control basin: Pertinent data. Los Angeles, CA: U.S. Army Corps of Engineers, Los Angeles District. Lippincott, J. B. (1939). Fullerton flood control basin: Pertinent data. Los Angeles, CA: U.S. Army Corps of Engineers. 158 Santa Ana River & Watershed Bibliography Lippincott, J. B. (1941). Carbon Canyon flood control basin: Pertinent data. Los Angeles, CA: U.S. Army Corps of Engineers, Los Angeles District. Los Alisos Water District. (1995). 1995 urban water management plan update: Los Alisos Water District. Lake Forest, CA: Author. Lusk, S. (1988). Systematic's water-conserving hydromaster a success. Orange County Business Journal, 11(20), 12. Considering the cost of water and recent efforts to establish some water conservation policies, it's no wonder an Orange County manufacturer is finding success with its water sprinkling product: an irrigation system designed to turn on and turn off in accordance with the needs of the soil. Ma, J. Y., Everest, W. R., Sevenandt, W., & Reilly, J. (1993, August 1-4, 1993). Brine disposal to local sewerage system: An unique problem facing Southern California's blooming desalting market. Paper presented at the Membrane Technology Conference Proceedings, Baltimore, MD. Brine from desalting plants if disposed to local sewerage systems could have detrimental effects on the reclaimed water quality from a reclamation plant. The County Sanitation Districts of Orange County and the Orange County Water District cosponsored a study of management strategies for brine disposal from existing and potential desalting plants. There are four major objectives: 1) to review brine quantity and quality from the Santa Ana River Interceptor and other trunklines; 2) to project flow and quality of other potential brine sources from the upper Santa Ana Basin and other parts of Orange County; 3) to evaluate various flow routing strategies, investigate and estimate the costs of new regional brine interceptors, and explore potential system diversion options between Plant 1 and the downstream plant; and 4) to select the best strategy or combination of strategies regarding source control, flow routing, collection system, and/or in-plant diversions. Markus, M. R., Thompson, C. A., & Ulukaya, M. (1995). Aquifer recharge enhanced with rubber dam installations. Water Engineering & Management, 142(1), 37. The Orange County Water District is supplementing nature with artificial recharge to supply 70% of the water needs of its more than 2 million residents. As part of the program, the District has expanded its recharge capabilities with the Santa Ana River Inflatable Rubber Dam Project. Two inflatable rubber dams with bypass facilities to divert river flows to off-river recharge basins have been constructed. The project consists of one inflatable rubber dam (the Imperial Highway installation) and bypass facilities at the headworks of the recharge basins, and a 2nd similar installation located approximately 3 miles downstream. Two other significant aspects of the project are: 1.The bypass at the Imperial Highway dam incorporates a relatively new trashrack design with self-cleaning debris removal equipment. 2.Limited space for bypass facilities required a solution to complex hydraulic problems for bypass flow control, metering, and energy dissipation. Means, T. H. (1950). Report to Orange County Flood Control District on a plan for recovery of wasted water in Prado Reservoir. n.p.: Orange County Flood Control District. 159 Water Resources Institute, California State University San Bernardino Mesa Consolidated Water District Improvement Corporation, & KPMG Peat Marwick. (1990-). Financial statements for the fiscal year ending ... Costa Mesa, CA: Mesa Consolidated Water District. Metropolitan Water District of Southern California. (1977). East Orange County feeder No. 2 report: Policy background and obligation to serve (Preliminary). Los Angeles, CA: Author. Mills, W. R., Jr., & Orange County Water District. (1994, February 27 - March 2 1994). Indirect reuse in California. Paper presented at the 1994 Water Reuse Symposium, Dallas, TX. Indirect reuse is defined in this paper as the discharge of treated wasterwater into rivers, lakes and streams that provide source water for municipal, industrial or agricultural water supplies or for groundwater recharge. Indirect reuse is the more common form of reuse in the US, especially in regions where direct reuse is limited, and offers more potential for augmenting water supplies. The Ohio River system is an example of large scale indirect reuse. Approximately 491 wastewater treatment facilities discharge into the river, which is subsequently used by downstream communities as a source of municipal water supplies. In California, the amount of indirect reuse also dwarfs all planned reuse in the state. Surface water reuse is significant, but groundwater recharge with recycled water is becoming a more important means of indirect reuse in California. This paper covers groundwater recharge regulations in the state, and describes water reuse projects on the Santa Ana River, the Prado Basin constructed wetlands, and recharge in Orange County. It also discusses how indirect reuse is planned to meet future water needs. Miner, G. (2003). Awards. American Water Works Association Journal, 95(10), 8. The Groundwater Replenishment System, a new joint water project of the Orange County (Calif.) Water District (OCWD) and the Orange County Sanitation District, has received the 2003 Drought Proofing Award from the Santa Ana Watershed Project Authority. The Groundwater Replenishment System was honored for engaging in the most significant activity over the past year to assist in "drought proofing" the Santa Ana Watershed. Moeller, E. W. (1958). An informational digest of the Central Industrial District, The City of Garden Grove and the County of Orange, designed as an aid to serve industrial officials, their agents, industrial locators and economic survey firms in the preparation of plant site location reports. Garden Grove, CA: Garden Grove City Council. Morgan, S. P., & Chapman, J. I. (1995). Special district privatization: A report prepared for the Association of California Water Agencies. Sacramento, CA: Association of California Water Agencies,. Moulton Niguel Water District. (1960-). Financial statements with report on examination by certified public accountants. Santa Ana, CA: Sylvester Kasten Nordwick & Johnson. Municipal Water District of Orange County. (1995). 1995 Regional urban water management plan update. Santa Ana, CA: Author. 160 Santa Ana River & Watershed Bibliography Municipal Water District of Orange County, & Jones & Stokes Associates. (1975). Draft environmental impact report, Santiago lateral water quality improvement project. Sacramento, CA: Jones & Stokes Associates, Inc. Municipal Water District of Orange County, & Orange County Water Association. (1983). Orange County water rates survey. Santa Ana, CA: Municipal Water District of Orange County. Municipal Water District of Orange County, & Phillips Brandt Reddick. (1978). Metropolitan Water District of Southern California's possible participation in the Diemer Inertie project to serve coastal MWD (Final environmental impact report prepared for Municipal Water District of Orange County). Newport Beach, CA: Phillips, Brandt, Reddick. Nelson, C. R. (1982). The Santa Ana River in Orange County, California: A case history in sediment transport. Orange County Board of Supervisors. (1961). Carbon Canyon Dam [Booklet]. Santa Ana, CA: Author. Orange County Dept. of Real Property Services Acquisition Division Title Section. (1972). Inventory of public lands, Santa Ana River-Santiago Creek greenbelt corridors. Santa Ana, CA: Orange County Board of Supervisors. Orange County Environmental Management Agency. (1976). Environmental impact report 240 for General Plan Amendment: Land use element 76-2, Circulation element amendment 76-3, Scenic highways amendment 76-2: Environmental information for use by County of Orange (Draft EIR No. 240). Santa Ana, CA: California Environmental Management Agency. Orange County Environmental Management Agency. (1981). Local coastal program: North coast planning unit, Santa Ana River mouth. Santa Ana, CA: Author. Orange County Environmental Management Agency. (1991). Local coastal program land use plan, north coast planning unit, Santa Ana River Mouth (Draft). Santa Ana, CA: Author. Orange County Flood Control District. (1929). County of Orange, State of California. Orange County Flood Control District: Miscellaneous reports, data, maps, letters, photos.Unpublished manuscript, n.p. Orange County Flood Control District. (1973). Water for the Santa Ana River greenbelt. Santa Ana, CA: Author. Orange County Planning Department. (1971). The physical environment of Orange County: A report on the deteriorating condition of Orange County's natural environment. Santa Ana, CA: Author. Orange County Water District. (1948). Policy for governing multiple purpose use of Federal lands in Prado flood control basin, Santa Ana River. n.p.: State Water Resources Board. 161 Water Resources Institute, California State University San Bernardino Orange County Water District. (1966). Analysis of Metropolitan Water District water pricing with particular reference to replenishment water. Fountain Valley, CA: Orange County Water District. Orange County Water District. (1973). Orange County Water District. Santa Ana, CA: Author. Orange County Water District. (1974). Orange County Water District. Fountain Valley, CA: Author. Orange County Water District. (1976). Final environmental impact report: Burris Pit Water Conservation Facility (final EIR No. 2-76). Fountain Valley, CA: Author. Orange County Water District. (1988-). Orange County Water District: Annual report. Fountain Valley, CA: Author. Orange County Water District. (1989). Groundwater management plan: Orange County Water District. Fountain Valley, CA: Author. Orange County Water District. (1990). Water factory 21. Fountain Valley CA: Author. Orange County Water District. (1993). Review of Prado Dam operation for water conservation, Orange County, California: Record of decision. n.p.: U.S. Army Corps of Engineers. Orange County Water District, & Orange County Sanitation Districts (Writer) (1999). Managing nature's resources: The OCWD story [1 videocassette (11 min.) : sd., col. ; 1/2 in.]. Fountain Valley, CA: Orange County Water District. Phillips Brandt Reddick, & Associates, V. D. a. (1984). Eastern Transportation Corridor master environmental baseline study. Santa Ana, CA: Orange County Environmental Management Agency, Environmental and Special Projects Division. POD2 Inc. (1972). Environmental analysis of Santa Ana River plan, phase I. Los Angeles, CA: U.S. Army Corps of Engineers, Los Angeles District. POD Inc. (1973). Environmental analysis of Santa Ana River plan, phase II. Los Angeles, CA: U.S. Army Corps of Engineers, Los Angeles District. Price, G. E. (1935). Application for approval of the Orange County Flood Control District project (Application): n.p. 162 Santa Ana River & Watershed Bibliography Reyes, D. (2003, November 3, 2003). Orange County; Let River Flow, or Let It Grow?; A plan to dredge tons of sediment from the Santa Ana River would reduce danger of floods but sacrifice riparian habitat. Los Angeles Times, p. 1003 words. The U.S. Army Corps of Engineers wants to clean up a 3.6-mile stretch of the Santa Ana river from its mouth at the Pacific to just upstream from Adams Avenue. Activists such as Vandersloot, however, see a golden opportunity to let the river revert to its natural state and allow some of the wildlife habitat to remain. He advocates dredging a channel in the middle of the riverbed and leaving the riverbank regrowth intact. At a recent community meeting held by the corps, residents from both sides of the river -- which separates Huntington Beach and Costa Mesa -- expressed dissatisfaction with the corps' lack of maintenance, as well as Vandersloot's proposal. They fear the heavy growth of vegetation and trees that have taken root since the river was dredged in 1990 could create a flood threat in heavy rains. The Corps will not dredge the river during the nesting season, and they will provide some compensation for the loss of habitat. Robison, R. (1989). Multipoint Monitoring. Civil Engineering, 59(8), 67. Some water agencies monitor their groundwater to safeguard the public against intrusion from hazardous waste sites; others require data for a more general program of water resource management. Most such agencies would welcome simpler, less costly ways of collecting and using those data. In Orange County, California, it is called basin management, and for monitoring, the agency is installing a state-of-the-art multilevel system borrowed from the discipline of hazardous waste management. Rather than dig separate wells to reach various acquifer levels, a single multipoint well provides data from all wells. This cuts construction costs. The new wells permit piezometric levels to be measured, water samples to be taken, and tests to be conducted for aquifer hydrologic parameters, such as hydraulic conductivity. Rowe, J. (2003, Mar 5, 2003). Irvine, Calif. officials consider how to re-create habitat. Knight Ridder Tribune Business News, p. 1. In approving a tax-transfer mechanism required for Irvine to annex the old El Toro Marine base, the county took care of a major paperwork obstacle before Irvine can begin to develop the mix of houses, schools, agriculture, stores, business and sports fields that will make up what it's calling the Great Park. The possibilities experts offer vary greatly; "It's a matter of what to choose; we have a big palette to work on," says Glen Worthington, the city's principal planner. Rowe, J. (2003, Mar 5, 2003). Restoring natural habitat in California requires science, historical guessing. Knight Ridder Tribune Business News, p. 1. What will emerge from Irvine planners' desks for the Great Park likely will interpret "natural" to be vegetation representative of the area rather than a recreation of the original habitat. That could mean some marshes though and probably the creation of some hills and valleys to make the area more geographically engaging than the Kansas-flat base area is now. 163 Water Resources Institute, California State University San Bernardino Sachs, E. (2002, Apr 11, 2002). San Bernardino, Calif. airport panel approves habitat proposal. Knight Ridder Tribune Business News, p. 1. The remaining 25 acres on the edge of the Palm Meadows Golf Course and 29 acres on the banks of the Santa Ana River will be reserved as habitat for the protected species. Environmental consultant Tom Dodson said airport officials have asked Rep. Jerry Lewis, R-Redlands, for $250,000 in federal funds to care for the habitat. The money is needed primarily for the costly surveys needed to track animal survival, Dodson said. Santa Ana River-Santiago Creek Greenbelt Commission. (1976). Santa Ana River-Santiago Creek greenbelt implementation plan. Santa Ana, CA: Orange County Planning Dept. Santa Ana Valley Irrigation Company. (1943). By-laws of the Santa Ana Valley Irrigation Company. Orange, CA: Author. Santa Ana Valley Irrigation Company. (1943). Rules and regulations of the Santa Ana Valley Irrigation Company. Orange, CA: Author. Santa Ana Valley Irrigation Company. (1960-). Annual statement. Orange, CA: Author. Santa Margarita Water District. (1995). The district urban water management plan for the Santa Margarita Water District. Mission Viejo, CA: Author. Simons Li & Associates. (1987). Design report, marsh restoration lower Santa Ana River Channel, Orange County, California. Los Angeles, CA: U.S. Army Corps of Engineers, Los Angeles District. Southern California Association of Governments. (1983). Comprehensive sedimentation control plan - Newport Bay watershed: 208 areawide waste treatment management plan, phase III amendment for the South Coast planning area (Final). Los Angeles, CA: SCAG. Sterngold, J. (1999, Dec 27, 1999). Plans for military base divide California county. New York Times, p. A.18. One of Irvine's few long-term irritants had been the adjacent and enormous El Toro Marine Corps Air Station. The base is near the center of the county, but the flight paths, and expected auto traffic, would generally affect the southern end far more. The underlying debate, however, also has a lot to do with the contrast between the heavily Republican retreat that Orange County was, focused heavily on its quality of life, with the economically booming and increasingly ethnically diverse bastion of the ''new economy'' that it has become. Sterngold, J. (2002, Apr 18, 2002). Orange County backs park plan at old marine case in California. New York Times, p. A.24. The chairwoman of the board, Cynthia Coads, a longtime advocate of the airport, switched sides in the decadelong feud and put the county behind a plan to transform the 4,700 acres in the base into parks, golf courses and commercial development. Mayor Larry Agran of Irvine said the park would improve the quality of life so much that it would prove more beneficial economically. 164 Santa Ana River & Watershed Bibliography Sudol, M. F. (1996). Success of riparian migration as compensation for impacts due to permits issued through Section 404 of the Clean Water Act in Orange County, California. Unpublished Dissertation, University of California, Los Angeles, Los Angeles, CA. Swope, C. (2003). Green giants. Governing, 17(3), 34. The Marine Corps' El Toro airbase in Orange County CA will be turned into a humongous park, and ambitious plans for parks are on the drawing boards in Denver, Fairfax County VA, and New York City. Toups Engineering, I. (1954-1969). Engineer's report on ground water conditions in the Orange County Water District (Vol. v. 1-). Santa Ana, CA: Author. Toups Engineering Inc. (1969-). Engineer's report on water supply and basin utilization in the Orange County Water District. Santa Ana, CA: Author. Toussaint, M., Curry, M., & Woodside, G. (2001). GEO-CENTERS and Orange County Water District test report (Final report). Fountain Valley, CA: National Water Research Institute. Tucker, T. W. (1999). Assessment of nitrogen cycle processes by evaluation of redox potentials in sea water and soil at the Santa Ana River Salt Marsh Restoration Project. Unpublished Thesis (M.S.), California State University Fullerton, Fullerton, CA. U.S. Army Corps of Engineers Los Angeles District. (1958). Design memorandum no. 4, embankment foundation for Carbon Canyon Dam: Santa Ana River Basin (and Orange County), Calif. Los Angeles, CA: Author. U.S. Army Corps of Engineers Los Angeles District. (1958). General design for City Creek levee, Santa Ana River Basin, Calif. Los Angeles, CA: Author. U.S. Army Corps of Engineers Los Angeles District. (1962). Foundation report for Carbon Canyon Dam: Santa Ana River Basin (and Orange Co.), Calif., flood control. Los Angeles, CA: Author. U.S. Army Corps of Engineers Los Angeles District. (1974). Information brochure, alternative proposals for flood control and allied purposes: Santa Ana River Basin, Orange, Riverside and San Bernardino Counties, California. Los Angeles, CA: Author. U.S. Army Corps of Engineers Los Angeles District. (1980). Santa Ana River main stem, including Santiago Creek: Phase I general design memorandum: Counties of Orange, Riverside, and San Bernardino, California. Los Angeles, CA: Author. U.S. Army Corps of Engineers Los Angeles District. (1980). Santa Ana River: Phase I GDM on the Santa Ana River main stem, including Santiago Creek and Oak Street Drain: Public information brochure. Los Angeles, CA: Author. U.S. Army Corps of Engineers Los Angeles District. (1984). Brea Dam, Santa Ana River Basin and Orange County, California, Brea Creek, dam, outlet works and spillway (Periodic inspection report). Los Angeles, CA: Author. 165 Water Resources Institute, California State University San Bernardino U.S. Army Corps of Engineers Los Angeles District. (1984). Carbon Canyon Dam, Santa Ana River Basin and Orange County, California, Carbon Canyon Creek, dam, outlet works and spillway (Periodic inspection report). Los Angeles, CA: Author. U.S. Army Corps of Engineers Los Angeles District. (1984). Fullerton Dam, Santa Ana River Basin and Orange County, California, East Fullerton Creek, dam, outlet works and spillway (Periodic inspection report). Los Angeles, CA: Author. U.S. Army Corps of Engineers Los Angeles District. (1987). Response summary: Information workshop on upcoming changes at the mouth of the Santa Ana River, September 22, 1987. Los Angeles, CA: Author. U.S. Army Corps of Engineers Los Angeles District. (1990). Santa Ana River Basin: Prado Dam and Reservoir, Orange County, California: Reconnaissance report for the operation of Prado Dam for water conservation and draft environmental impact statement (Draft Reconnaissance). Los Angeles, CA: Corps of Engineers, Planning Division. U.S. Army Corps of Engineers Los Angeles District Dam Safety Assurance Program. (1987). Santa Ana River Improvement, Brea Creek, Orange County, California: Brea Dam, seismic evaluation (Seismic evaluation, Phase II report). Los Angeles, CA: Author. U.S. Army Corps of Engineers Portland District. (1988). Prado Dam outlet works: Phase II general design memorandum report. Portland, OR: Author. Vail, H. P. (1936). Progress report on contacts with water companies, private owners and municipalities on use of irrigation and domestic water in Orange County and Whittier La Habra area. Los Angeles, CA: Metropolitan Water District of Southern California. VTN Environmental Sciences, & Alan M. Voorhees & Associates. (1975). Southeast Orange County circulation study (summary report). Santa Ana, CA: Orange County Board of Supervisor. Weschler, L. F. (1968). Water resources management: The Orange County experience. Davis, CA: Institute of Governmental Affairs, University of California. Young, R. A. (1990). Planning via redevelopment: The Orange County municipal experience. Journal of Orange County Studies(5-6), 18-29. Examines the spatial and economic effects of recent redevelopment in the Orange County, California, municipal area, and discusses the role that redevelopment performs as an integral planning mechanism, and the economic rivalries between counties in Southern California. Orange County Health and Safety Transcript of hearing, Orange County water certificates, Sacramento, Calif., Nov. 25-26, 1957, California State Senate Special Committee on Governmental Administration (1957). Brennan, P. (2003, December 11, 2003). Orange County, California, habitat seen as hazard to nearby buildings. Knight Ridder Tribune Business News, p. 1. 166 Santa Ana River & Watershed Bibliography Dwight, R. H. (2001). Health and economic impacts of coastal water pollution in North Orange County, California: A multi-disciplinary analysis. DAI, 62(10B), 122. Mestre Greve Associates, & P & D Technologies. (1991). Eastern Transportation Corridor noise analysis. Costa Mesa, CA: Foothill/Eastern Transportation Corridor Agencies. Speer, S. A. (1997). Geographic and epidemiologic analysis of the proximity to petroleum refinery waste dumps and the incidence of acute myeloid leukemia and multiple myeloma in Orange County, California. Unpublished Dissertation, Univ. of California, Irvine, Irvine, CA. Trubow, D. J. (2003). Evaluation of recreational health risk in coastal waters based on Enterococcus densities and bathing patterns. Environmental Health Perspectives, p 598(596). Turbow, D. J. (2003). Recreational health risks and public perception of beach water quality : A combined simulation and survey-based approach. Unpublished Dissertation (Ph.D.), University of California, Irvine, Irvine, CA. Wieske, D., & Penna, L. M. (2002). Storm-water strategy. Civil Engineering, 72(2), 62. Orange County Water Quality A memorandum from Los Angeles County Engineer on groundwater basins and water conservation.Unpublished manuscript(1960-). Berkeley, CA. California's water future - impacts on Orange County. (1984). Santa Ana, CA: Orange County Municipal Water District. Crisis management: Orange County averts crisis with proactive PR. (2001, Nov 5, 2001). PR News, p. 1. When the Orange County Water District (OCWD) discovered a newly regulated and potentially carcinogenic substance in two of its drinking water wells in May of 2000, its PR staff immediately had visions of an Erin Brockovich public health scandal on their hands. That the levels of n-nitrosodimethylamine (NDMA) found in the wells were within the government-approved limit was of little comfort. Even the slightest public trepidation about the safety of the local water supply would be damaging to the agency's credibility - particularly if it were perceived as not being forthright about its findings. So the agency decided to take its story to the press (and the public) proactively. Orange County sues ARCO, Thrifty over contamination. (2001). Civil Engineering, 71(1), 18. Orange County, Calif., plans more environmental suits after BP unit settles. (2002, Dec 18, 2002). Knight Ridder Tribune Business News, p. 1. Arco's decision to pay $8 million to settle a lawsuit over leaking underground fuel storage tanks, announced Tuesday, ends one of Orange County's largest and most complex environmental lawsuits. Water agencies around the state soon discovered that MTBE moves quickly through groundwater. 167 Water Resources Institute, California State University San Bernardino Orange County, Calif. cities prepare new rules governing urban runoff. (2003, Feb 10, 2003). Knight Ridder Tribune Business News, p. 1. County supervisors are expected to approve the plans Tuesday. An early look at the plans revealed some novel ideas for controlling runoff, which can flush bacteria, chemicals, fertilizers and other contaminants into the ocean. The template, designed to meet waterboard mandates imposed a year ago, requires inspections of businesses and construction sites to check for runoff violations, detailed sampling of runoff water for signs of contamination, and public-education campaigns to make residents aware of the new requirements. Pumping moves inland. (2003). National Driller, 24(12), 61. Orange County Water District (OCWD) is working with the coastal and inland water agencies and cities in Orange County, Calif., to shift ground water pumping (6.5 billion gallons this year) to lessen the strain on OCWD's seawater barrier. The seawater barrier holds back the Pacific Ocean from infiltrating and contaminating the fresh water in the ground water basin, which provides water for 2.3 million residents. Boehm, A. B. (2003). Model of microbial transport and inactivation in the surf zone and application to field measurements of total coliform in northern Orange County, California. Environmental Science and Technology, 37(24), 5511-5517. The classic model of pollutant transport in the surf zone of a long, sandy beach developed by D. L. Inman et al. (1971) is altered to account for first-order pollutant inactivation in an effort to understand how rip cell diln. and bacterial inactivation control the length of shoreline adversely impacted by microbial pollution from a point source. A dimensionless no. .GAMMA. dictates whether phys. processes (diln. of microbes in the surf zone by rip cell mixing) or biol. processes (microbial inactivation) control the distribution of pollution along the shoreline. Ests. of .GAMMA. for beaches in Northern Orange County, California, indicate that diln. is the primary factor controlling total coliform levels surrounding two drains that release nuisance runoff directly onto the beach. It is also shown that, even when alongshore currents are fast, pollutant levels will drop e-fold at distances under 4000 m from the point source due to diln. alone. Because diln. is ultimately controlled by wave climate and shoreline morphol., the results suggest the strategic position of drains and other point sources in high-diln. wave environments will reduce potential adverse effects on beach water quality. In addn., the results stress the importance of understanding hydrodynamics when conducting microbial source tracking at wave-dominated marine beaches. 168 Santa Ana River & Watershed Bibliography Boehm, A. B., Sanders, B. F., & Winant, C. D. (2002). Cross-shelf transport at Huntington Beach. Implications for the fate of sewage discharged through an offshore ocean outfall. Environmental Science and Technology, 36(9), 1899-1906. The potential for internal tides to transport wastewater effluent from the Orange County Sanitation District (OCSD) ocean outfall toward Huntington Beach was evaluated. Plume tracking study results showed the OCSD effluent occasionally moves shoreward into water <20 m deep. Current and temp. observations indicated cold water is regularly advected cross-shelf, in to and out of the near-shore, at semi-diurnal and diurnal frequencies. Isotherms typically assocd. with the waste field near the outfall were obsd. just outside the Huntington Beach surf zone, where total depth is <6 m, highlighting the extent of the cross-shelf transport. This advection is attributed to a mode 1 internal motion, or internal tide. Based on the analyses discussed, the OCSD plume cannot be ruled out as a contributor to poor bathing water quality at Huntington Beach. Boyle Engineering Corporation, & Aguirre Associates. (1979). Reclaimed water facilities: Draft environmental impact report for the South Coast County Water District. South Laguna, CA: South Coast County Water District. Boyle, K. A. (2002). Investigating nutrient dynamics and macroalgal community structure in an eutrophic southern California estuary: Results of field monitoring and microcosm experiments. Unpublished Dissertation, University of California, Los Angeles, Los Angeles, CA. Brennan, P. (2002, October 24, 2002). Orange County, California, beaches get some bad grades, but show improvement. Knight Ridder Tribune Business News, p. 1. "It's the usual suspects," said Mark Gold, Heal the Bay's executive director. "The county also had six sewage spills that, though minor, resulted in shoreline closures, compared to four in Los Angeles County that did not lead to closures. During the same period last year, the county had 14 sewage spills. Efforts to improve water quality appear to be working, Gold and Monica Mazur of the Orange County Health Care Agency agree. Diversions of urban runoff, from storm drains into sewer systems, were credited with helping improve water quality on the beaches. Brennan, P. (2002, October 9, 2002). Orange County, California, forces pollution control at car wash. Knight Ridder Tribune Business News, p. 1. According to [Nick Thompson] and Unocal, [Joel Burnstine] put up one roadblock after another. Meanwhile, the plume of underground contaminants expanded toward a future drinking-water aquifer. Burnstine's attorney, Jeffrey Lewis, said Burnstine sought and obtained a permit to destroy the wells, which Thompson disputes. So far, Thompson said, Burnstine faces no charges or other enforcement actions for the car-wash site. Thompson is suing Burnstine in a separate case involving contamination at car washes in La Habra. 169 Water Resources Institute, California State University San Bernardino Brennan, P. (2002, July 14, 2002). Orange County, California, to vote on sewage treatment upgrade. Knight Ridder Tribune Business News, p. 1. A big part of the debate pits perception against science. The Orange County Sanitation District's outfall pipe, 41/2 miles offshore, pumps 240 million gallons of treated sewage into the ocean each day. Activists believe the sewage plume from the pipe is a major source of bacteria contamination along Orange County beaches, especially at Huntington Beach, where a months-long closure in 1999 forced ocean contamination into the public spotlight. The South Orange County Wastewater Authority's two outfall pipes in southern Orange County together release about 40 million gallons of sewage per day, and the sewage is treated to the full secondary level. Brennan, P. (2003, October 15, 2003). Orange County, California, scores edge higher on beach water quality. Knight Ridder Tribune Business News, p. 1. The troubled beaches are nearly the same as last year: Doheny State Beach and San Juan Creek, Baby Beach, Poche Beach in San Clemente and parts of Newport Harbor received F's, and were on the list of the group's "beach bummers," or most polluted beaches. Huntington State Beach, where mysterious bacterial contamination persists, got a D. There were more bad grades in the Newport Harbor area than last year. Bueermann, R. A. (1959). El Modeno [i.e. Modena] (Orange County) sanitary survey. Berkeley, CA: State of California, Dept. of Public Health, Bureau of Sanitary Engineering. California Bureau of Sanitary Engineering. (1936). Permit to the city of Newport Beach to construct and operate a sewage settling plant on a 10-acre site 1,000 feet northerly of the state highway and easterly of Santa Ana River, the effluent to be discharged into the ocean at a point no less than 1,500 feet oceanward of the hightide line. Berkeley, CA: Author. California Bureau of Sanitary Engineering. (1948). Report on the status of Orange County beaches at the mouth of the Santa Ana River. n.p.: Author. California Bureau of Sanitary Engineering, & California Regional Water Quality Control Board-Santa Ana Region. (1960). Indices of ocean water pollution study, Pacific Ocean vicinity of Santa Ana River, Orange County. n.p.: Santa Ana Regional Water Pollution Control Board. California Department of Water Resources Southern District. (1969). Report on water quality conditions, Santa Ana Forebay Basins. Los Angeles, CA: Author. 170 Santa Ana River & Watershed Bibliography Clark, J. F., Woodside, G., Gamlin, J. D., University of California Department of Geological Sciences, Orange County Water District, & University of Nevada Reno. (2001, April 30-May 2, 2001). Tracing groundwater artificially recharged from a river using Sulfur Hexafluoride. Paper presented at the American Water Resources Association: Annual Spring Specialty Conference proceedings on water quality monitoring and modeling, San Antonio, TX. Artificially enhancing recharge rates of surface water into shallow aquifers requires new methods to evaluate short-term transport near the recharge operation. An experiment designed to quantify groundwater transport from the Santa Ana River (SAR) using sulfur hexafluoride gas (SF6) as a tracer is described in this paper. During this experiment, SF6 was injected into a 9-km reach of the SAR in Orange County, California over a period of two weeks tagging approximately 3.7 x 10(6) m(3) of water. The entire flow of the river percolated into the ground within this 9-km reach. Because SF6 is lost from surface waters via gas exchange with the atmosphere, concentrations decreased with distance from injection points leading to significant variations along the axis of the river (by about an order of magnitude). Therefore, an intensive field sampling campaign was needed to define the input function of tracer to the groundwater system. Nevertheless, subsurface flow patterns and flow times to selected wells were quantified over a period of about two years. Most importantly, the leading front of the tracer plume provided information about the shortest flow time to wells. This information is critical for evaluating changes in water quality between the river and groundwater monitoring wells along the flow paths emanating from the SAR. Clarke, W. N., & Hazardous Materials Control Research Institute. (1980). Design and operation of the Orange County sewage sludge composting facility. Paper presented at the National conference on municipal and industrial sludge composting operation, design, marketing, health issues, Silver Spring, MD. Durbin, T. J. (1974). Digital simulation of the effects of urbanization on runoff in the upper Santa Ana Valley, California (Water-resources investigations report No. 41-73). Menlo Park, CA.: U.S. Geological Survey. Dwight, R. H., Semenza, J. C., Baker, D. B., & Olson, B. H. (2002). Research papers Association of urban runoff with coastal water quality in Orange County, California. Water environment research, a research publication of the Water Environment Federation, 74(1), 9. Engineering-Science Inc. (1978). Task 2-2: Additional needs of comprehensive policy program: Additional urban and industrial stormwater system needs (final report). Santa Ana, CA: Orange County Environmental Management Agency. Engineering-Science Inc. (1978). Task 2-9: Urban and industrial stormwater system needs, County of Orange. Santa Ana, CA: Orange County Environmental Management Agency. Everts Coastal. (1996). Coast of Newport Beach: Shoreline behavior and coastal processes. Newport Beach, CA: Newport Beach Public Works Dept. 171 Water Resources Institute, California State University San Bernardino Gamlin, J. D. (2001). Large-scale tracing of ground water with sulfur hexafluoride. Journal of Environmental Engineering ASCE. To evaluate sulfur hexafluoride as a groundwater tracer, the compound was injected into a 9-km section of the Santa Ana River in Orange County, CA, for a period of 15 d, and flow paths and travel times from the river to selected wells were monitored. Pure SF6 gas was released along the length of the river by bubbling through diffusing stones placed at the sediment-water interface. Results showed that the variation in concentration along the axis of the river followed a predictable pattern. Concentrations were highest just below the injectors, decreasing exponentially with distance. After transport by the groundwaterflow system, plumes were created that could be mapped easily. Groundwater velocities averaged 2 km/yr, and a minimum velocity of approximately 5 m/d was calculated. Garrett, A. A. (1943). Partial chemical analyses of waters from wells, streams, ponds, and sumps in the coastal zone of the Long Beach-Santa Ana area, California, 1940-1943. Los Angeles, CA: U.S. Geological Survey. Garrett, A. A. (1953). Summary statement of salt-water contamination in the coastal part of Orange County, California, as of 1952. Sacramento, CA: U.S. Dept. of the Interior, Geological Survey, Ground Water Branch. Gleason, G. B. (1945). Present overdraft on and safe yield from the ground water of the coastal plain of Orange county. Sacramento, CA: California Division of Water Resources. Goodman, S. (1980). Key well monitoring within the Orange County groundwater basin, 1980. Santa, Ana, CA: Orange County Water District. Gorman, T. (2004, January 30, 2004). The region; Orange County hoping to process more runoff; sanitation district is trying to assess how much additional surface water can be treated without affecting its raw-sewage operation. The Los Angeles Times, p. 471 words. The Orange County Sanitation District is studying how much water runoff from lawns and streets can be treated before it ends up in the Santa Ana River and ocean. The challenge, sanitation district officials say, is processing additional runoff without jeopardizing its primary mission of treating raw sewage. Between 40 million and 100 million gallons of runoff a day course through the county in the dry season, Anderson said, and local agencies are trying to improve their water-diversion systems so more of it can flow first to sewage treatment centers before it is dumped in the ocean. Untreated runoff is so polluted, mostly with animal waste, that the Santa Ana Regional Water Quality Control Board issued pollution violation notices in December to the county and the cities of Santa Ana, Fountain Valley, Costa Mesa, Huntington Beach and Newport Beach. About four years ago, the sanitation district began treating dry-season runoff in addition to conventional sewage. The runoff picks up bacteria as it runs across yards, sidewalks, streets and gutters and flows into storm channels. "The treatment has helped, and we'd like to see the sanitation district handle more," said Ken Theisen, a staff environmental scientist for the regional water quality control board. Grant, S. B. (2000). Huntington Beach water quality investigation phase II: An analysis of ocean, surf zone, watershed, sediment and groundwater data collected from June 1998 through September 2000 (Final report). Fountain Valley, CA: National Water Research Institute. 172 Santa Ana River & Watershed Bibliography Grant, S. B., & Sanders, B. F. (2000). Tidal transport of bacteria between the Talbert Watershed and the ocean: Interim report 1 for the UCI coastal runoff impact study (CRIS) (interim report: Draft 1). Fountain Valley, CA: National Water Research Institute. Hand, A. J. (1999). Water researchers perfect monitoring techniques: Microbiologists in California's Orange County use a wide range of microscopy and imaging techniques to examine the organisms within the local water supply new laser and fluorescence systems could offer improvements. Photonics spectra, 33(10), 4. Harmon, J. A., & Cardillo, W. V. (1943). Newport Harbor, Orange County: Investigation of pollution of the waters of Newport Harbor. Los Angeles, CA: State of California, Dept. of Public Health, Bureau of Sanitary Engineering; with the cooperation of the Orange County Health Dept. Hewitt, C. W., & Phillips, D. F. (1954). Oil field brine penetration investigation, Orange County: A report to Santa Ana Regional Water Pollution Control Board No.8 (Water quality investigations). Los Angeles, CA: State of California, Dept of Public Works, Division of Water Resources. Hyde, J., Thompson, K., & Irvine Ranch Water District. (2000, January 30-February 2, 2000). Impact of multiple TMDLs on the Newport Bay watershed. Paper presented at the 2000 Water Reuse Conference Proceedings, San Antonio, TX. California is an National Pollutant Discharge Elimination System (NPDES) state and administers the Clean Water Act under the Porter-Cologne Water Quality Act. This act set up the State Water Resources Control Board as the primary governing body, but to allow for regional differences, also set up nine Regional Water Quality Control Boards to administer NPDES and other Clean Water Act programs. Therefore, when the US Environmental Protection Agency entered into a Consent Decree with 'Defend the Bay', a Newport Bay public interest group, to establish Total Maximum Daily Loads (TMDLs) identified on the Santa Ana Regional Water Quality Control Board (Regional Board) 303(d) list, the duty to determine assimilative pollutant capacity of Newport Bay, set waste load and load allocations, then develop management plans to implement water quality requirements according to the schedule in the Consent Decree fell upon the Regional Board. Should the Regional Board fail to meet the requirements of the Consent Decree, the EPA will independently establish TMDLs and require the Regional Board to enforce them. This paper describes the TMDL process followed by the Regional Board in developing sediment, nutrient and pathogen TDMLs. Ike, N. R., Wolfe, R. L., & Means, E. G. (1988). Nitrifying bacteria in a chloraminated drinking water system. Water Science and Technology, 20(11-12), 441-444. As a result of the nitrification episode in Orage County Reservoir of California the occurrence of NH4+-oxidizing bacteria (AOB) as well as the ecol. of these bacteria were studied. Results showed that AOB ranged from <0.18 in the winter months to 500 mostprobable no. (MPN)/mL during a nitrification episode in the summer. Significant relations were obsd. between the nos. of AOB and temp., heterotrophic plate count, and NO2-. Addnl. anal. within the reservoir indicated that high nos. of AOB predominated in the bottom sediment, which may provide a protective environment for their survival and growth. 173 Water Resources Institute, California State University San Bernardino Irwin, G. A., & Powers, W. R. (1972). Water-quality reconnaissance of the lower Santa Ana River Canyon, Southern California. Menlo Park, CA: U.S. Geological Survey, Water Resources Division. Kasindorf, M. (2002, May 20, 2002). Surf's up! So are health warnings: Pollution, stricter waterquality rules contribute to a wave of beach closings. USA TODAY, p. A.03. Water-sports devotees here, elsewhere in California and along other U.S. coastlines increasingly are being warned that the inviting waves are full of nasty bacteria and viruses. They can cause gastroenteritis and infections of the nose, eyes, ears and throat, says Gordon Labedz, a Los Angeles physician who surfs daily. The Environmental Protection Agency calls the resulting diarrhea, nausea, stomach cramping or fever "typically minor." Health reports show that most of the nation's beaches are clean most of the time. The Clean Beaches Council released its fourth annual "Blue Wave" list of family-safe beaches Friday. Among the 91 beaches on the list are three in New Jersey, the state where used syringes and other medical wastes memorably washed ashore in 1986 and 1987. Kim, J. H., Grant, S. B., McGee, C. D., Sanders, B. F., & Largier, J. L. (2004). Locating sources of surf zone pollution: A mass budget analysis of fecal indicator bacteria at Huntington Beach, California. Environmental Science and, Technology, ACS ASAP. The surf zone is the unique environment where ocean meets land and a place of crit. ecol., economic, and recreational importance. In the United States, this natural resource is increasingly off-limits to the public due to elevated concns. of fecal indicator bacteria and other contaminants, the sources of which are often unknown. In this paper, we describe an approach for calcg. mass budgets of pollutants in the surf zone from shoreline monitoring data. The anal. reveals that fecal indicator bacteria pollution in the surf zone at several contiguous beaches in Orange County, California, originates from well-defined locations along the shore, including the tidal outlets of the Santa Ana River and Talbert Marsh. Fecal pollution flows into the ocean from the Santa Ana River and Talbert Marsh outlets during ebb tides and from there is transported parallel to the shoreline by wavedriven surf zone currents and/or offshore tidal currents, frequently contaminating >5 km of the surf zone. The methodol. developed here for locating and quantifying sources of surf zone pollution should be applicable to a wide array of contaminants and coastal settings. Kimball, J. H. (1943). Orange County Joint Outfall Sewer survey for the year 1941. n.p.: Orange County Health Dept. Krasner, S. W. (1980). Development of a volatile organic analysis technique for the Orange-Los Angeles County reuse study. Los Angeles, CA: Metropolitan Water District of Southern California, Water Quality Branch. Lee, G. F., & Taylor, S. (1998). Review of existing water quality characteristics of Upper Newport Bay, Orange County CA and its watershed. Sacramento, CA: State Water Resources Control Board. 174 Santa Ana River & Watershed Bibliography Maurer, D., Robertson, G., Gerlinger, T., & Gossett, R. (1996). Organic contaminants in sediments of the Newport Submarine-Canyon, California and the adjacent shelf. Water Environment Research, 68(6), 1024-1036. Organic contaminants in sediment were measured in samples collected from five stations in the Newport Submarine Canyon, Calif., and six nominal 60-m shelf stations (19851991); the 60-m stations included one at the terminus of an ocean outfall. Two hypotheses were tested: there is no increase in sediment contaminant concentration with water depth in Newport Canyon and there is no difference in contaminant concentration between the canyon and adjacent shelf Based on analyses herein, hypothesis one was accepted and hypothesis two was rejected. Mean DDE, tDDT, and Aroclor 1254 were higher in the canyon (Station C2) and tPCB was higher at the ocean outfall (Station 0). The results presented here show that the canyon serves as a sediment trap for elevated concentrations of both trace metals and organic compounds. McKillop, D. H. (1954). Survey of oil industry wastes in Orange County: A report to Santa Ana River Basin Regional Water Pollution Control Board (No. 8) (Water quality investigations). Los Angeles, CA: California Division of Water Resource. McKillop, D. H., & Lopp, K. R. (1952). Effects of excess sewage disposal from Orange County joint outfall sewer. Los Angeles, CA: California Division of Water Resources. Mills, W. R. J., Bradford, S. M., Rigby, M., Wehner, M. P., & Orange County Water District. (1998). Groundwater recharge at the Orange County Water District. In Wastewater Reclamation and Reuse: Water Quality Management Library (Vol. Volume 10, pp. 11051142). n.p.: CRC Press LLC. Orange County Water District (OCWD) has implemented two unique recharge programs as part of its groundwater resources management plan. The first program is Water Factory 21 (WF-21), an advanced wastewater reclamation project that directly injects highly treated reclaimed water into coastal aquifers to prevent seawater intrusion. The second recharge program involves surface spreading of water for groundwater recharge in northeastern Orange County. This program takes advantage of the natural percolation capacity of the Orange County Forebay area where the majority of groundwater recharge in Orange County occurs. Ten spreading basins and in-channel facilities are used to percolate Santa Ana River flows and imported water into the groundwater basin. This chapter discusses the operational parameters, water quality and regulatory considerations for WF-21 and the Orange County Forebay recharge projects. Orange County Environmental Management Agency Development Services Division. (1984-). Annual water quality data report (Journal Government document). Santa Ana, CA: Author. Orange County Environmental Management Agency Development Services Division. (1986-). Biannual water quality data report. Santa Ana, CA: Author. Orange County Environmental Management Agency Water Resources Section. (1980). Water quality in Newport Bay and its watershed. Santa Ana, CA: Water Resources Section, Engineering Services Division, Environmental Management Agency. 175 Water Resources Institute, California State University San Bernardino Orange County NPDES Stormwater Permit Program, & National Pollutant Discharge Elimination System. (1991). Orange County water quality program for the stormwater system and receiving waters progress report (Progress report). Riverside, CA: California Regional Water Quality Control Board--Santa Ana Region,. Orange County NPDES Stormwater Permit Program, & National Pollutant Discharge Elimination System. (1991). Program fiscal analysis. Riverside CA: California Regional Water Quality Control Board--Santa Ana Region,. Orange County Npdes Stormwater Program, National Pollutant Discharge Elimination System, California Regional Water Quality Control Board--Santa Ana Region, California Regional Water Quality Control Board--San Diego Region, & Orange County Environmental Management Agency. (1992-). Program analysis report. Riverside CA: Orange County NPDES Stormwater Program,. Orange County Water District. (1971). Review report on the feasibility of the Orange County Coastal Project. Santa Ana, CA: Author. Orange County Water District. (1972). Report on residential water quality survey (Draft). Santa Ana, CA: Author. Pecquet, J. (2003, Mar 6, 2003). Bill Requires EPA to Set Perchlorate Rules. Knight Ridder Tribune Business News, p. 1. The state's temporary standard is 2 parts perchlorate per billion to 6 parts per billion. The EPA's temporary guideline is 1 part per billion. In the 15 wells in Orange County that have higher levels than the state standard, the average amount of perchlorate present was 6.3 parts per billion as of June 2. The EPA says it needs more time to collect data across the nation and assess the extent of pollution before recommending a technically and economically attainable standard. Perchlorate originally seeped into the Orange County water supply from a Nevada rocket-fuel factory adjacent to the Colorado River. That source has now tainted the drinking-water supply of 20 million people in three states, including more than 2.7 million in Orange County, say EPA officials. And at least 36 additional industrial sites across California continue to seep perchlorate into the state's ground water. Piper, A. M., & Garrett, A. A. (1953). Native and contaminated ground waters in the Long Beach -Santa Ana area, California. Washington, DC: U.S. Government Printing Office. Rawn, A. M. (1947). Report upon the collection, treatment, and disposal of sewage and industrial wastes of Orange County, California. n.p.: Orange County Board of Consulting Engineers. Richard Terry and Associates. (1972). Environmental impact assessment of Santa Ana River interceptor, Katella Avenue to La Palma Avenue for the County Sanitation District no. 2 and Chino Basin Municipal Water District. Anaheim, CA: Chino Basin Municipal Water District. 176 Santa Ana River & Watershed Bibliography Richardson, N. L., & Orange County Water District. (1989, June 18-22, 1989). Groundwater Quality Management in the Orange County Groundwater Basin. Paper presented at the 1989 Annual Conference Proceedings, Los Angeles, CA. The Orange County Water District's program for water quality management has evolved progressively over the years into one of the most aggressive programs of this kind in the United States. The District's early actions were directed at the control of water quality in the Santa Ana River. More recently, the District has adopted a comprehensive eight-point groundwater protection program which is directed at closely monitoring in-basin activities and cleaning up existing poor quality or degraded groundwater quality. The eight-point program and the projects resulting from it are discussed in the latter part of this paper. To understand how the eight-point program fits into the overall operations of the District, a brief description of its other functions are included in the first portion of this paper. Robbins, G. (2002, Apr 13, 2002). Sensors to track coastal waters' changes along California coast. Knight Ridder Tribune Business News, p. 1. Scientists are preparing to place ocean sensors beneath the Newport Pier and at numerous other locations along the California coast to search for changes tied to El Nino, global warming and urban runoff. [John Largier] heads the University of California's new Network for Environmental Observation of the Coastal Ocean, which operates the seven stations. His collaborators include Brett Sanders and Stanley Grant, researchers at the University of California, Irvine, who are studying local coastal pollution. Largier said it's possible that the suite of sensors to be attached to the Newport Pier next month will detect pollution that flows south from the Santa Ana River. One sensor measures turbidity, or the amount of light filtering through the ocean. Low turbidity can be a sign that lots of urban runoff is reaching the ocean. Robert Bein William Frost & Associates, CH2M Hill inc., ASL, & Silverado Constructors. (1997). Drainage report, first runoff management plan: Eastern Transportation Corridor, Orange County, CA. Santa Ana, CA: Transportation Corridor Agencies. Rojas, M. R. (1977). Environmental impact of waste water irrigation: Heavy metals in soil water and groundwater. Unpublished Thesis (M.S.), California State University, Fullerton, Fullerton, CA. Santa Ana Regional Water Pollution Control Board. (1954). Water quality investigations: Region-wide municipal and industrial dump site study, Santa Ana Region: A report to Santa Ana Regional Water Pollution Control Board. Sacramento, CA: California Division of Water Resources. Stapp, K. A. (1995). Optimal management of groundwater basins of degraded water quality for conjunctive use. Unpublished M.S., University of California, Irvine, Irvine, CA. Toups Engineering Inc., & Santa Ana Watershed Planning Agency. (1970). Procedure for estimating future ground water quality in Lower Santa Ana River Basin: A report on Task VI-4 prepared for Santa Ana Watershed Planning Agency. Santa Ana, CA: Toups Engineering. 177 Water Resources Institute, California State University San Bernardino Vitko, T. G. (1996). Seasonal fluctuations in nutrient dynamics and constructed wetlands in Prado Basin, California. MAI, 35(01), 132. The Santa Ana River has a groundwater recharge basin that contributes to the aquifers and supplies 65 percent of the drinking water used in Orange County. The Santa Ana River below Prado Dam, in Riverside County, contains increasing concentration of nitrates. In July 1993, the concentration of NO$sb3$-N in the river was of 9.1 mg/l and it is projected to reach the drinking water quality standard of 10 mg/l in the near future, if no corrective measures are taken. Nitrates originate from historic agricultural overfertilization of crops, the dense dairy and feedlot operations in the area, as well as the treated municipal wastewaters discharged to the watercourses. This investigation evaluated the seasonal changes in dissolved inorganic nutrients at two stations for each of the three tributaries to the Santa Ana River as they enter the Prado Basin. The nutrient load was determined in each stream and was correlated with possible point and non-point nutrient sources. Chino Creek, between February and July 1993, contributed 4.6 percent of the total inorganic nitrogen (TIN) load and 8.1 percent of the total phosphate load leaving Prado Dam. Similarly, Mill Creek contributed 8.4 percent TIN and 15.7 percent PO$sb4,$ and Temescal Wash 12.1 percent TIN and 20.3 percent PO$sb4.$ Prado Basin, a natural sink for nutrients, was found to act as a mild nutrient source during the transitional spring months. Constructed wetlands, when used as a polishing component in the treatment process, can remove most of the dissolved nutrients applied, depending upon the loading and wetland hydraulic retention time. Constructed wetlands located downstream from dairy farms, feedlots, and treatment plant effluents are cost effective means of nutrient removal. VTN Corporation. (1970). Comprehensive rural Orange County water and sewerage plan (Phase I report). Irvine, CA: Author. VTN Corporation. (1971). Comprehensive rural Orange County water and sewerage plan: Phase II report: Preliminary (Preliminary). Irvine, CA: Author. VTN Southwest Inc., & Aliso Water Management Agency. (1976). Aliso Water Management Agency coastal treatment plant: Supplemental project report/draft supplemental EIR wastewater reclamation facilities. Irvine, CA: VTN Engineers Architects Planners. Williams, D. E. (1984, October 23-26, 1983). Conjunctive use and ground water management in Orange County, California. Paper presented at the NWWA Western Regional Conference on Ground Water Management: Held October 23-26, 1983, Town and Country Hotel, San Diego, California sponsored by Natl Water Well Assoc, Town and Country Hotel, San Diego, CA. 178 Santa Ana River & Watershed Bibliography 4.3 Orange County Development and Use General Information SEC actions in Orange County investigation. (1996). Government Finance Review, 12(2), 13. The US SEC announced that on January 24, 1996, the Commission brought its first enforcement actions relating to the Commission's investigation into the financial collapse of Orange County, California and the Orange County Investment Pools. Also on January 24, the Commission issued a Report of Investigation concerning the conduct of individual members of the Board of Supervisors. The enforcement proceedings concern the fraudulent offer and sale of over $2.1 billion in municipal securities issued in 1993 and 1994 by Orange County, the Flood Control District and a school district located within Orange County, which was not named in the actions. Misstatements and omissions alleged in the Commission's actions include: 1. misstatements and omissions regarding the County pools, 2. misstatements and omissions regarding the financial condition of the county, 3. misstatements and omissions regarding the tax-exempt status of the offering, and 4. misrepresentations to rating agencies. Gould, S. (1989). Orange County, its towns and cities: An annotated bibliography. Yorba Linda, CA: Shumway Family History Services. Lucero, A. M. (1996). Jeopardizing infrastructure. Orange County Business Journal, 1. The passage of Proposition 218, which requires voter approval for new (and in some cases, retroactive approval of existing) property assessments and fees, will negatively affect both our community and taxpayers. In California, local governments have provided substantially all the infrastructure and services we've come to take for granted. They include common, everyday amenities and services such as refuse collection, sewers, sidewalks, traffic lights, water, streets and drainage systems. Santa Ana. (1999). City of Santa Ana general plan (Rev. 8/99. ed.). Santa Ana, CA: Author. Santa Ana Planning Division. (1982). City of Santa Ana general plan. Santa Ana, CA: Author. Sonnie, E. (n.d.). Living in Orange County. Anaheim, CA: Anaheim City School District. Orange County History Santa Ana Valley, California, illustrated and described, showing its advantages as a place for desirable homes. (1886). Oakland, CA: W.W. Elliott. Orange County: History, soil, climate, resources, advantages. (1891). Santa Ana, CA: Board of Trade. A history of the Santa Ana Canyon: Prepared for the dedication of Yorba Regional Park. (1976). Santa Ana, CA: Orange County Board of Supervisors. Anaheim Chamber of Commerce. (1905). Anaheim, Orange County, California. Los Angeles, CA: Out West Print. 179 Water Resources Institute, California State University San Bernardino Armor, S. (1911). History of Orange County, California. Los Angeles, CA: Historic Record Co. Ashby, G. E. (1939). Study of primitive man in Orange County and its coastal areas.Unpublished manuscript, Irvine, CA. Collection comprises reports from the History of Orange County, California historical and anthropological project produced by the Works Progress Administration in Orange County, California, from 1935 to 1939. These reports provide information on the history of the Orange County area from 1769 to 1889, including an archaeological study of local Native American settlements. The collection is particularly strong in documenting politics, commerce, and the development of schools. The collection also documents land use, the ecology, water supply issues, and agricultural practices. Most of these reports are original or first carbon typescripts. Many contain original photographic prints, sketches, and maps. The collection includes Gladys E. Ashby's monograph on the Native American research findings titled A study of primitive man in Orange County and its coastal areas. Berry, R. (1989). The centennial bibliography of Orange County history. Journal of Orange County Studies(2), 41-42. Presents a prospectus for the proposed bibliography celebrating the centennial of Orange County, California, to be published by the Orange County Historical Society, that will be drawn from the holdings of 54 libraries in the county and whose focus will be publications on the history of Orange County and its communities. Brigandi, P. (1997). Orange: The city 'round the plaza (1st ed. ed.). Encinitas, CA: Heritage Media Corp. Cameron, C. (1983). Birdstones of Orange County. Masterkey, 57(2), 63-67. Determines the original locations of Indian carved-stone bird effigies from prehistoric archaeological sites in Orange County, California. Cameron, C. (1988). Birdstones and their associations. Pacific Coast Archaeological Society Quarterly, 24(4), 54-62. Birdstones, found in coastal sites in Orange County, California, and dated approximately 500 to 1500, suggest that the coastal region of Southern California remained Hokan territory long after the presumed Shoshonean influx in approximately 500. Cleland, R. G. (1952). The Irvine Ranch of Orange County, 1810-1950. San Marino, CA: Huntington Library. Cleland, R. G. (1962). The Irvine Ranch (3rd ed. ed.). San Marino, CA: Huntington Library. Cochran, M. B., & Geiger, L. J. (Eds.). (1967). Orange County's Spanish-named communities and streets. Laguna Hills, CA: Myra Bedel Cochran. Commerce, O. C. C. o. (1908). Orange County, Southern California. Los Angeles, CA: Chambers of Commerce & Improvement Associations. 180 Santa Ana River & Watershed Bibliography Daughenbaugh, J. R. (1943). An historical study of the Orange County area during the real estate boom of 1887. Unpublished Thesis(M.A.), University of Southern California, Los Angeles, CA. Demcak, C. R. (1988). Archaeological salvage investigations at Ca-Ora-129, Laguna Niguel, Orange County, California. Pacific Coast Archaeological Society Quarterly, 24(4), 1-33. Recovered artifacts at CA-ORA-129, one of three excavated sites in the Salt Creek area of Orange County in coastal Southern California, suggests a Late Horizon and possible Intermediate Horizon occupation, with generalized subsistence activities suggestive of year-round village habitation rather than specialized seasonal occupation. Demcak, C. R. (1994). Excavations at the Laguna Springs Adobe Site (Ora-13b): Stagecoach Waystation and Prehistoric Camp. Pacific Coast Archaeological Society Quarterly, 30(23), iii-vii, 1-96. Test level investigations at ORA-13B confirmed the location of the Laguna Springs Adobe, Orange County, California, whose most prominent use was as a waystation for a stagecoach line that ran from Laguna to El Toro in the 1880's and 1890's. Excavation of a historic trash deposit, which had been dug into an underlying prehistoric midden, disclosed butchered bones of sheep, cow, and pig, along with datable ceramics, both European and indigenous. Elsewhere, chunks of plaster, adobe brick, and other construction materials gave clues to the building techniques used on the adobe. The prehistoric base camp surrounding the adobe was first occupied in the 14th century and reached its peak of activity in the 17th century. Occupational refuse included shellfish remains, arrow points, and a nested mortar and pestle. The site and the adjacent Tischler Rock, a boulder with a carved inscription dated 1860, serve as an important link between prehistory and the early historic era in Orange County. Dunlap, V. (n.d.). California newspaper collection, 1848-1994 (bulk ca.1890-1960).Unpublished manuscript. This collection of scattered issues of newspapers printed in California consists of 100 Orange County titles and 161 titles from other urban, rural, and remote locations, primarily in Southern California. Significant but chronologically limited coverage can be found for papers from Los Angeles, Sacramento, and San Diego counties. The newspapers range from popular weeklies and dailies to more overtly political publications. Issues documented in these newspapers include the concerns of agricultural, seaport, mining, and industrial workers; Native Americans; political campaigns; artist communities; and the military. Coverage of the Antebellum and Civil War periods in American history is particularly strong in issues of the Daily Alta California. Also of interest is the relatively comprehensive coverage of the socialist weeklies Upton Sinclair's Epic News and Upton Sinclair's National Epic News from the 1930s, in addition to issues of Utopian News and Upton Sinclair's End Poverty. Titles range from those issued by large publishers to independents. The collection includes a small number of Spanish and German-language publications. Fairbanks, N. (1946). Diamond anniversary, First Baptist Church, Santa Ana, 1871- 1946. Santa Ana, CA: First Baptist Church. Friis, L. J. (1965). Orange County through four centuries (1st ed.). Santa Ana, CA: Pioneer Press. 181 Water Resources Institute, California State University San Bernardino Friis, L. J. (1968). When Anaheim was 21. Santa Ana, CA: Pioneer Press. Friis, L. J. (1976). John Frohling: Vintner and city founder. Anaheim, CA: Mother Colony Household. Friis, L. J. (1982). Orange County through four centuries. Santa Ana, CA: Friis-Pioneer Press. Friis, L. J., & Friis, J. J. (1983). Campo Aleman, the first ten years of Anaheim (1st ed.). Santa Ana, CA: Friis-Pioneer Press. Fritz, K. (1971). The Los Pinos site (ORA-35). Pacific Coast Archaeological Society quarterly, Vol. 7( no. 3), iv, 63. Gaskell, C. A. (1903). What's what and who's who: A handbook and directory of Orange County, California. Los Angeles, CA: Author. Gibson, R. O., & Koerper, H. C. (2000). AMS radiocarbon dating of shell beads and ornaments from Ca-Ora-378. Journal of California and Great Basin Anthropology, 22(2), 342-352. Uses accelerator mass spectrometry (AMS) dates for nine shell beads and two shell ornaments to test the application to Orange County of a temporal sequence developed for the Santa Barbara Channel region. Olivella cupped, Olivella oblique spire-removed, Olivella end-removed, Mytilus disc, Megathura small square ring, and Megathura oval ring beads-ornaments fell within time ranges predicted by the bead-ornament chronology developed by Chester King (1981, 1990) for the Chumash area. Olivella biplicata barrels and caps seem not to have been occurrences of King's Late Middle or Late periods in Orange County, but rather there appears to have been a switch to Gulf of California Olivella dama shells for local barrel and cap manufacture. Gibson, W. D. (1975). The Olive Mill: Orange County's Pioneer Industry. Orange County Historical Society of Southern California. Gonzalez, G. G. (1989). "The Mexican has played the role of . . . atlas": Mexican communities in Orange County, 1850-1950. Journal of Orange County Studies(3-4), 19-27. Reviews the history of Mexican communities in Orange County, California, focusing on the period 1900-40, when the Mexican population expanded after it had almost disappeared during 1850-1900. Gould, S. (1989). Orange County before it was a county (Centennial ed.). Tustin, CA: Western Association for the Advancement of Local History. Griffiths, E., Sir. (2001). A German immigrant who helped make Orange County bloom. Orange, CA: Chapman University Press. Grimshaw, M. A. (1937). The history of Orange County, 1769-1889. Unpublished Thesis (M.A.), University of Southern California, Los Angeles, CA. Hallan-Gibson, P. (1986). The golden promise: An illustrated history of Orange County. Northridge, CA.: Windsor Publications. 182 Santa Ana River & Watershed Bibliography Howard, H., & Barnes, L. G. (1987). Middle Miocene marine birds from the foothills of the Santa Ana Mountains, Orange County, California: n.p. Koerper, H. C. (1981). Prehistoric subsistence and settlement in the Newport Bay area and environs, Orange County, California. University of California, Riverside, Riverside, CA. Koerper, H. C., Earle, D. E., Mason, R. D., & Apodaca, P. (1996). Archaeological, ethnohistoric, and historic notes regarding Ora-58 and other sites along the lower Santa Ana River drainage, Costa Mesa. Pacific Coast Archaeological Society Quarterly, 32(1), 1-36. Excavations at ORA-58, known as the Banning-Norris site, on Newport Mesa reveal an immense research potential for a site that is scheduled to be preserved/protected by capping with sterile dirt. This research potential is reflected by the great variety of unusual artifacts spanning Milling Stone to Late Prehistoric times. Ethnohistoric evidence suggests that ORA-58 and other nearby village-sized sites were probably centered within the territorial "orbit" of the 19th-century rancheria of Genga and that Lukup, the village thought by some to be located on Newport Mesa, was probably located elsewhere. Koerper, H. C., & et al. (1992). Jasper procurement, trade, and control in Orange County: Comments and observations. Journal of California and Great Basin Anthropology, 14(2), 237-246. Examines the question of prehistoric procurement, trade, and control of jasper artifacts at the Tomato Springs site in Orange County, California, concluding that jasper was a local product and that Tomato Springs people played minor to moderate roles in regional trading networks that quite possibly did not include local jasper. Koerper, H. C., & Hedges, K. (1996). Patayan anthropomorphic figurines from an Orange County site. Journal of California and Great Basin Anthropology, 18(2), 204-220. Southern Tradition anthropomorphic figurines found at the Banning-Norris site (CAORA-58) in Orange County, California, exhibit stylistic elements reflecting Hohokam and possibly Prescott influences. These Lower Colorado Buff Ware artifacts may have accompanied Mojave entrepreneurs involved in a textiles-for-shells commerce with the Gabrielino and the Chumash. The presence of 12 fired-clay anthropomorphs at CA-ORA58 suggests a trade route along the Santa Ana River leading directly to Newport Mesa. These specimens lend support to the hypothesis that CA-ORA-58 was the important coastal village of Genga. 183 Water Resources Institute, California State University San Bernardino Koerper, H. C., Prior, C., Taylor, R. E., & Gibson, R. O. (1995). Additional accelerator mass spectrometer (Ams) radiocarbon assays on Haliotis fishhooks from Ca-Ora-378. Journal of California and Great Basin Anthropology, 17(2), 273-279. Accelerator mass spectrometer (AMS) radiocarbon assays of materials from the Christ College site (CA-ORA-378) near Irvine, California, confirm that shell fishhook and line fishing were features of early Late Holocene and Intermediate Cultures period subsistence technology in coastal Orange County. Other data support a similar development of coastal line fishing in southern and central California beginning no earlier than the third millenium BP. However, limited data from San Clemente Island suggest shell fishhooks were employed prior to that time. The authors suggest that AMS dating be applied to San Clemente Island fishhooks to help clarify the relationship of the island data with established fishhook sequences for Orange County and other parts of California. Koerper, H. C., Schroth, A. B., & Mason, R. D. (1994). Morphological and temporal projectile point types: Evidence from Orange County, California. Journal of California and Great Basin Anthropology, 16(1), 81-105. Examines the problems of using Great Basin and Mojave Desert atlatl dart points to develop point chronologies in coastal Orange County, Southern California. Koerper, H. C., Schroth, A. B., Mason, R. D., & Peterson, M. L. (1996). Arrow projectile point types as temporal types: Evidence from Orange County, California. Journal of California and Great Basin Anthropology, 18(2), 258-283. Addresses issues of arrow projectile morphology, chronometrics, and time-space systematics for coastal Southern California using data from the Newport Coast Archaeological Project and the Cypress College Archaeology Program. These data suggest temporal covariation within the Cottonwood series, with the floruit of the Leafshaped type preceding that of the triangular forms, but the data do not support the hypothesis that Cottonwood Triangular basal configurations are time sensitive. Early Cottonwood Triangular and Leaf-shaped point forms in coastal Southern California may have evolved as smaller versions of atlatl morphological types found on the coast, possibly preceding the appearance of the Cottonwood series in the Great Basin. Sonoran series points in Orange County appear to date no earlier than the latter half of the late prehistoric period and offer evidence of a link between the Hohokam culture and the coast. Langenwalter, P. E. (1985). Phase II archaeological studies Prado Basin and the lower Santa Ana River. Cypress, CA: ECOS Management Criteria, Inc. Lee, E. K. (Ed.). (1973). Newport Bay: A pioneer history. Fullerton, CA: Newport Beach Historical Society. Lippincott, J. B. (1921). Preliminary report to the Yorba Linda Water Company. n.p. Concerns the present force mains from the main pumping plant in the Santa Ana River to Reservoir #1. 184 Santa Ana River & Watershed Bibliography Macko, M. E. (1988). Archaeological survey report: Results of cultural resources stage I investigations for the San Joaquin Hills Transportation Corridor (Supplement). Santa Ana, CA: Orange County Environmental Management Agency. Macko, M. E., & Weil, E. B. (1986). Archaeological survey report: Results of cultural resources stage I investigations for the San Joaquin Hills Transportation Corridor. Santa Ana, CA: Orange County Environmental Management Agency. Marsh, D. (1994). Santa Ana: An illustrated history (2 ed.). Encinitas, CA: Heritage Publishing Company. McPherson, W. (1932). Spanish and Mexican land grants of Orange County. Santa Ana, CA: Fine Arts Press. Meadows, D. (1966). Historic place names in Orange County. Balboa Island, CA: Paisano Press. Meadows, D. (1966). Orange County under Spain, Mexico and the United States. Los Angeles, CA: Dawson's Book Shop. Milkovich, B. A. (1995). Townbuilders of Orange County: A study of four Southern California cities, 1857-1931. University of California Riverside, Riverside, CA. Miller, E. J., Costa Mesa Historical Society, & The SAAAB Wing. (1989, 1981). The SAAAB story: The history of the Santa Ana Army Air Base (Centennial ed.). Santa Ana, CA: TriLevel. Municipal Water District of Orange County. (1900-). Annual report. Tustin, CA: Author. Munsell, R. G. (1976). Response to Mitch Modelski, "Twelve lanes across the ridge?" In O. C. P. Commission (Ed.) (pp. [13] leaves in various foliations). Santa Ana, CA: County of Orange. National Archives. (18??). California private land claim, Docket 578. File relating to the Rancho Santiago de Santa Ana.Unpublished manuscript. Orange County. (1919). Orange County...and the...Santa Ana Valley, Southern California. Santa Ana, CA: Chamber of Commerce. Orange County Associated Chambers of Commerce. (1897). Orange County, Southern California...A plain statement of resources and attractions to homeseekers [booklet]. Orange, CA: Orange News Print. Orange County Associated Chambers of Commerce. (1907, 1907). Spring eternal in Orange County, California. West Coast Magazine, 32. Orange County California Genealogical Society. (1969). Saddleback ancestors. Orange, CA: Author. Orange County California Genealogical Society. (1969). Saddleback ancestors: Rancho families of Orange County, California. Orange, CA: Author. 185 Water Resources Institute, California State University San Bernardino Orange County Chamber of Commerce. (1898). Orange County and the Santa Ana Valley, Southern California. Santa Ana, CA: Author. Orange County Historical Project. (1937). Domestic water supply, Indian to American period (WPA project No. 3105). San Francisco, CA: Coordinator of Statistical Projects, Works Progress Administration. Orange County Historical Society. (1931). Orange County History Series (Vol. Vol. 1, 2). Santa Ana, CA: Gine Arts Press. Orange County Historical Society. (1939). Orange County History Series (Vol. No. 3). Santa Ana, CA: Dennis Printers. Orange County Title Company. (1931). Santa Ana: From the days of the Dons. Santa Ana, CA: A. G . Flagg Print. Orange County Water District. (1900-). Orange County Water District: Annual report (Annual). Fountain Valley, CA: Author. Osterman, J. (1993). Under old Saddleback: A vanishing valley & its people. Californians, 11(2), 8-17. Profiles the Saddleback Valley in Orange County, California, from its Indian inhabitants through the succession of Spanish and Mexican rancho owners, American homesteaders, and final establishment of such urban areas as El Toro. Parker, C. E., & Parker, M. (1963). Orange County: Indians to industry. Santa Ana, CA: Orange County Title Co. Pleasants, M. J. E. (1931). History of Orange County, California (Vol. 3 volumes). Los Angeles, CA: J . R . Finnell & Sons, Historic Record Co. Pritchard, R. L. (1968). Orange County during the depressed thirties: A study in twentieth century California local history. Historical Society of Southern California Quarterly,, 50(2), 16. The traumatic experience of the Great Depression of the 1930's shook the traditionallV conservative faith of the people of Orange County, California, but failed to alter it fundamentally. The emphasis on self-reliance and individualism waned somewhat but was not abandoned as Orange County citizens sought to interpret the Depression and the New Deal program in terms of their conservative philosophy. Many concluded that the changes wrought by the Depression required the temporary expansion of the Federal Government's role and they therefore supported the New Deal and the Democratic Party. But when the New Deal shifted leftward after 1936 and as economic conditions improved, they ceased to support the Democrats and the traditional conservatism which had characterized the people of the county reasserted itself stronger than ever. Based on Orange County histories, public documents, and newspaper files: 41 notes. Roberts, C. E. (1936). Adobes of Orange County California (WPA Project No. 3105). Santa Ana, CA: Federal Writers' Project, Work Projects Administration. 186 Santa Ana River & Watershed Bibliography Roberts, C. E. (1937). Orange County historical research (W.P.A. project No. 3105). Santa Ana, CA: Coordinator of Statistical Projects, Works Progress Administration. Robinson, W. W. (1952). The old Spanish and Mexican ranchos of Orange County. Los Angeles, CA: Title Insurance and Trust Company. Robinson, W. W. (1964). Old Spanish & Mexican Ranchos of Orange County. Santa Ana, CA: Title Insurance and Trust Company. Rocks, D. T. (1971). A contribution towards a bibliography of Orange County, California, local history, together with a checklist of the publications of the Fine Arts Press of Santa Ana, California. (1st ed.). Santa Ana, CA: Fine Arts Press. Santa Ana (Calif.). (1952). City of Santa Ana, California. Los Angeles, CA: Griffenhagen & Associates. Santa Ana Valley Irrigation Company. (1910). Articles of incorporation and by-laws of the Santa Ana Valley Irrigation Company: As proposed amended 1910.Unpublished manuscript, Orange, CA. Santa Ana Valley Irrigation Company, & Billingsley, R. (1896). Articles of incorporation and bylaws of the Santa Ana Valley Irrigation Company: As amended to Nov. 28, 1896; with rules and regulations established by its board of directors.Unpublished manuscript, Orange, CA. Santa Ana Valley Irrigatrion Company, & Billingsley, R. (1899). Articles of incorporation and by-laws of the Santa Ana Valley Irrigation Company: As approved by its Board of Directors and submitted to the stockholders for adoption.Unpublished manuscript, Orange, CA. Serrano, M. Y. M. (1968). Orange County during the Spanish Period. Los Angeles, CA: Dawson's Book Shop. Slayton, R. A., & Estes, L. L. (1988, Oct. 28- 29, 1988). Proceedings of the conference of Orange County history 1988. Paper presented at the Orange County History, Chapman College, Orange, CA. 187 Water Resources Institute, California State University San Bernardino Sleeper, J. D. (1967). Portrait of a small town: Eighty years of progress in Irvine, California. Journal of the West, 6(4), 604-620. Irvine, in Orange County, California, began in April 1887 when the estate of James Irvine deeded to the Santa Fe Railroad a depot site and right-of-way across the San Joaquin Rancho. Trains do not stop today in this community of 41 permanent residents, but it is not a town without a history. The author traces the development of the community as a shipping point for the agricultural products of the area. He recounts the development of the school system which became the center of the social and cultural life of the small community. Bypassed by major highways, the unincorporated town has been likewise bypassed by progress. It remains what it has always been, a sleepy, peaceful community. Sleeper, J. D. (1971). Jim Sleeper's 1st Orange County almanac of historical oddities. Trabuco Canyon, CA: Ocusa Press. Slife, M. W. (1968). Streams to aqueducts the development of the Orange County water supply. Unpublished Thesis (M.A.), California State College at Fullerton, Fullerton, CA. Smith, T. A. (1995). Uncovering a sense of place: The Interaction between culture and landscape in Santa Ana Canyon, Orange County, California. MAI, 34(01), 135. This thesis analyzes the complex geographical and social history of the Santa Ana Canyon in Orange County, California. The many gaps that exist in the record of Native American and Hispanic contributions to the region are uncovered in contrast to the nostalgic view commonly portrayed in California history. Such canyon communities as Yorba, Peralta, Olive, and Atwood are examined as social entities hidden by urban development and the influx of Anglo-American culture. Using the "sequent occupance" approach, this study reveals how a natural river valley became an extensive cattle range, then turned into a vast citrus orchard. After World War II, people inundated the canyon, transforming its agricultural identity into an urban one. The little-documented history of Native American and Hispanic community members was uncovered through census records, interviews, historic buildings, and cemetery records. This study stresses the importance of recovering a lost sense of place. Stanley, J. J. (1990). Behind the masks: Law and culture in Orange County, California, 18701907. Unpublished M. A., California State University Fullerton, Fullerton, CA. Stephenson, T. E. (1913). Orange County; The biggest little county on earth. Santa Ana, CA: Santa Ana Daily Register. Stephenson, T. E. (1930). Caminos Viejos: Tales found in the history of California of especial interest to those who love the valleys, the hills and the canyons of Orange County, its traditions and its landmarks. Santa Ana, CA: Press of the Santa Ana High School & Junior College. Swanner, C. D. (1965). 50 years a barrister in Orange County. Claremont, CA: Fraser Press. Tainter, J. A. (1971). Climatic fluctuations and resource procurement in the Santa Ynez Valley. Pacific Coast Archaeological Society quarterly, Vol. 7(no.3). 188 Santa Ana River & Watershed Bibliography Talbert, T. B. (1952). My sixty years in California: Memoirs of pioneer days of Long Beach; Drainage of Talbert District and of the Lower Santa Ana Valleys; Development of Orange County institutions; County Farm and Hospital, Irvine Park, highway system; Orange County coast, Bolsa Chica, Huntington Beach, and Newport Harbor. Huntington Beach, CA: Huntington Beach News Press. Talbert, T. B. (1963). The historical volume & reference works...Orange County. Whittier, CA: Historical Publishers. Trussell, H., & KOCE-TV (Writer) (1992). Nature's most precious resource: The story of Orange County water. The river of life -- Our growing thirst -- The next generation of water [videorecording]. Huntington Beach, CA: KOCE-TV Foundation. Tubbs Family, & Tubbs, M. L. (Artist). (1882). Tubbs family photographs [Photographs]. Collection consists of 67 photographs (albumen and silver gelatin prints) documenting Orange County cities, Santa Catalina Island, coastal and surrounding areas, and Tubbs family events and homes. Many of these photographs were taken in Avalon, Laguna Beach, Santa Ana, and Tustin. This collection also contains photographs of the San Juan Capistrano, San Luis Rey, and Santa Barbara missions in Southern California. Two photographs show the opening of the Santa Ana Valley Irrigation Company's (SAVI) siphon in Olive in 1892. VanHorn, D. M. (1986). The Hoopaugh Site (Ora-507), a prehistoric quarry in the foothills of the Santa Ana Mountains. Pacific Coast Archaeological Society Quarterly, 22(1), 1-21. Excavations at the Hoopaugh site in Orange County, California, show that the site was exploited by prehistoric Indians as a source of chert used for the production of chipped stone implements. Walker, H. (1928). The conflict of cultures in first generation mexicans in Santa Ana, California. Unpublished Thesis (M.A), University of Southern California, Los Angeles, CA. 189 Water Resources Institute, California State University San Bernardino Warner, W. H. (1939-1963). Willis H. Warner papers.Unpublished manuscript, Irvine, CA. This collection documents the activities of Willis H. Warner, as well as the activities of the Board of Supervisors and numerous Orange County governmental units from the 1930s through the 1960s. The collection also contains personal materials, including the records of Warner's business, the Warner Hardware Store (Huntington Beach, California), and materials documenting his prolific career in the public sector working for the Westminster Drainage District, the Beach Protective Association of Huntington Beach, and other Orange County public institutions and political organizations. The bulk of the materials in this collection document a wide-range of political, economic, and social issues affecting Orange County, reflected in the activities of the various County agencies and departments. Some of the significant topics represented in these files are airport development; environmental issues such as air and water pollution, beach erosion, and shoreline development (including reports by consulting engineer R.L. Patterson); civil defense; county finances; employment; fire programs; land use and planning; freeway and highway development; county buildings; correctional facilities; parks and recreation; oil drilling; public health and hospitals, particularly the Orange County General Hospital; publicity and tourism; schools and school districts; and welfare and public works programs. The largest group of these files document the activities of the Flood Control, Sanitation, and Water Districts, which were of great interest to Warner. Webber, L. P. (1870). Prospectus of Westminster Colony, Los Angeles County, California. In J. S. Hittell (Ed.), All about California and the inducements to settle there (pp. 64). San Francisco, CA: California Immigrant Union. Wieman, W. W. (1938). The separation of organization of Orange County. Unpublished Thesis (M.A.), University of Southern California, Los Angeles, CA. Orange County Settlement Paved state and county highways in Orange County, California (Cartographer). (1916). [1 map : col. ; 49 x 38 cm., folded to 15 x 9 cm.]. Report of Orange County Water Committee. (1939). n.p.: Orange County California Board of Supervisors. Subcommittee hearing on H.R. 263, to authorize the Secretary of the Navy to grant to the County of Orange, Calif., a perpetual easement for the maintenance and operation of a public highway, and to grant to the Irvine Co., a corporation, a perpetual easement for the maintenance, operation, and use of a water pipe line, in the vicinity of the naval air base, Santa Ana, Orange County, Calif, U.S. Congress. House Committee on Armed Services, Subcommittee No 1 2233-2236 (1949). Transcript of hearing, Newport Beach, Calif., September 16-19, 1957 Public Utilities Commission decision no. 52856, certification of land in Orange County to single supplier of water, Calif. Water Co., California State Senate Special Committee on Governmental Administration (1957). Facilities for groundwater replenishment and for distributing Colorado River water (Cartographer). (1960). [1 map]. 190 Santa Ana River & Watershed Bibliography California freeway and expressway system, Orange County (Cartographer). (1968). [1 map]. Orange County land and water use study, 1970 (Cartographer). (1970). [maps]. Orange, Cal. and its surroundings: Illustrated and described, showing its advantages for homes (Reprint of the l886 ed. published by W. W. Elliott, Oakland, Calif). (1975). Orange, CA: Friends of the Orange Public Library. Orange County Water District. (1976). Fountain Valley, CA: Orange County Water District. Master plan of arterial highways: A component of the circulation element of the Orange County general plan. (1978). Santa Ana, CA: County of Orange. Orange County popular street atlas (Cartographer). (1981). [1 atlas (vi 151 p. in various pagings)]. Surface transportation needs: Orange County, California: Hearing before the Subcommittee on Surface Transportation of the Committee on Public Works and Transportation, House of Representatives, Ninety-seventh Congress, first session, November 23, 1981 at Santa Ana, Calif, 97th U.S. Congress. House, 1st Sess. iii, 61 p. (1982). Orange County street atlas and directory (Cartographer). (1984). [1 atlas (1 v. (various pagings))]. Two Orange County pioneer families. (1985). Western States Jewish History, 17(4), 308-314. Chronicles the achievements of the Polish immigrant Mendelson and Davis families as early Jewish settlers of Orange County, California. San Joaquin Hills Transportation Corridor Agency financing plan. (1990). n.p.: San Joaquin Hills Transportation Corridor Agency. Orange County votes commuter funds. (1992). Railway age, 193(5), 21-21. Orange County uses groundwater study for GIS. (1996). The American City & County, 111(7), 44. In 1992, the Orange County Water Authority (OCWA) in New York launched its countywide groundwater resources study, which includes: 1. existing groundwater information, 2. an inventory of existing and proposed groundwater supplies, 3. estimates of water demands to the year 2020, and 4. an inventory of existing and potential groundwater contamination sites. The study showed that the development of existing and new groundwater supplies across the county will be sufficient to meet the county's water demands for at least 25 years into the future. At the inception of the study, county officials decided the information would become the basis of a comprehensive GIS for a number of county agencies and departments. OCWA selected the Auto-CAD system, which will run on a personal computer platform. 191 Water Resources Institute, California State University San Bernardino Road to the future: Construction of the San Joaquin Hills Transportation Corridor, winner of the 1997 ASCE Outstanding Civil Engineering Award of Merit, resulted from one of the most successful public/private partnerships in California. (1997). Civil engineering, 67(7), p. 40-41. Orange County to quench thirst, replenish groundwater. (1998). American Water Works Association Journal, 90(8), 12. Orange County Transportation Authority and light rail planning: Report of the Orange County Grand Jury, May 27, 1999. (1999). Santa Ana, California: California Grand Jury. The I-5 North Improvement Project's public awareness campaign. (Vol. 1, issue 3)(2001). Drop in water level points to severe drought in Orange County, Calif., area. (2002, Sep 24, 2002). Knight Ridder Tribune Business News, p. 1. The Orange County Water District experts say the overdraft, which comes to 411,000 acre-feet, is not enough to bring serious consequences just yet. The county has seen lower levels, including a record overdraft of 700,000 acre-feet in 1956. The overdraft means water is being removed from the aquifer faster than it is being replenished. Normally during dry years, the district does not like to exceed a a deficit of 200,000 acre-feet. (An acre-foot of water is enough to supply two single-family homes for a year.) The Metropolitan Water District, which provides more than half of the water consumed in Southern California, will pump 90,000 to 100,000 acre-feet of water into Orange County's aquifer by year's end to help with the problem, MWD officials said. Irvine Co. proposes alternative to Riverside, Calif. freeway. (2002, Jul 10, 2002). Knight Ridder Tribune Business News, p. 1. At the suggestion of a congressman, the Irvine Co. agreed to meet with officials from Riverside County twice. At the conclusion of the second meeting, an Irvine Co. transportation planner, John Boslet, suggested that using the parallel railroad corridor might work. Q: Why is the Irvine Co. so interested in adding a second freeway linking Riverside and Orange counties? A: [Daniel Miller], an Irvine Co. vice president, said it benefits the county's economy and the Irvine Co.'s current and future developments to have traffic flow smoothly between the two counties. Garden Grove area, Orange County, California: Showing property ownerships (Cartographer). (n.d.). [1 map]. Anaheim Development Services Department. (1971). Analysis of Huntington Beach (Route 39) freeway (Summary report). Anaheim, CA: Author. Anaheim Planning Dept. (1984). City of Anaheim general plan. Anaheim, CA: City of Anaheim Planning Dept. Anaheim Planning Dept. (1984). Housing element, city of Anaheim. Anaheim, CA: City of Anaheim Planning Dept. 192 Santa Ana River & Watershed Bibliography Anderson, D. R., & P & D Technologies. (1991). Technical memorandum TM-4-14: Irvine Agricultural Headquarters alignment alternatives, Eastern Transportation Corridor (TCA EIR/EIS 2., revised July 1991). Costa Mesa, CA: Foothill/Eastern Transportation Corridor Agencies. Automobile Club of Southern California Map Drafting Department (Cartographer). (1975). Orange County: A comprehensive guide to streets, freeways, recreation, points of interest, cities & communities Automobile Club of Southern California MICS Department (Cartographer). (2001). Orange County : Including Anaheim, Buena Park, Fullerton, Huntington Beach, Irvine, Laguna Beach, San Clemente, Santa Ana [1 map]. Bady, S. (2002). Got water? Builder, 3. Bailey, P. (1946). Water supply of Orange County. n.p.: Orange County Water District. Bein, R. (1988). Conceptual design report: San Joaquin Hills Transportation Corridor: Jamboree Road to El Toro Road. n.p.: William Frost & Associates. Berkstresser, C. F. (1968). Data for springs in the Southern Coast, Transverse, and Penunsular ranges of California (Open-file report). Menlo Park, CA: U.S. Geological Survey, Water Resources Division. Black & Veatch. (1991-). California water charge survey (Biennial). Irvine, CA: Authors. BonTerra Consulting. (1998). Crown Valley Parkway bridge crossing the Arroyo Trabuco (Draft environmental impact report No. 97111032). Santa Ana, CA: County of Orange Planning and Development Services Dept. Bookman, M. (1959). News release regarding increased water use in Orange County. Sacramento, CA: California Dept. of Water Resources,. Boyle Engineering Corporation. (1959). Engineering analysis of alternate proposals for Colorado River water supply to Tri-Cities Municipal Water District. San Diego, CA: Author. Boyle Engineering Corporation. (1960). Engineering report upon water transportation facilities required for supplemental Colorado River water supply to El Toro Water District. San Diego, CA: Author. Boyle Engineering Corporation. (1961). Engineering report upon water transportation facilities required for supplemental Colorado River water supply to Irvine Ranch Water District. San Diego, CA: Author. Boyle Engineering Corporation. (1973). Water facilities for East Orange area, for City of Orange, and East Orange County Water District: Engineering report. Santa Ana, CA: Author. Boyle Engineering Corporation. (1974). Feasibility report, East Orange County feeder no. 2 Santiago Aqueduct intertie. Santa Ana, CA: Municipal Water District of Orange County. 193 Water Resources Institute, California State University San Bernardino Brennan, P. (2002, October 9, 2002). Aquifer project abandoned in Orange County, California. Knight Ridder Tribune Business News, p. 1. A: The project faced stiff opposition from environmental activists and Sen. Dianne Feinstein, D-Calif., who feared it would cause ecological disruption in the fragile desert environment. But board members who opposed the plan said they did not believe Cadiz was in good financial shape. They also said a severe drought would likely reduce the amount of Colorado River water available to California as soon as next year. That might have left too little water to store in the Cadiz aquifer, making the plan too expensive. A: Experts said Tuesday there were not likely to be immediate effects on Orange County. But questions about how to deal with anticipated reductions in water supplies prompted consideration of the Cadiz deal in the first place. Without careful planning, such reductions could one day result in higher water rates in Orange County, which buys some of its water from Metropolitan. Brennan, P. (2003, May 28, 2003). Utility urges Orange County, Calif., gardeners to use lessthirsty plants. Knight Ridder Tribune Business News, p. 1. The Metropolitan Water District, the region's wholesaler for imported water, wants to change all that. Native plants consume far less water than the thirsty lawns and leafy trees typically planted by Southern Californians. And that will become more important as the population continues to boom and water supplies continue to tighten. California Department of Tranportation District 7 Public Transportation Branch. (1982). The South Orange County to Los Angeles commuter rail report. n.p.: Caltrans. California Department of Transportation. (1995). Initial study/environmental assessment Tustin Branch Trail Project from Irvine Blvd to Santa Ana River Trail. n.p.: Department of Transportation. California Department of Transportation, & United States Department of Transportation. (1989). Improvements on Orange Freeway (Route 57) between the Santa Ana Freeway (I-5) and the Los Angeles County line: Initial study environmental assessment. n.p.: California Department of Transportation. California Department of Transportation, & United States Federal Highway Administration. (1987). Proposed widening of Route 5 (Santa Ana Freeway) and reconstruction of interchanges between Route 405 and Newport Avenue in the cities of Irvine, Tustin, and the unincorporated area of Orange County (Final environmental impact statement No. FHWA-CA-EIS-86-01-F). Sacramento, CA: California Dept. of Transportation. California Department of Water Resources. (1959). Orange County land and water use survey, 1957 (Department of Water Resources Bulletin No. 70). Sacramento, CA: Author. California Department of Water Resources. (1967). Orange County land and water use survey, 1964 (Department of Water Resources Bulletin No. 70-64). Sacramento, CA: Author. California State Polytechnic University Pomona School of Environmental Design Urban Planning Dept. (1974). Pomona Valley Housing Agency: Administrative design for a regional housing agency. Pomona, CA: Author. 194 Santa Ana River & Watershed Bibliography California Transportation Corridor Agencies. (1988). Engineering implementation of aesthetics for the San Joaquin Hills Transportation Corridor (Supplement to EIR 494). Santa Ana, CA: Author. California Transportation Corridor Agencies. (1992). Final environmental impact report/TCA EIR 4: Ford Road extension and realignment : response to comments (Final environmental impact report No. 91061040). Santa Ana, CA: Transportation Corridor Agencies. Capelle, D. G. (1989). A transitway development program for Orange County. Washington, DC: American Public Transit Association. Carey, G. G. (1997). From hinterland to metropolis: Land use planning in Orange County, California, 1925-1950. University of California, Riverside, Riverside, CA. Chacon, R. (2002, March 4, 2002). New report says southern California has enough water for 20 years. Knight Ridder Tribune Business News, p. 1. Under agreements worked out under the Clinton administration, the district is entitled to 550,000 acre-feet a year from the Colorado River, although historically it has taken at least an additional 600,000 acre-feet in surplus water to fill its Colorodo River aquaduct to capacity. In 2000, the district imported 1.35 million acre-feet. The report was spurred by the passage of two state laws this year that prohibit residential development unless the local provider demonstrates adequate water is available. Cho, A. (1999). Superhighway is the big show in California entertainment corridor: Orange County's I-5 gets a complete $1.1 billion makeover. 243(22), p. 48-49. City of Chino Hills Community Development Dept. (1998). Draft environmental impact report for the Walnut Glen Mixed Used Development (Previously referred to as Wild Oak Ridge) and Loop 1 Roadway extension of Soquel Canyon Parkway and Peyton Drive (Draft EIR No. 98-10). Chino Hills, CA: Community Development Dept. Programs of the State Department of Water Resources in Orange County Presented before the Water Subcommittee, Water and Flood Control Committee, Orange County Associated Chambers of Commerce, Anaheim, California, July 21, 1965, Orange County Associated Chambers of Commerce 19 p. (1965). County of Orange Environmental Management Agency. (1988). San Joaquin Hills Transportation Corridor : Draft : Executive summary. Santa Ana, CA: Author. County of Orange Environmental Management Agency, & Transportation Corridor Agencies of Orange County. (1988). San Joaquin Hills Transportation Corridor (Draft). Santa, Ana, CA: County of Orange Environmental Management Agency. County of Orange Harbors Beaches and Parks District. (1972). Parks acquisition report: Prepared at the request of Orange County Board of Supervisors. Newport Beach, CA: Orange County Board of Supervisors. 195 Water Resources Institute, California State University San Bernardino Crooke, H. W. (1967, June 26). Orange County's feelings regarding its position on the Santa Ana River and a review of the application of Orange County Water District Pump Tax Program. Paper presented at the Upper Santa Ana River Water Coordinating Council, National Orange Show Grounds, San Bernardino, CA. Crooke, H. W. (1967). Planning and providing an adequate supply of water for Orange County, California. Santa Ana, CA: Orange County Water District. Dames & Moore. (1966). Progress report, preliminary evaluation of existing data, ground water supply for Tri-Cities Municipal Water District. Orange, CA: Tri-Cities Municipal Water District. del Carpio, J. M. (1979). Preliminary evaluation of State Water Project Ground Water Storage Program: Orange County Basin (No. 1610-11-J-1). Los Angeles, CA: California Dept. of Water Resources, Southern District. Deloitte Haskins & Sells. (1986). Analysis of alternatives for extending State Route 57 along the Santa Ana River to Interstate 405 (Final). Santa Ana, CA: Orange County Transportation Commission. Dent, R. A. (1967). Orange County urban unit water use study. n.p.: State of California, Department of Water Resources, Southern District Planning Branch. DeSena, M. (1999). News watch - Orange County Water District Retains 'AA' - Credit rating success attributed to supply-side approach. Water environment & technology, 11(6), 3. DHS Transportation Forum. (1999). Comments: Draft environmental impact statement/environmental impact report for the Orange County Centerline Project, Orange County, California. Orange, CA: Author. Diemer, R. B. (1936). Distribution system for Orange County (Report No. 714). Los Angeles, CA: Metropolitan Water District of Southern California. Diemer, R. B. (1959, December 2,). Water for Orange County. Paper presented at the Orange County Water Symposium, Disneyland Hotel, Anaheim, CA. Donaldson, S. E., & Myers, W. A. (1989). Rails through the orange groves: A centennial look at the railroads of Orange County, California. Glendale, CA: Trans-Anglo Books. Donaldson, S. E., & Myers, W. A. (1991). Errata and footnotes for rails through the orange groves, volumes I & II (Revised, Fall 1991 ed.). Glendale, CA: Trans-Anglo Books. Drago, J. (1989). Face-lift: After nearly 40 years of pounding, Interstate 5 through Orange County undergoes a major overhaul: n.p. Elliott, G. A. (1932). Report on the effect of conservation through spreading of Santa Ana River water in the San Bernardino Valley on the water supply of Orange County. San Francisco, CA: Orange County Board of Supervisors,. Fares, G. B. (1997). ITS joint operations and decision support system, Orange County. Paper presented at the ITE District 6 50th annual meeting, Salt Lake City, UT. 196 Santa Ana River & Watershed Bibliography Feng, M. Q., Kim, D.-K., & California Dept. of Transportation. (2001). Long-term structural performance monitoring of two highway bridges: The report to the California Department of Transportation: Phase I: Instrumentation. Irvine, CA: Dept. of Civil and Environmental Engineering, University of California, Irvine. Fine, H. (1990). OC expected to escape statewide water shortage. Orange County Business Journal, 12(45), 3. In the carefully manicured neighborhoods of Santa Barbara, residents are now forbidden from watering their lawns. New photos of the dreaded "DroughtPatrol" cops have circulated around the country, making other California residents fearful the same fate awaits them. "We are on the edge of a real disaster," said Metropolitan Water District planner Tim Quinn. "Three of the last four years have been critically dry throughout the state, and that's the first time that has happened this century." (excerpt) Fluetsch, T. S., Tata, I., & Thorson, M. R. (1988). Who pays the impact fee?: An empirical study of the economic effects of development impact fees. Philadelphia, PA: Wharton School. Fonley, J. V. (1952). Olive sanitary survey. Berkeley, CA: State of California, Dept. of Public Health, Bureau of Sanitary Engineering. Fonley, J. V. (1953). El Modeno (Orange County) sanitary survey. Berkeley, CA: State of California, Dept. of Public Health, Bureau of Sanitary Engineering. Foothill and Eastern Transportation Corridor Agency, & Reddick, P. B. (1988). Eastern transportation corridor, phase II-draft environmental impact report no. 45, route location study (Draft EIR No. 451). Irvine, CA: Phillips, Brandt, Reddick, Inc. Friends of Irvine Coast, & Laguna Greenbelt. (1978). Open space and recreation plan for the proposed wilderness park and resource conservation area: A joint presentation. Newport Beach, CA: Authors. Gildersleeve, D. C. (1965). Residential unit water use survey, Rossmoor Tract, Orange County, for the period April 1960-April 1962. Los Angeles, CA: State of California, Dept. of Water Resources, Southern District. Gould, S. (1989). The effect of the railroads on the development of Santa Ana and Tustin (Centennial ed.). Yorba Linda, CA: Shumway Family History Services,. Greenwood and Associates, & P & D Technologies. (1991). Historic property survey report. Costa Mesa, CA: Foothill/Eastern Transportation Corridor Agencies. Greenwood and Associates, & P & D Technologies. (1992). Historic property survey report (draft environmental impact report/environmental impact statement No. TCA EIR/EIS 2). Costa Mesa, CA: Foothill/Eastern Transportation Corridor Agencies. Gruen Associates. (1979). San Joaquin Hills transportation corridor route location study (study report phase I : draft Environmental impact report No. 267). Santa Ana: Orange County Environmental Management Agency. Gruen Associates, & LSA Associates. (1986). Foothill/Eastern/I-5 bottleneck analysis (Final report). n.p.: Orange County Transportation Commission. 197 Water Resources Institute, California State University San Bernardino Harding, S. T. (1933). Report on water supply of Orange County, California in relation to farm loans by Federal Land Bank: n.p. Harding, S. T. (1933). Water supply of Orange County in relation to Federal Land Bank loans: n.p. Harloe, B. (1979). Early railroads in Orange County. Pacific Historian, 23(3), 43-49. The building of the early railroads into Orange County, California, and connecting with Los Angeles and surrounding areas determined the growth and lines of development for the area. The Southern Pacific was followed by the Achison, Topeka, and Santa Fe Railroad, and these, in turn, by a number of local interurban railroads, especially the electric lines. Covers ca. 1875-1920. Primary sources; photo, 30 notes, biblio. Hineman, H. R. (1931). An investigation of the water supply of the Santa Ana Basin in Orange County. Unpublished Thesis (B.S.), University of California, Berkeley, CA. Irvine City Council. (1984). History and major issues of San Joaquin Hills Transportation Corridor (SJHTC) study. Irvine, CA: Author. Irvine City Council. (1985). Memoranda of understanding for San Joaquin Hills and Eastern/Foothill Transportation Corridors. Irvine, CA: Author. Irvine City Council. (1986). Foothill/Eastern Transportation Corridor joint powers authorities impound agreement. Irvine, CA: Author. Irvine City Council. (1986). Foothill/Eastern Transportation Corridors and San Joaquin Hills Transportation Corridor joint powers agencies activity-policy issue inventory. Irvine, CA: Author. Irvine City Council. (1986). Foothill/Eastern/I-5 bottleneck analysis (Draft final). Irvine, CA: Author. Irvine City Council. (1988). Eastern Transportation Corridor (ETC) route location study draft environmental impact report (DEIR) [recommendations]. Irvine, CA: Irvine Planning Commission. Irvine Community Development Dept. (1992). Eastern Transportation Corridor policy direction (Request for City Council action). Irvine, CA: Irvine City Council. Irvine Public Works Dept. (1988). Foothill/Eastern Transportation Corridor, selection of preferred route location and execution of memorandum of understanding (MOU). Irvine, CA: Irvine City Council. Irvine Public Works Dept. (1988). Tustin, Irvine, Orange (TIO) memorandum of understanding for Eastern Transportation Corridor. Irvine, CA: Irvine City Council. Irvine Public Works Dept., & Irvine Community Development Dept. (1988). San Joaquin Hills Transportation Corridor environmental impact report (draft). Irvine, CA: Irvine City Council. 198 Santa Ana River & Watershed Bibliography J. L. Webb Planning. (1974). Foothill Corridor policy plan. n.p.: Foothill Corridor Committee. J.J. Van Houten & Associates. (1988). Noise study report relative to FHWA critera: San Joaquin Hills Transportation Corridor (Route 73) in the County of Orange. n.p.: County of Orange. James H. Lowry and Associates, & Engineering-Science inc. (1966). Waste water disposal and reclamation for the County of Orange, California, 1966-2000: A comprehensive plan for the collection, treatment, reclamation and disposal of sewage in Orange County. Arcadia, CA: Engineering Science, Inc. JEF Engineering, & Hollinden-Recker and Associates. (1982). High flow arterial concept feasibility study and evaluation of case studies. La Habra, CA: JEF Engineering. Jones & Stokes Associates, & Municipal Water District of Orange County. (1974). Feasibility study, East Orange County feeder no. 2 - Santiago Aqueduct (Draft environmental impact report). Sacramento CA: Author. Keith Companies. (1992). Draft environmental impact report/TCA EIR 4: Ford Road extension and realignment (Draft environmental impact report No. TCA EIR 4). Santa Ana, CA: Transportation Corridor Agencies. Kinney, P. T. (1968). Planned unit development in Orange County. Unpublished Thesis (M.A.), California State College at Fullerton, Fullerton, CA. Kling, R., Olin, S., & Poster, M. (Eds.). (1991). Postsuburban California: The transformation of Orange County since World War II. Berkeley, CA: University of California Press. Laguna Greenbelt. (1978). The San Joaquin Hills Freeway: Destruction in the Greenbelt (Laguna Greenbelt position paper No. 2). Laguna Beach, CA: Author. Larry Seeman Associates, Van Dell and Associates, & County of Orange. (1983). Foothill Transportation Corridor: Orange County general plan, transportation element amendment: Specific route location (Draft Environmental impact report No. 423). Santa, Ana, CA: County of Orange, Environmental Management Agency. Leigh, B. R. (1976). Pacific Coast Freeway deletion in Newport Beach. Unpublished Thesis (M.S.), California State University, Fullerton, Fullerton, CA. Ling, K. S. (1995). Photographs of I-5 bridge construction in Orange County, CA. Irvine CA (18002 Skypark Cir Irvine 92714): CDS Associates. Lippincott, J. B. (1925). Water supply of the cities of Santa Ana and Orange, Orange County, California. 199 Water Resources Institute, California State University San Bernardino Markus, M. R., Senon, C. M., & Houser, J. D. (1991). Putting it back. Civil Engineering, 61(10), 56. Over 650 acres of percolation basins are not enough to replenish the aquifiers of California's water-poor Orange County Water District. The solution lies in the Santiago Creek Replenishment Project, a pumping station and pipeline designed to handle 25,000 acre-feet per year of excess storm water. Engineers had to combine many diverse design elements and constraints into a single balanced package. A sediment transport study revealed siltation of the pumping station inlet tunnel and, ultimately, the pumps. Inclined turbines were installed on the slope into the gravel pit to prevent siltation. Supporting the pumps on the sloped sides of the pit meant that the shaft was more sensitive to misalignment. The pumping station had to move up to 90,000 gallons per minute almost 200 feet vertically to the pipeline. Despite problems, the project was completed in 1989 and is expected to help meet the county's water needs for years to come. Marsh, D., & Melanson, P. (1989). A living architecture: Orange County's historical buildings, 1889-1945. Journal of Orange County Studies(2), 16-25. Discusses examples of the historic architecture of Orange County, California, that illustrate the attempt to adapt American architectural styles to Southern California's environment and to show how architecture has influenced the area's culture. Martinek, D. A. (1979). The transportation needs of adolescents in Orange County as related to the use of coastal recreation. Sacramento, CA: California Dept. of Transportation, Division of Mass Transportation. Means, T. H., & Osborne, G. (1951). Effect of dewatering for construction of unit no. 2 infiltration pipe upon ground water levels and movement, Prado Basin, Santa Ana River. n.p.: Orange County Flood Control District. Mestre Greve Associates, & P & D Technologies. (1992). Air quality assessment for the Eastern Transportation Corridor Tier II, County of Orange (November 2, 1990) -- Peters Canyon meteorological and carbon monoxide measurement study (April 12, 1991) -- Cumulative regional analysis for Orange County Transportation Corridor projects (May 2, 1991) -Carbon monoxide concentration supplemental analysis for the Eastern Transportation Corridor (June 5, 1991). Costa Mesa, CA: Foothill/Eastern Transportation Corridor Agencies. Metropolitan Water District of Southern California. (1988). South Orange County area study. Los Angeles, CA: Author. Michael Brandman Associates. (1986). Foothill Transportation Corridor Cristianitos segment: Alternative alignment analysis. Santa Ana, CA: County of Orange, Environmental Management Agency. Michael Brandman Associates. (1986). Foothill Transportation Corridor Cristianitos segment: Environmental baseline study (Final). Santa Ana, CA: County of Orange, Environmental Management Agency. 200 Santa Ana River & Watershed Bibliography Michael Brandman Associates. (1990). Draft environmental impact report (TCA EIR 3): Foothill Transportation Corridor, Oso Parkway to Interstate 5. Costa Mesa, CA: Foothill/Eastern Transportation Corridor Agencies. Michael Brandman Associates. (1991). Environmental impact report (TCA SEIR 3): responses to comments: Foothill Transportation Corridor, Oso Parkway to Interstate 5. Costa Mesa, CA: Foothill/Eastern Transportation Corridor Agency. Milkovich, B. A. (1996). Fullerton, Orange County, California: The struggle for local control. Southern California Quarterly, 78(4), 301-322. Analyzes the efforts of residents of Fullerton in Orange County, California, to incorporate as a city. Established in the boom years of the 1880's, Fullerton was an agricultural community. As the area grew, so did the desire of its residents for incorporation and local control, which would permit levying taxes for roads, schools, and other services. Controversy developed over whether Fullerton would issue liquor licenses, a major question in a region that favored prohibition. The new city, however, needed the revenue such licenses would provide. In 1904 residents voted for incorporation, but two years later liquor licensing was defeated. Ultimately, the issue of local control may have been more important than the efforts to continue county-wide prohibition. Miller, E. J. (1978). The hayburners of Orange County. n.p.: Costa Mesa Historical Society. Moffitt, L. C. (1967). Community and urbanization: Orange County, California. Irvine, CA: University of California, Irvine. Morlock, S. F. (1990). Environmental innovation in residential subdivision design : an investigation in Orange County, California. Unpublished M.L.A., California State Polytechnic University, Pomona, Pomona, CA. Moulton Niguel Water District. (1995). Urban water management plan. Laguna Niguel, CA: Author. Muckel, D. C., Blaney, H. F., & Barrett, W. C. (1945). Water losses in the Santa Ana River Canyon below Prado Dam, California (First progress report). Los Angeles, CA: United States Soil Conservation Service. Municipal Water District of Orange County, & Boyle Engineering Corporation. (1974). Engineer's reconnaissance level survey of present and future regional water supply for Municipal Water District of Orange County. Santa Ana, CA: Author. National Tollroad Authority Corporation, & California Dept. of Transportation. (1991). Agreement to develop a privatized transportation facility dated as of January 11, 1991 by and between National Tollroad Authority Corporation, a Delaware corporation, and the State of California acting by and through the Department of Transportation. Sacramento, CA: Caltrans. Olivares, D. M. (Cartographer). (2001). Orange County [1 map]. 201 Water Resources Institute, California State University San Bernardino Orange County Board of Supervisors, Irvine City Council, Costa Mesa City Council, Newport Beach City Council, Airport Land Use Commission for Orange County, Orange County Chamber of Commerce, et al. (1972). Resolutions and letters supporting the construction of the Corona del Mar Freeway.Unpublished manuscript. Resolutions and letters supporting the construction of the Corona del Mar Freeway, issued by the Orange County Board of Supervisors, the Irvine City Council, the Costa Mesa City Council, the Newport Beach City Council, the Airport Land Use Commission for Orange County, the Orange County Chamber of Commerce, the Industrial Development Association, Robert H. Burke, Robert E. Badham, and Dennis E. Carpenter Orange County Centerline Project, Orange County Transportation Authority, & United States Federal Transit Administration. (1999). Draft environmental impact statement/environmental impact report for the Orange County Centerline Project, Orange County, California [1 computer optical disc (2 v.) ; 4 3/4 in]. Santa Ana, CA: Orange County Transportation Authority. Orange County Centerline Project, Orange County Transportation Authority, & United States Federal Transit Administration. (2000). Supplemental draft environmental impact statement/revised draft environmental impact report for the Orange County Centerline Project, Orange County, California (No. SC# 98051072). Santa Ana, CA: Orange County Transportation Authority. Orange County Centerline Project, Orange County Transportation Authority, & United States Federal Transit Administration. (2003). Supplemental draft environmental impact statement/revised draft environmental impact report for the Orange County Centerline Project, Orange County, California (No. SC# 98051072). Santa Ana, CA: Orange County Transportation Authority. Orange County Environmental and Special Projects Division. (1985). Eastern Transportation Corridor route location study, phase I. Santa Ana, CA: Author. Orange County Environmental Management Agency Advance Planning Division. (1986). Resources element, component II, advance planning program. Santa Ana, CA: Author. Orange County Flood Control District. (1949). Plans and specifications for the construction of infiltration pipeline extension downstream from Prado Dam, Unit No.1. Santa Ana, CA: Author. Orange County Planning Commission. (1986). Foothill Transportation Corridor (Cristianitos segment) route location study and EIR and EIS (hereinafter Study) Phase I: Environmental Management Agency report. Santa Ana, CA: California Environmental Management Agency. Orange County San Joaquin Hills Transportation Corridor Agency. (1990). Assumptions and schedule analysis: Environmental, finance, engineering. n.p.: San Joaquin Hills Transportation Corridor Agency. Orange County Transportation Authority. (1993). Candidate urban rail corridors and ongoing rail planning efforts. Santa Ana, CA: Author. 202 Santa Ana River & Watershed Bibliography Orange County Transportation Authority. (1993). Long range financial plan: Freeways, streets & roads, rail transit, bus transit. n.p.: Author. Orange County Transportation Commission, Dowling Associates, & Fluor Daniels Inc. (1990). Orange County commuter rail action plan: Patronage forecasts. Oakland, CA: Dowling Associates. Orange County Transportation Corridor Agency. (1990). Foothill Transportation Corridor, Eastern Transportation Corridor environmental report. n.p.: CaliforniaTransportation Corridor Agencies. Orange County Transportation Planning Division (Cartographer). (1984). Master plan of arterial highways [2 maps]. Orange County Water District. (1963). Inspection trip: Water spreading facilities OCWD and Colorado River Aqueduct of MWD: March 9, 10, 11, 1963. Santa Ana, CA: Author. Orange County Water District. (1971-). Engineer's report on groundwater conditions, water supply and basin utilization in the Orange County Water District (Vol. v-). Santa Ana, CA: Author. Orange County Water District. (1974-1981). Annual report on basin resources management, groundwater conditions, water supply and basin utilization (Journal). Fountain Valley, CA: Orange County Water District. Orange County Water District. (1982-). Annual report and engineers report on groundwater conditions (50th anniversary ed.). Fountain Valley, CA: Author. Orange County Water District. (1984). Engineers report on groundwater conditions, water supply and basin utilization in the Orange County Water District (Journal Government document). Fountain Valley, CA: Author. Orange County Water District. (1990-). Basic data: Engineer's report. Fountain Valley, CA: Author. Orange County Water District. (2001-). Hydrospectives: OCWD groundwater news (Vol. Vol. 1, issue 1 (fall 2001)-). Fountain Valley, CA: Author. P & D Technologies. (1993). Supplemental environmental impact statement for the Eastern Transportation Corridor (No. TCA EIS 2-1). Santa Ana, CA: Foothill/Eastern Transportation Corridor Agencies. P & D Technologies, United States Federal Highway Administration, & California Dept. of Transportation. (1991). Detailed maps of the build alternatives (Technical report). Costa Mesa, CA: Foothill/Eastern Transportation Corridor Agencies. P & D Technologies, United States Federal Highway Administration, & California Dept. of Transportation. (1991). Draft aesthetic design guidelines for the San Joaquin Hills Transportation Corridor (Draft environmental impact report/environmental impact statement). Costa Mesa, CA: Foothill/Eastern Transportation Corridor Agencies. 203 Water Resources Institute, California State University San Bernardino P & D Technologies, United States Federal Highway Administration, & California Dept. of Transportation. (1991). Technical transportation reports. Costa Mesa, CA: Foothill/Eastern Transportation Corridor Agencies. P & D Technologies, United States Federal Highway Administration, & California Dept. of Transportation. (1992). Environmental impact report/environmental impact statement for the Eastern Transportation Corridor (Screencheck draft: responses to comments No. TCA EIR/EIS 2). Santa Ana, CA: Foothill/Eastern Transportation Corridor Agencies. Parkany, E. (1999). Traveler responses to new choices : toll vs. free alternatives in a congested corridor. Unpublished Thesis (Ph. D., Transportation Science), University of California, Irvine. Parsons Brinckerhoff Quade & Douglas. (1981). Foothill Corridor transportation study: Supplemental analyses. Santa Ana, CA: County of Orange, Environmental Management Agency. Parsons Brinckerhoff Quade & Douglas, & Phillips Brandt Reddick. (1981). Foothill Corridor transportation study (Final report). Santa Ana, CA: County of Orange, Environmental Management Agency. Phillips Brandt Reddick. (1988). Eastern Transportation Corridor [route location study] : [phase II] (draft No. SCH #85041026). Santa, Ana, CA: County of Orange, Environmental Management Agency. Pixley, E. M., & Littell, F. J. (1971). Multiple residential water use in Orange County. Los Angeles, CA: California Dept. of Water Resources, Southern District. Poland, J. F. (1947). Summary statement of ground-water conditions and saline contamination along the coast of Orange County, California. Santa Ana, CA: Orange County Water District. Recker, W. W., Leonard, J. D., & Waters, C. D. (1985). Engineering strategies for major reconstruction of urban highways. Irvine, CA: Institute of Transportation Studies, University of California. Recker, W. W., McNally, M. G., & Root, G. S. (1984). Flyovers and the high flow arterial concept. Irvine, CA: Institute of Transportation Studies, University of California Irvine. The feasibility of prefabricated overpasses and/or signal optimization on the Westminster Avenue/17th Street arterial corridor in Orange County, California, is investigated. Recker, W. W., Root, G. S., & McNalley, M. G. (1985). Classification analysis of traffic improvement sites. Irvine, CA: Institute of Transportation Studies University of California. The use of flyovers at congested arterial intersections in Orange County, California, as a means of unlocking signal optimization strategies to produce a network of continuous flow boulevards or super streets. 204 Santa Ana River & Watershed Bibliography Richardson, T. G. (1992). Cost benefit comparison of groundwater injection and direct distribution as reclaimed water transport options in Orange County, California. Dialog. The Orange County Water District (OCWD), which has responsibility for managing a major aquifer in northern Orange County, CA, has evaluated and compared two options for the handling of reclaimed water. Most of northern Orange County's water supply is drawn from an aquifer recharged by the Santa Ana River. Using cost-benefit analysis techniques, OCWD compared the direct distribution of reclaimed water to users with the use of reclaimed water to recharge the aquifer. Such issues as construction costs, regulatory requirements, water storage capacity, and groundwater recharge techniques were examined in the course of the cost-benefit analysis. Analysis results suggest groundwater recharge to be the more desirable use of reclaimed water. Rohani, A., & Kraft, W. H. (1991). Katella avenue super street improvements study. n.p.: Institute of Transportation Engineers Meeting. Rosta, P. B. (1994). "Creating" water where the supply is limited. ENR, 233(19), 28. The Orange County Water District manages local groundwater supplies to provide 75% of the needs of a still-growing population of 2 million. It aims to boost that proportion to 90% by 2010 even as demand increases from the current 500,000 acre-ft. Ruth + Krushkhov, Arthur D. Little Inc., & D. Jackson Faustman & Associates. (1965). City of Santa Ana, California general plan program. Santa Ana, CA: City of Santa Ana Planning Dept. Schuyler, J. D. (1906). Report on the water supply and distribution for domestic and irrigation service, on the lands of the Huntington Beach Ca: n.p. Simone, C., Kerr, J., & Khosravi, F. E. (1997). Caltrans District 12 advanced transportation management system: Solving Orange County's transportation problems. Paper presented at the ITE District 6 50th annual meeting, Salt Lake City, UT. Southern California Association of Governments. (1976). County of Orange preliminary transportation plan: A planning document. Santa Ana, CA: Multi-Modal Transportation Committee of Orange County. Stack, R. W. (1994). A multi-user real-time knowledge-based expert system for freeway incident response. Unpublished M.S., University of California, Irvine, Irvine, CA. State of California Department of Finance Demographic Research Unit. (1990). 1990 census of population and housing: Complete tables: state: California; county: Orange. In S. t. f. 1 (Ed.) (Vol. Orange [County] -- Anaheim -- Brea -- Fullerton). Sacramento, CA: State Census Data Center. 205 Water Resources Institute, California State University San Bernardino Teeboom, L. (1988). Politics and water don't mix for county's future. Orange County Business Journal, 11(8), 1. Will Orange County have enough water to meet its current and future needs? It depends, according to water officials. In the midst of the second year of a gripping drought, California could suffer another "critical year" next year, said a high-level water official, adding it would be the first time in the century that the state has had three critical years in a row. "We've had back-to-back critical years," said John Eaton, chief of operations and maintenance for the state Department of Water Resources. "If next year's a critical year, we'll have a hard time meeting requests." (excerpt) Toups Engineering Inc. (1977). Task 3: Water supply data compilation and analysis (final report). Santa Ana, CA: Orange County Environmental Management Agency. U.S. Department of Commerce Social and Economic Statistics Administration Bureau of the Census, & U.S. Department of Labor Manpower Administration (Cartographer). (1974). Urban atlas, tract data for standard metropolitan statistical areas: Anaheim--Santa Ana-Garden Grove, Calif. U.S. Department of Transportation, & U.S. Federal Highway Administration. (1990). San Joaquin Hills Transportation Corridor: Draft environmental impact report/environmental impact statement (Draft EIS/EIR No. TCA EIR/EIS 1). Costa Mesa, CA: San Joaquin Hills Transportation Corridor Agency. U.S. Department of Transportation Federal Highway Administration, & California Dept. of Transportation. (1985). Route 55 transportation study (Route 1 to Route 73) (Final environmental impact statement No. FHWA-CA-EIS-83-03-F). Sacramento, CA: California Dept. of Transportation. U.S. Federal Highway Administration, & California Dept. of Transportation. (1985). Pacific Coast Highway Widening Project (Draft environmental impact statement). Sacramento, CA: California Dept. of Transportation. U.S. Federal Highway Administration, & California Dept. of Transportation. (1987). Pacific Coast Highway widening project: Final environmental impact statement: Appendices. n.p.: U.S. Dept. of Transportation. U.S. Federal Highway Administration, & California Dept. of Transportation. (1992). Final environmental impact statement for proposed construction of State Route 73 extension between Interstate Route 5 in the city of San Juan Capistrano and Jamboree Road in the city of Newport Beach known as the San Joaquin Hills Transportation Corridor (Final EIS). Santa Ana, CA: County of Orange, Environmental Management Agency. U.S. Federal Highway Administration, California Dept. of Transportation, & Foothill/Eastern Transportation Corridor Agencies. (1991). Eastern Transportation Corridor: Proposed construction of new State Route 231 between State Route 91 (at approximately postmile 16.4 on State Route 91) and Jamboree Road south of Interstate 5 (at approximately postmile 27) for the west leg, and south of Interstate 5 at State Route 133 (approximately postmile 23) for the east leg, known as the Eastern Transportation Corridor, in Orange County, California (Draft environmental impact report/environmental impact statement and Section 4(F) evaluation). Sacramento, CA: Federal Highway Administration. 206 Santa Ana River & Watershed Bibliography United States Federal Highway Administration, & California Dept. of Transportation. (1991). Eastern Transportation Corridor (Draft environmental impact report/environmental impact statement No. TCA EIR/EIS 2). Santa Ana, CA: Foothill/Eastern Transportation Corridor Agencies. United States Federal Highway Administration, & California Dept. of Transportation. (1994). Eastern Transportation Corridor State Route 231 (Final environmental impact statement No. TCA EIS 2-1). Santa Ana, CA: Foothill/Eastern Transportation Corridor Agencies. Van Dell and Associates. (1982). Foothill Transportation Corridor route location study. Santa, Ana, CA: County of Orange, Environmental Management Agency. Van Dell and Associates. (1988). Eastern Transportation Corridor route location study, phase II: Project report (Draft). Santa Ana, CA: Transportation Planning, Environmental Management Agency, County of Orange. Van Dell and Associates, & Phillips Brandt Reddick. (1986). Matrix evaluation process: Eastern Transportation Corridor route location study phase I scoping report. Santa Ana, CA: Orange County Transportation Corridor Agencies. Vardon, S. G. (2004, Jan 9, 2004). Orange County, Calif. residents must accommodate updates to water system. Knight Ridder Tribune Business News, p. 1. For five days in February, south Orange County residents and businesses will be asked to let their lawns go without water and not wash their cars. That's because earthquake upgrades are going to be done Feb. 23-27 on a Yorba Linda water-treatment plant that supplies most south Orange County cities with virtually all of their drinking water. For south Orange County water officials, the shutdown is another reminder of the area's total dependence on imported water. Victor Gruen Associates, J. L. Ray & Associates, & Thomas Higgins. (1986). Toll road feasibility study: Foothill and Eastern Transportation Corridors (Final). n.p.: OCTC. Wall, J. R., & U.S. Geological Survey Water Resources Division. (1965). Progress report on water studies in the Orange County coastal area, California (Open-file report). Garden Grove, CA: Orange County Water District. Water Advisory Committee of Orange County. (1987). Water supply management within Orange County. Fountain Valley, CA: Author. Webb, L. (1991). Request for finding of effect for the proposed Eastern Transportation Corridor. Costa Mesa, CA: Foothill/Eastern Transportation Corridor Agencies. 207 Water Resources Institute, California State University San Bernardino Weikel, D. (2003, October 14, 2003). County to pump less water from coastal basins : Incursion of seawater is feared amid a decline in groundwater 'barrier.' Rates won't increase. The Los Angeles Times, p. 435 words. Faced with a four-year drought, the Orange County Water District will reduce pumping water from vast underground basins along the coast to help prevent seawater from contaminating the water supply. The groundwater basin, fed by rain and runoff from the Santa Ana River watershed, serves about half the water needs of 2.3 million people. Under the plan, Costa Mesa, Irvine, Newport Beach and Huntington Beach will reduce their reliance on groundwater by 6.5 billion gallons next year to help strengthen the seawater barrier, district officials said Monday. Weschler, L. F. (1966). The Orange County pump tax: A case study in ground water basin management. Unpublished Dissertation (Ph. D.), University of California, Los Angeles, CA. Wilbur Smith and Associates. (1988). Traffic and revenue study: Proposed Orange County transportation corridors: San Joaquin Hills Transportation Corridor, Foothill Transportation Corridor, Eastern Transportation Corridor (Revised draft). n.p.: Transportation Corridor Agencies. Wilbur Smith and Associates. (1990). Preliminary traffic and revenue study: Proposed Route 57 extension. Santa Ana, CA.: Orange County Transportation Commission,. Wilbur Smith and Associates. (1990). Revised corridor staging traffic and revenue estimates: Task 30 (Technical memorandum). n.p.: Transportation Corridor Agencies. Wong, R. S.-P. (1974). A study of population growth and its impact in Orange County, California. Unpublished Thesis, University of California Irvine, Irvine, CA. Xu, Y. Q., & May, A. D. (1987). Freeway surveillance and control (Working paper No. UCBITS-WP-87-8). Berkeley, CA: Institute of Transportation Studies, University of California, Berkeley. Young, A. (1986). Report to the Riverside County Transportation Commission and the San Bernardino Associated Governments on a service authority for freeway emergencies (SAFE): n.p. Zlotnik, J. (2002, Feb 15, 2002). Orange County, Calif. area push projects to get drinking water from the sea. Knight Ridder Tribune Business News, p. 1. [Mike Dunbar] is far from the first to gaze seaward when discussing water needs for growing Orange County. Half the county's supply is imported from Northern California and the Colorado River. Despite earlier failed attempts to build desalination plants here, improved technology has lowered the cost enough that it's beginning to make sense. The Dana Point plant would produce as much as 27 million gallons of water a day and decrease the need for imported water in the county by 15 percent. It could eventually serve 75 percent to 90 percent of south county's water needs, Dunbar said. 208 Santa Ana River & Watershed Bibliography Orange County Agriculture and Other Uses Orange County, California: With Santa Ana Valley Irrigation Co. & Anaheim Metropolitan Water Co. (Cartographer). (1939). [1 map]. Farmers handbook: Agricultural Conservation Program, Orange County, California. (1954). San Diego, CA: R.A. Campbell. Miners and mineral marketing guide. (1959). San Bernardino, CA: San Bernardino County Board of Trade. Orange Coast National Urban Park: Hearing before the Subcommittee on Parks, Recreation, and Renewable Resources of the Committee on Energy and Natural Resources, United States Senate, Ninety-sixth Congress, second session, on S. 2899 ... H.R. 4975 ... Santa Ana, Calif., October 14, 1980, 96th U.S. Congress. Senate., 2nd Session Sess. iii, 177 (1981). Orange County industrial development map (Cartographer). (1981). [2 maps]. Marketing your key to success in 1992. (1992). Agfocus: publication of Cornell Cooperative Extension--Orange County, 14. Map Orange County : Anaheim, Buena Park, Costa Mesa, Dana Point, Huntington Beach, Irvine, Laguna Beach, Newport Beach, Santa Ana, hotels, shopping, attractions (Cartographer). (1998). [5 maps on 1 sheet]. Anaheim Irrigation District Board of Directors. (1892). Anaheim Irrigation District, Orange County Cal.: Its physical and engineering problems and business prospects. n.p.: Author. Proposed Orange County National urban park: Testimonies and statements made before the National Parks and Recreation Subcommittee, United States Congress, House various foliations (1979). Bachus, E. J. (1981). Who took the oranges out of Orange County? The Southern California citrus industry in transition. Southern California Quarterly, 63(2), 157-173. Analyzes changes in the southern California citrus fruit industry since its commercial origins in the 1870's. Irrigation, railroad access to eastern markets, and creation of the California Fruit Growers Exchange (now Sunkist) made southern California dominant in production of oranges and lemons. Until 1950, Los Angeles and Orange counties led in acreage and citrus production. Since then, the industry has shifted geographically. Florida's frozen orange juice has outstripped California production of eating oranges. Southern California's amazing population growth and urbanization came at the expense of the region's agricultural land and economy. Los Angeles and Orange counties are now almost completely urban; smog, taxes, and high land prices contributed to agricultural decline. Southern California counties are still major fruit producers, however, utilizing new laws, farming methods, and markets. 4 tables; 86 notes. Beaton, C. R. (1968). An analysis of the factors affecting the manufacturing location decision within Orange County, California. Unpublished Dissertation (Ph.D.), Claremont Graduate School and University Center, Claremont, CA. 209 Water Resources Institute, California State University San Bernardino Bowles, J. (2003, September 5, 2003). O.C. agency plans wetlands: Nature: Recreation trails will wind along where the Santa Ana River goes through Norco. The Press Enterprise, p. B01. When Orange County came calling on Riverside County a few years ago for a place to build more wetlands behind Prado Dam, the answer was an emphatic "no." The plans just weren't people-friendly enough. Frandsen, Riverside Park Director, laid down a condition for the proposed 430-acre marsh along the Santa Ana River where it winds through Norco: It had to lend itself to recreation. Today, a network of horse and hiking trails is envisioned in Orange County Water District's $ 5.3 million plan. The goal is to create a stretch of wetlands that will cleanse harmful nitrates from river water bound for taps in the coastal county. The water agency also plans to create environment hospitable to the Southwestern willow flycatcher. California Department of Parks and Recreation. (1972). Orange Coast state beaches: Bolsa Chica, Huntington, Doheny, San Clemente, San Onofre. Sacramento, CA: Author. California Department of Parks and Recreation. (1976). Resource management plan and general development plan for Huntington State Beach. Sacramento, CA: Author. California Division of Beaches and Parks. (1965). Orange County beach study. Sacramento, CA: Author. California Division of Beaches and Parks. (1966). Buena Park borrow area study. Sacramento, CA: Author. California Farmland Mapping and Monitoring Program (Cartographer). (1994). Orange County important farmland map, 1992 [1 map]. California Recreation Commission. (1952). A plan for development of public recreation services in northwestern Orange County, California. Sacramento, CA: Author. California Resources Agency (Cartographer). (n.d.). Orange Coast state beaches : Bolsa Chica, Huntington, Doheny, San Clemente, San Onofre Eckbo Dean Austin & Williams. (1971). Santa Ana River-Santiago Creek Corridor plan for recreation and open space (A general planning program report). Santa Ana, CA: Orange County Planning Dept. Economics Research Associates. (1961). Impact of recreation on the economy of the greater Anaheim area. Los Angeles, CA: Author. Engle, C. (1975). Orange County citrus strike, 1934. Unpublished Thesis (M.A.), California State University Fullerton, Fullerton, CA. 210 Santa Ana River & Watershed Bibliography Fine, H. (1990). State stalls underground tank cleanup efforts. Orange County Business Journal, 13(2), 4. Owners of thousands of underground petroleum storage tanks in the state are moving closer to long-awaited financial aid for high-priced cleanup efforts. But the relief may come too late for some and be too little to stave off possible ground water contamination at nearly 900 sites in Orange County. A loan program passed by the legislature last year was to collect fees from owners and operators of underground petroleum storage tanks, 3,785 of them in Orange County, and create an insurance fund that homeowners and small businesses could tap into. (excerpt) Fitzgerald, K. (1997). Jetting to Anaheim. Advertising Age, 68(19), 74. The nation's largest personal watercraft event gets off the ground this August in Anaheim, when a dry river bed will be transformed into a lake. California's Santa Ana River bottom will be filled with 20 million gallons on August 15-17, for Jet Jam '97, a series of races and demonstrations of extreme water sports featuring acrobatic jet skiers and water stunt experts. Gonzalez, G. G. (1994). The Mexican citrus picker union, the Mexican Consulate, and the Orange County Strike of 1936. Labor History, 35(1), 48-65. During the 1930's the Mexican consulate in Southern California tried to keep labor organizing by immigrant Mexican farmworkers in the United States in line with the Mexican government's labor policy. Fearing opposition from across the border or from repatriated workers, the Mexican government discouraged leftist unions but retained the esteem of many workers by helping organize unions that limited demands to wages and working conditions. During the month-long strike by citrus pickers in Orange County, California, by the Confederacion de Uniones y Obreros Mexicanos del Estado de California in 1936, consulate representative Lucas Lucio's intense lobbying among the workers created a split in union leadership that allowed the consulate itself to take over control and negotiate a settlement. Radicals were purged from the union shortly thereafter. The incident helped shape both Chicano and labor history in the region. Gonzalez, G. G. (1995). Women, work, and community in the Mexican colonias of the Southern California citrus belt. California History, 74(1), 58-67, 134-135. Describes the Mexican-American communities in Orange County, California, whose residents were primarily employed by citrus growers and in packinghouses during the early decades of the 20th century. Forced by segregation and discriminatory laws to take low-paying jobs and live in colonias, Mexican Americans and Mexican citizens created a sense of community through mutual assistance and a shared culture. They grew their own food, gave birth, and held wakes and funerals at home. Women found steady employment at citrus packinghouses. This village culture functioned as an extended family, maintaining an independent way of life despite poverty and discrimination. Holt, R. (1946). The fruits of viticulture in Orange County. Historical Society of Southern California Quarterly, XXVIII(Part 1), 7. Hutchinson, R. B., & Hutchinson, S. (1976). The vineyards of Anaheim. Pomona Valley Historian, Vol. 12(no. 1), 34-46 p. 211 Water Resources Institute, California State University San Bernardino Keith Companies. (1990). Environmental impact report for Modjeska Historic Park (Draft). Santa Ana, CA: County of Orange, Environmental Management Agency. Keith Companies. (1991). Modjeska Historic Park (Final). Santa Ana, California: County of Orange, Environmental Management Agency. Lippincott, J. B. (1898). Santa Ana River, California: n.p. Report on proposed development of additional water supply from the canyon below Rincon; and file of depositions and data concerning the Santa Ana River. Lippincott, J. B. (1913). Newport Heights Irrigation District.Unpublished manuscript. Reports, plans and specifications, data, correspondence on proposed irrigation project. Los Angeles Chamber of Commerce Agricultural Department. (1925). Agricultural survey of Orange County. Los Angeles, CA: Los Angeles Chamber of Commerce Agricultural Department. Marks, C. J. (1990). Cecil J. Marks: Remembrances of Santa Ana, the Orange County Farm Bureau, and some aspects of county crops, farm workers and water supply. In Santa Ana Community History Project, interviewed by Suzanne Wood & commissioned Santa Ana Public Library (Eds.) (pp. 17 leaves). Santa Ana, CA: Santa Ana Public Library. Orange County Advance Planning Division. (1992). Recreation element. Santa Ana, CA: Author. Orange County Agricultural Commissioner. (1949-2000). Agricultural crop report. Anaheim, CA: Author. Orange County Dept. of Agriculture, & Orange County Public Facilities and Resources Dept. (1987). Orange County crop report. Anaheim, CA: Orange County Agricultural Commissioner. Orange County General Planning Program. (1972). Bicycle trails: A feasibility study of a countywide bicycle system in Orange County. Santa Ana, CA: Author. Orange County Historical Project. (1937). Irrigation (microform; WPA project No. 3105; O.P. # 65-3-3885). San Francisco, CA: Coordinator of Statistical Projects, Works Progress Administration. Orange County Planning Dept. (1970). Recreation '70: A general planning program report. Santa Ana, CA: Author. Orange County Planning Dept. (1974). Master plan of countywide bikeways for Orange County: Amendment no. 4 (Orange County Planning Department report). Santa Ana, CA: Author. Orange County Planning Dept. Advance Planning Division. (1965). Recreation 65, County of Orange. Santa Ana, CA: Author. 212 Santa Ana River & Watershed Bibliography Orange County Regional Parks Advisory Committee. (1963). Proposed master plan of regional parks for Orange County. Santa Ana, CA: California Regional Parks Advisory Committee. Pomona Chamber of Commerce. (1980). Industrial guide to the Pomona Valley: Pomona, La Verne, Chino, Montclair, Ontario, Guasti, Upland, Rancho Cucamonga. Pomona, CA: Author. Schuyler, J. D., & Bailey, W. H. (1891). Report on a system of irrigation for the Olinda Ranch, Orange Co., Cal., the property of W. H. Bailey with letters from H. C. Kellogg concerning the Brea Canon Dam.Unpublished manuscript, Berkeley, CA. Serrano Irrigation District. (1930-). Annual report to water users. Orange, CA: Author. Serrano Irrigation District. (1957-). Annual report to water users (Journal). Orange, CA: Serrano Irrigation District. Tavernetti, J. R., & Huberty, M. R. (1936). Preliminary report on a study of group and individual pumping plants in Orange County (Preliminary): n.p. Tavernetti, J. R., & Huberty, M. R. (1936). A study of small individual and cooperative pumping enterprises in Orange County. Berkeley, CA: University of California, College of Agriculture, Agricultural Experiment Station. Thirtieth Street Architects Inc. (1989). Modjeska Historic Park: Draft resource management plan (Revised). Santa Ana, CA: County of Orange. U.S. Work Projects Administration. (1980). A history of irrigation in Orange County (Re-typed from 1936 document). Santa Ana, CA: American Society of Civil Engineers, Orange County Branch. Wulff, L. (1931). A report upon the Santiago Creek, Orange County, as a source of water supply for irrigation of the Serrano and Carpenter Irrigation District, Orange County, California. Unpublished Thesis (B.S.), University of California, Berkeley, Berkeley, CA. Young, A. A. (1943). Water supply and irrigation survey, Orange County, California: Prepared for the Guayule Emergency Rubber Project, U.S. Forest Service. n.p.: United States Soil Conservation Service. Yu, R. (1998). Building blocks: Developers getting busy in Santa Ana. Orange County Business Journal, 21(29), 1. The economic recovery has come to Santa Ana, too. A series of industrial projects, coupled with a rebounding office building market and some downtown redevelopment, is fueling an uptick in Orange County's most densely populated city. Orange County Creative / Artistic Expressions Edwards, M. L. (Ed.). (1967). Rawhide and orange blossoms: Stories and sketches of early Orange County by the Quill Pen Club. Santa Ana, CA: Pioneer Press. 213 Water Resources Institute, California State University San Bernardino Gould, S. (1990). The burning of Santa Ana's Chinatown and the murder of Anaheim's Mock Law Fat: An illustrated history of two California Chinatowns and bibliography of the Chinese in California. Tustin, CA: Western Association for the Advancement of Local History. Mattern, M. (2001). Art and community development in Santa Ana, California: The promise and the reality. Journal of Arts Management, Law, and Society, 30(4), 301. Mattern assesses one effort in Santa Ana CA to promote community development via the arts. The city's central goals in using art to promote development include revitalizing the downtown district, increasing commercial activity and improving intercultural relations in one of the most ethnically diverse populations in the country. Pacific National Fire Insurance Company, & Lewis, D. A. (1942). Pacific National Fire Insurance Company records of Orange County buildings.Unpublished manuscript, Irvine, CA. Collection consists of maps, photographs, blueprints, and printed material documenting various buildings in Orange County, California, primarily public institutions such as courthouses, fire stations, hospitals, libraries, and parks. The Pacific National Fire Insurance Company in Santa Ana, California produced these records between 1942 and 1951 for insurance purposes. The photographs and maps provide visual documentation of the buildings and their surroundings as they appeared in the 1940s, and the accompanying text provides detailed information on construction, location, size, and maintenance. Santa Ana Chamber of Commerce. (n.d.). Orange County and the Santa Ana Valley, Southern California. Santa Ana, CA: Author. Sleeper, J. (1980). Great movies shot in Orange County that will live forever (or at least until 1934). Trabuco Canyon, CA: California Classics. Orange County Litigation / Legal Issues In the Supreme Court of the State of California, Santa Ana Valley Irrigation Company, plaintiff, vs. the Anaheim Water Company ... et al. , defendants : transcript on appeal 154 (California District Court (17th Judicial District), 1882). Wm. Bathgate, et. al., plaintiffs and appellants, vs. James Irvine, defendant and respondent : Wm. M. Bathgate et. al., defendant and appellant : transcript on appeal In the Supreme Court of the State of California, from the Superior Court of Orange County 223 (Supreme Court of the State of California 1897). W. H. Spurgeon, Appellant, v. Santa Ana Valley Irrigation Company, Respondent, 120 71 (Supreme Court of California 1898). A. McDermont et al., Appellants, v. Anaheim Union Water Company et al., Respondents, 124 112 (Supreme Court of California, Department Two 1899). Seaside Home for Children (a Corporation), Appellant, v. Newberg Protection District (a Corporation), Respondent, 190 544 (Supreme Court of California 1923). 214 Santa Ana River & Watershed Bibliography Community Industrial Land Co., Inc. (a Corporation), Respondent, v. N. W. Walker, Appellant, 61 298 (Court of Appeal of California, Fourth Appellate District 1943). Rosa Yorba Locke, Appellant, v. Yorba Irrigation Company (a Corporation) et al., Respondents, 35 205 (Supreme Court of California 1950). Rene L. Callens et al., Respondents, v. The County of Orange, Appellant, 129 255 (Court of Appeal of California, Fourth Appellate District 1954). Orange County Water District, Respondent, v. F. E. Farnsworth et al., Appellants, 173 137 (Court of Appeals of California, Fourth Appellate District 1959). City of Chino et al., Petitioners, v. The Superior Court of Orange County, Respondent; Orange County Water District, Real Party in Interest. United States of America, Petitioner, v. The Superior Court of Orange County, Respondent; Orange County Water District, Real Party in Interest., 255 747 (Court of Appeal of California, Fourth Appellate District, Division One 1967). City of Huntington Beach et al., Plaintiffs and Appellants, v. Orange County Water District, Defendants and Respondents; Irvine Ranch Water District et al., Real Parties in Interest., 2004 1600 (Court of Appeal of California, Fourth Appellate District, Division Three 2004). California Bureau of Sanitary Engineering. (1964). Exhibit A, in the matter of permit application from Los Alisos Water District, dated June 10, 1964, serving Los Alisos, Orange County: Sanitary engineering investigation of domestic water supply. Berkeley, CA: State of California, Dept. of Public Health, Bureau of Sanitary Engineering. Gillespie, C. G. (1930). In the matter of the application of the city of Newport Beach for permit to establish a sprinkling filter plant near state highway and mouth of Santa Ana River and dispose of chlorinated effluent into Santa Ana River about 1500 feet from its mouth (Findings and opinion). Berkeley, CA: State of California, Dept. of Public Health, Bureau of Sanitary Engineering. Leeds, E., County of Orange, & Laguna Greenbelt. (1991). Elizabeth Leeds v. Transportation Corridor Agency Board: Report prepared in response to Peremptory Writ of Mandate dated November 18, 1991 regarding the San Joaquin Hills Transportation Corridor. n.p.: Transportation Corridor Agencies. Marliave, E. C. (1967). Papers related to the case of Orange County Water District vs. City of Chino, et al.Unpublished manuscript, n.p. Orange County Farm Bureau. (1930). Report to Orange County grand jury on use of water in Orange County by Gun Clubs. -- Supreme Court decision in the Gun Clubs ... -- The Farm Bureau fights non-beneficial use of underground water. -- Legal notice, ordinance no. 350. -- Ordinance no. 349.Unpublished manuscript. Upper Santa Ana River Water Coordinating Council. (1967). Recent events and forecasts of coming attractions in the second Orange County case. San Bernardino, CA: Author. 215 Water Resources Institute, California State University San Bernardino This page intentionally left blank 216 Santa Ana River & Watershed Bibliography 5.0 Riverside County 5.1 Riverside County Physical Environment Riverside County Geology Calzia, J. P., & U.S. Geological Survey. (1988). Mineral resources of the Santa Rosa Mountains Wilderness Study Area, Riverside County, California. Washington, D.C.: U.S. Government Printing Office. Giessner, F. W. (1965). A reconnaissance of the geology and water resources of the Mission Creek Indian Reservation, Riverside County, California (Open-file report). Long Beach, CA: U.S. Geological Survey, Ground Water Branch. Haner, B. E. (1982). Quaternary Geomorphic Surfaces on the Northern Perris Block, Riverside County, California: Interrelationship of Soils, Vegetation, Climate and Tectonics. DAI, 43(05B), 01. Ten geomorphic surfaces reflecting periods of tectonic uplift, structural stability and climate change near Riverside and Corona, southern California are preserved as (1) bedrock and alluvial strath terraces; (2) alluvial fans; and (3) fill terraces. These surfaces descend to the Santa Ana floodplain from the Pleistocene Paloma Surface (a relict river and alluvial fan system 240 m. above present river level). Mid Pleistocene uplift caused fan fragmentation, rapid downcutting, and formation of two bedrock strath surfaces. Paleosols indicate periodic sedimentation interrupted major soil forming periods on the Riverside Grand Surface formed during the Illinoian glacial and arid Sangamon interglacial stages. The youngest paleosol caliche horizon is 97,000 (+OR-) 5,000 years B.P. ((,234)U dating). Regional westward tilting caused channel incision and abandonment of this surface. Wisconsin climatic cooling initiated major watershed erosional cycles and accompanying removal of deeply weathered hillslope debris. Aggradation on the lowered floodplain ceased when vegetation growth responded to more humid conditions, but further erosion occurred late in the pluvial cycle. During the ensuing interglacial, sediment on aggrading floodplains was redistributed into one dunefield. Later dune form modifications resulted from surface abandonment and reduced sediment supply. Extreme aridity during the Xerothermic (8,000-5,000 years B.P.) caused floodplain aggradation. Current erosion of the Santa Ana River floodplain, including the 1862 flood, is correlated with watershed deforestation, changing agricultural practices, and urbanization. Increased flood control and lowered water tables have caused floodplain degradation and vegetation changes. Mediterranean summer drought intensifies water loss and the broad marginal sand flats adjacent to the braided Santa Ana River channel are reworked into shifting sand sheets. Syntectonic erosion and climatic perturbations alternating with periods of stability have preserved a stepped topography which contrasts with the highly dissected frontal margin of the Transverse Range. Bound by active transform faults which have caused tectonic compression and uplift in southern California, the Perris Block has responded as a stable granitic buttress zone accommodating recent orogenic activity by tilting and minor uplift. 219 Water Resources Institute, California State University San Bernardino James M. Montgomery Consulting Engineers, & Soil Mechanics and Foundation Engineers Inc. (1966). Soil and geological engineering investigation and earthwork design recommendations, Kolb Creek Dam. Palo Alto, CA: Soil Mechanics and Foundation Engineers Inc. Kendrick, K. J. (1996). Descriptions and laboratory analysis for soils in northern San Timoteo Badlands, California (U.S. Geological Survey open-file report No. 96-93). Menlo Park, CA: U.S. Dept. of the Interior, U.S. Geological Survey. Kennedy, M. P. (1977). Recency and character of faulting along the Elsinore fault zone in southern Riverside County, California (No. 78622176). Sacramento, CA: California Division of Mines and Geology. Knecht, A. A. (1971). Soil survey, western Riverside area, California (No. 72600675). Washington, DC: U.S. Soil Conservation Service. Knecht, A. A. (1980). Soil survey of Riverside County, California, Coachella Valley area. Washington, DC: United States Soil Conservation Service. Mann, J. F. (1955). Geology of a portion of the Elsinore fault zone, California (No. gs 56000105). San Francisco, CA: Department of Natural Resources. Nelson, J. W., Pendleton, R. I., Dunn, J. E., Strahorn, A. t., & Watson, E. B. (1917). Soil survey of the Riverside area, California. Washington, DC: Government Printing Office. Proctor, R. J. (1961). Engineering geology of Lake Mathews enlargement (MWD engineering report No. 798). Riverside, CA: Metropolitan Water District of Southern California. Robinson, J. W., Risher, B. D., & Bakker, E. (1993). The San Jacintos: The mountain country from Banning to Borrego Valley. Arcadia, CA: Big Santa Anita Historical Society. Schwarcz, H. P. (1969). Pre-Cretaceous sedimentation and metamorphism in the Winchester area, northern peninsular ranges, California. Unpublished Thesis, California Institute of Technology, Pasadena, CA. Riverside County Hydrology Eastern Municipal Water District, Riverside County, California district wide master plan major sewer transmission, treatment, disposal, and water reclamation facilities (Cartographer). (1971). [1 map]. Kaehler, C. A., & Eastern Municipal Water District. (1998). Geohydrology of the Winchester subbasin, Riverside County, California (Water-resources investigations report No. 98-4102). Denver, CO: U.S. Dept. of the Interior, U.S. Geological Survey. Peairs, F. J. (1978). Riverside County Flood Control and Water Conservation District: Hydrology manual. Riverside, CA: Riverside County Flood Control and Water Conservation District. 220 Santa Ana River & Watershed Bibliography Reed, L. D. (1971). A geophysical investigation of ground-water supply, Morongo Indian Reservation, Riverside County, California. Unpublished Thesis (M.S.), University of California, Riverside, Riverside. Reilly, J. F. (1994). Hydrologic and nitrogen budgets for the Prado constructed wetlands, Riverside County, California. Unpublished M. S., California State University Fullerton, Fullerton, CA. Richardson, N. L. (1969). Ground water conditions in the San Jacinto River Valley: Preliminary level investigation. Los Angeles, CA: California Dept. of Water Resources, Southern District. Wesner, G. M., & Smithhammer, G. M. (1967). Report on the application of synthetic unit hydrographs to drainage basins in the Riverside County Flood Control and Water Conservation District. Riverside, CA: Riverside County Flood Control and Water Conservation District. 5.2 Riverside County Environmental Issues Riverside County Biodiversity Agency may preserve habitat for Kangaroo Rat. (2002, May 27, 2002). The Business Press, p. 24. Under the agreement, the IVDA would set aside and maintain 54 acres as a preserve for the endangered kangaroo rat and the Santa Ana River woolly star, a small plant. In return, the redevelopment agency could use about 200 acres for development on a project-byproject basis, subject to U.S. Fish and Wildlife Service approval. Both lots are part of a larger 400-acre area designated as critical habitat for the kangaroo rat. Aasen, K. D., & Henry, F. D., Jr. (1981). Spawning behavior and requirements of Alabama spotted bass, Micropterus punctulatus Henshalli, in Lake Perris, Riverside County, California. California fish and game., v. 67(2), 118-125. Ascenzi, J. (2002, Oct 7, 2002). Conservation group buys land in California's San Timoteo Canyon. Knight Ridder Tribune Business News, p. 1. Gale Ann Hurd, owner of Valhalla Motion Pictures in Los Angeles, sold 711 acres to the Riverside Land Conservancy for $3.1 million and donated about 170 acres in the region, said Vindar Batoosingh, vice president with CB Richard Ellis' Ontario office. Land from both transactions contains several federally designated endangered species, including the kangaroo rat, as well as reserves of the protected coastal sage scrub, and eventually will be part of a 10,000- acre state park and habitat preserve, Riverside Land Conservancy Executive Director Pete Dangermond said. Boyd, S., Ross, T., & Arnseth, L. (1991). Ceanothus ophiochilus (Rhamnaceae): A distinctive, narrowly endemic species from Riverside County, California. Phytologia, 70(1), 28-41. 221 Water Resources Institute, California State University San Bernardino Drummer, R. (2000, Jun 12, 2000). Land buy secures home for endangered species. The Business Press, p. 2. Riverside County has finalized its purchase of the 1,376-acre Johnson Ranch near Temecula in one of the region's largest open space acquisitions by a government agency. The trust has assisted in several large open-space acquisitions in the Inland Empire, including a $20-million deal to complete the purchase of nearly a half-million acres of former railroad land in the Mojave Desert to protect the endangered desert tortoise. Feldman, T. D., & Jonas, A. E. G. (2000). Sage scrub revolution? Property rights, political fragmentation, and conservation planning in Southern California under the Federal Endangered Species Act. Annals of the Association of American Geographers, 90(2), 256-292. This article examines the development of a subregional habitat conservation plan (HCP) for the protection of the federally listed Stephens' Kangaroo Rat in western Riverside County, California. Empirically, the authors demonstrate problems of incorporating property externalities into a subregional planning process and the various ways in which landowners and local progrowth interests have mobilized in response to HCPs developed within the federal ESA framework. Theoretically, the authors emphasize uneven development within Southern California's suburban-oriented mode of social regulation, which also provides a structural context for evaluating recent moves toward multispecies and ecosystem planning under the State of California's Natural Communities Conservation Planning (NCCP) framework. A pilot NCCP program for the coastal sage scrub ecosystem is fragmenting into a loosely coordinated amalgam of subregional HCPs developed under diverse local policy regimes. The article critically discusses the extent to which ecosystem planning in Southern California represents a revolution in the role of the US government in managing conflicts arising from conservation measures on private property in urbanizing regions. Harpel, J. A. (1980). A preliminary floristic study of the mosses in the San Jacinto Mountains. Unpublished Thesis (M.S.), California State Polytechnic University, Pomona, Pomona, CA. Kamoun, S. (1996). Occurrence of the threatened Cicindela senilis frosti Varas-Arangua in an inland salt marsh in Riverside County, California (Coleoptera: Cicindelidae). The Coleopterists' bulletin, 50(4), 369-371. Kopecko, K. J. P., & Lathrop, E. W. (1975). Vegetation zonation in a vernal marsh on the Santa Rosa Plateau of Riverside County, California. Aliso, 8(3). Lathrop, E. W., & Thorne, R. F. (1976). The vernal pools on Mesa De Burro of the Santa Rosa Plateau, Riverside County, California. Aliso, 8(4). Lathrop, E. W., & Thorne, R. F. (1983). A flora of the vernal pools on the Santa Rosa Plateau, Riverside County, California [List of species, ecology]. Aliso, 10(3), p. 449-469. Loew, B. (2000). Multiple species habitat conservation planning: Goals and strategies of local governments. Environmental management, 26(suppl.1), S15-S21. 222 Santa Ana River & Watershed Bibliography Riverside County Habitat Conservation Agency. (1995). Lake Mathews multiple species habitat conservation plan and natural community conservation plan. n.p.: Metropolitan Water District of Southern California. Thorne, R. F., & Lathrop, E. W. (1970). Pilularia Americana on the Santa Rosa Plateau, Riverside County, California. [Aquatic Plants, Pteridophyta, Plant Geography]. Aliso, 7(2). White, S. D., & Padley, W. D. (1997). Coastal sage scrub series of western Riverside County, California. Madrono, 44(1), 95-105. Wirth, W. W., & Mullens, B. A. (1992). Culicoides boydi (Diptera: Ceratopogonidae): A potential vector of hemorrhagic disease viruses to desert bighorn sheep in Southern California. Journal of medical entomology, 29(6), 1006-1010. Culicoides boydi new species is described from Riverside County, CA. A taxonomic key, table of numerical characters, and female wing photographs are presented to distinguish it from the three other species of the Culicoides pusillus species group of the subgenus Avaritia. Brief notes are presented on its biology and distribution and suspected vector potential in the transmission of bluetongue virus to desert bighorn sheep in California. Riverside County Ecology Griggs, F. T. (1987). The ecological setting for the natural regeneration of Engelmann oak (Quercus engelmannii Greene) on the Santa Rosa Plateau, Riverside County, California. USDA Forest Service general technical report PSW - United States, Pacific Southwest Forest and Range Experiment Station, 100, 71-75. Waggener, W. L. (1977). A comparative ecological study of Cnemidophorus tigris multiscutatus and Cnemidophorus hyperythrus beldingi in Riverside County, California. Unpublished Thesis (M.S.), California State Polytechnic University, Pomona., Pomona, CA. Riverside County Hazards/Disasters Angelos, R. E., & Ryono, T. (1975). Riverside County flood hazard investigation, Murrieta Creek (Department of Water Resources Bulletin No. 183-2). Sacramento, CA: State of California, Department of Water Resources. Riverside County Flood Control and Water Conservation District. (1970). Report on 1969 storms in Riverside County. Riverside, CA: Author. 223 Water Resources Institute, California State University San Bernardino Sullivan, S. (1992, December 1, 1992). Fire was a big help in battle against river cane; Officials responsible for keeping the Santa Ana River channel clear welcomed the results of Wednesday's riverbed fire, which wiped out 150 acres of the plant. Now there is a call for herbicide to prevent the cane from resprouting. The Press Enterprise, p. 564 words. Last week's raging fire in the Santa Ana riverbed was a blessing in disguise for Riverside County, which has been struggling to contain a giant cane infestation that is steadily choking the river channel. If officials act quickly enough, they can save several hundred thousand dollars in labor by spraying the burned stems of the arundo with herbicide. The fire did the work of hundreds of machete-wielding cane clearers. Paul Frandsen, deputy director of operations for the county's park and open space department, figures he has about six weeks before the cane takes back the riverbed. The exotic species is so tenacious that it will resprout from one untreated stem or from one piece of cane dropped in the water. The fire cleared 150 acres of cane in one night, a feat that would have taken months to do by hand. There are still piles of cane waiting for disposal. Frandsen would like to burn the dried vegetation but is having difficulty getting a permit from the regional air quality control district. Frandsen lists a few different options. U.S. General Accounting Office. (1994). Endangered Species Act: Impact of species protection efforts on the 1993 California fire: Report to Congressional requesters. Washington, DC: United States General Accounting Office. Riverside County Environmental Resources Management Map of Riverside County Flood Control and Water Conservation District zone boundaries, zone no.'s & projects (Cartographer). (1967). [1 map]. Land claims in Riverside County, California, and extension of the Toiyabe National Forest in Nevada: hearing before the Subcommittee on Public Lands and Resources of the Committee on Energy and Natural Resources on S. 2590 ... S. 2774 ... H.R. 7101 ... August 1, 1978., United States 95th Congress, Senate, 2nd Sess. (1978). California. (1981, September 10, 1981). Engineering News - Record, p. 54 words. Kasler Holding Co. (1996, Jan 11, 1996). Wall Street Journal, p. C17. Kasler Holding Co said its Washington Construction Co subsidiary and two joint-venture partners were awarded a $384 million contract to construct the Eastside Reservoir dam in Riverside County CA. RBWF gets contract for Prado Dam design work. (1998). Orange County Business Journal, 21(28), 7. The Army Corps of Engineers hired Robert Bein, William Frost & Associates to design improvements to the 57-year-old Prado Dam. Under the contract, estimated at more than $1 million, the Irvine-based company will develop structural engineering and civil design construction plans, specifications and improvements for the dam. 224 Santa Ana River & Watershed Bibliography Slow down -- storm water crossing ahead. (2002, Feb 18, 2002). The Business Press, p. 35. Without the basins, storm runoff will cut across property owned by the university and the city that is designated as a flood plain, preventing development. If the rainwater is contained in a basin, the areas will no longer be considered a flood plain. Last year, developer William P. Johnson, working on the Rancho California Temecula, North Plaza and Vail Lake projects, claimed to have spent about$1 million regrading and building sediment detention basins and reseeding areas -- all to control storm runoff. He faced fines of about $1.3 million for failing to obtain the proper storm water permits and allowing sediment-laden runoff -- muddy water -- from flowing into Murrieta Creek. Prado Dam construction to begin. (2003). International Water Power & Dam Construction, 55(6), 10. California and U.S. Federal officials have commenced on improvements to the Prado dam, aimed at protecting Orange County cities while limiting development in southern Riverside and San Bernardino counties. Albert A Webb Associates. (1960). Elsinore Valley Municipal Water District feasibility report on water distribution extensions to serve the Meadowbrook Heights area (Feasibility Report). Riverside, CA: Author. Ascenzi, J. (2002, Oct 7, 2002). Group buys canyon land for endangered species. The Business Press, p. 4. Gale Ann Hurd, owner of Valhalla Motion Pictures in Los Angeles, sold 711 acres to the Riverside Land Conservancy for $3.1 million and donated about 170 acres in the region, said Vindar Batoosingh, vice president with CB Richard Ellis' Ontario office. Land from both transactions contains several federally designated endangered species, including the kangaroo rat, as well as reserves of the protected coastal sage scrub, and eventually will be part of a 10,000- acre state park and habitat preserve, Riverside Land Conservancy Executive Director Pete Dangermond said. Bartle Wells Associates. (1972). Riverside County Flood Control and Water Conservation District.Unpublished manuscript, Riverside , CA. Bartle Wells Associates. (1974). Riverside County Flood Control and Water Conservation District.Unpublished manuscript, Riverside, CA. Bartle Wells Associates. (1978). Riverside County Flood Control and Water Conservation District: Zone 1.Unpublished manuscript, Riverside, CA. Born Barrett & Associates. (1982). Hemet master flood control and drainage plan for the city of Hemet, Riverside County, California. Newport Beach, CA: Author. Bryant, J. W. (1957, Sept. 20). Flood control and water conservation program of Riverside County. Paper presented at the County Engineers Convention, Santa Rosa, CA. 225 Water Resources Institute, California State University San Bernardino California Bureau of State Audits. (2002). Riverside County: Although the Ortega Trail Recreation and Park District seems to have complied with the law in forming two assessment districts, the county needs to determine if assessments collected after July 1, 1997, were legal (No. 2002-106). Sacramento, CA: Author. California Department of Water Resources. (1985). Home Gardens water system improvements phase II: Findings on the application of Home Garden County Water District for a construction loan under the Davis-Grunsky Act. Sacramento, CA: Author. California Division of Soil Conservation. (1964). Main Street Canyon watershed, Riverside County, California: Hydrologic appendix. Sacramento, CA: State of California, the Resources Agency, Dept. of Conservation, Division of Soil Conservation. California State Soil Conservation Commission, Palo Verde Irrigation District, & Palo Verde Soil Conservation District. (1968). A preliminary investigation of the feasibility of providing works of improvement within McCoy Wash Watershed, Riverside County, California. Sacramento, CA: California State Soil Conservation Commission. Coronado, M. (2003, December 3, 2003). Riverside's riverside: Team weighs in on the waterway; Preservation: Golf course, wetlands, trails are among the options along nine miles of Santa Ana River banks. The Press Enterprise, p. B08. A task force of environmentalists, leaders from local, state and federal jurisdictions and water specialists will meet Dec. 18 in a final meeting to recommend how best to preserve or develop trails and wetlands along the Santa Ana River. Most of task force efforts currently are focused into the small stretch that winds through Riverside, but their recommendations could ultimately influence how the river is built upon in other parts of Riverside and San Bernardino counties. Craib, J. L. (1980). Archaeological test sampling of sites within the La Quinta flood control channel easement (No. DACW09-80-M-0975). Los Angeles, CA: U.S. Army Corps of Engineers, Los Angeles District. Eastern Municipal Water District. (1953). Serving the entire San Jacinto River basin, EMWD. Hemet, CA: Author. Eastern Municipal Water District. (1985). Urban water management plan for Eastern Municipal Water District. n.p.: Author. Eastern Municipal Water District. (1995). The Eastern Municipal Water District urban management plan. San Jacinto, CA: Author. Report of referee: Upper San Jacinto basin in the Superior Court of the State of California in and for the County of Riverside; The city of San Jacinto, et al., Plaintiffs, vs. Fruitvale Mutual Water Company, et al., defendants, no. 51546., no. 51546 (Superior Court of the State of California 1955). 226 Santa Ana River & Watershed Bibliography Eventov, A. (1999, Jan 4, 1999). Water agency planning douses "Millennium bug". The Business Press, p. 3. The water district serves 550 square miles of western Riverside County from Moreno Valley south to Temecula, including 78,000 fresh-water customers and eight water districts. It has 1,100 miles of pipe and maintains five sewage treatment plants. The district's water and wastewater systems are not heavily reliant on computers. But the Y2K problem provided an opportunity to re-evaluate the district's emergency plans for both its water systems and its business functions, said Dan Ashley, director of information systems for the water district. The district began looking at the Y2K problem in 1995, and began incorporating solutions into strategic decisions. When the district moved its administrative headquarters in May 1998, it replaced its network server with a Y2Kcompliant Windows NT server. Frasher, S. (2003, Mar 17, 2003). California's Elsinore Valley supplied with recycled water. Knight Ridder Tribune Business News, p. 1. The Elsinore Valley Municipal Water District began augmenting lake water supplies with its own recycled water in June 2002 at a rate of 2 million gallons a day under a two-year pilot program -- Lake Elsinore is the first lake in California to be replenished by recycled water, Elsinore Valley Municipal Water District spokesman Greg Morrison said. Frasher, S. (2003, Mar 17, 2003). Treated water goes to Lake Elsinore, not waste; Water district sells supplies that otherwise would be released to sea. The Business Press, p. 5. The Elsinore Valley Municipal Water District began augmenting lake water supplies with its own recycled water in June 2002 at a rate of 2 million gallons a day under a two-year pilot program -- Lake Elsinore is the firstlake in California to be replenished by recycled water, Elsinore Valley Municipal Water District spokesman Greg Morrison said. Hirt, B. (Ed.). (1993). Quenching our thirst: Exploration, battles, and development of Southern California water supplies. San Jacinto, CA: Eastern Municipal Water District. Impact Sciences Inc. (1992). Rancho La Sierra specific plan (concept plan selection) (Draft environmental impact report). Thousand Oaks, CA: Impact Sciences Inc. Impact Sciences Inc. (1993). Rancho La Sierra specific plan (concept plan selection) : final environmental impact report. Thousand Oaks, CA: Author. Lake Hemet Municipal Water District (Artist). (1893-1905). Photographs of Lake Hemet Dam and Spillway [Photographs]. Historical and contemporary photographs of Lake Hemet Dam and Spillway in Riverside County. Shows construction of dam (1893-1894) and spillway (1927), lake during drought of 1903, aerial views of lake, etc. Lippincott, J. B. (1939). Prado flood control basin: Pertinent data. Los Angeles, CA: U.S. Army Corps of Engineers, Los Angeles District. 227 Water Resources Institute, California State University San Bernardino Mains, S. (1995). The urban water management plan of Western Municipal Water District of Riverside County, 1995-2000. Riverside, CA: Western Municipal Water District of Riverside County,. Marsh, G., MacDonald, T., Hoagland, J., Wong, N., Woodward-Clyde Consultants, & Elsinore Valley Municipal Water District. (1995, August 14-18, 1995). Railroad canyon dam overtopping protection. Paper presented at the 1995 First International Conference on Water Resources Engineering: Texas Water '95, San Antonio, TX. American Society of Civil Engineers, Water Resources Engineering Division; American Society of Civil Engineers, Environmental Engineering Division; American Society of Civil Engineers, Water Resources Planning and Management Division; American Society of Civil Engineers, Waterway, Port, Coastal and Ocean Division; American Institute of Hydrology; American Water Resources Association; Canadian Society for Civil Engineering; International Association for Hydraulic Research; US Geological Survey; US Bureau of Reclamation ; Natural Resources Conservation Service; Society of Range Conservation; Soil and Water Conservation Society; Texas Water Development Board; Texas Natural Resource Conservation Committee Railroad Canyon Dam, completed in 1928, is a 75-foot high, 375-foot long concrete arch dam, plus associated thrust blocks and wingwalls, and is located on the San Jacinto River, just upstream from Lake Elsinore, in Riverside County, California. The San Jacinto River is a tributary of the Santa Ana River. The dam impounds an 11,900 acre-ft. reservoir, which is surrounded by luxury homes. The drainage area above the dam is 700 square miles. The existing spillway was designed to pass about 35,000 cfs. Due to inadequate spillway capacity and recent changes in data and procedures for calculating Probable Maximum Precipitation (PMP), the dam would be overtopped during a theoretical Probable Maximum Flood (PMF). The California Division of Safety of Dams (DSOD) is concerned that erosion at the abutments and toe of the dam could cause it to fail during overtopping. Thus, modifications to increase spillway capacity and to provide protection of the abutments are required. Materna, J. (2000, Mar 13, 2000). Inland Empire Focus: Reservoir now on tap for water, sports. The Business Press, p. 1. Once the 260-billion-gallon lake fills up, Metropolitan Water District of Southern California's primary goal will have been fulfilled: to double Southern California's surface water retention and provide six months' worth of emergency storage south of the San Andreas Fault. The reservoir is a well that many water districts serving Southern California businesses and residents can draw from in the event of a drought. But the MWD, along with officials from Riverside County and the city of Hemet, believe the project will also become a premier recreation destination generating millions of dollars each year for the local economy. The water district hopes this spring to open a portion of an 80-mile network of hiking, bicycling and equestrian trails, according to MWD spokesman Tim Skrove. 228 Santa Ana River & Watershed Bibliography McBride, M. (1999, May 4, 1999). $3 million in House bill to cut Arundo: The bill now goes to the Senate. The Press Enterprise, p. 524 words. The effort to get rid of a major nuisance plant choking the Santa Ana River got a boost when the House passed a federal water project bill containing $ 3 million toward doing the job. The Water Resources Development Act also would include Murrieta Creek as part of a pilot program to reduce flood hazards of rivers throughout the country. The arundo’s aggressive growth has pushed out native plants. McMahon, W. A. (1994). Lake education project: An environmental program for Lake Elsinore students. Unpublished M.A., California State University, San Bernardino, CA. Metropolitan Water District of Southern California. (1991). Eastside Reservoir project: Final environmental impact report. Los Angeles, CA: The Metropolitan Water District of Southern California, Planning Division. Norwood, R. L. (1997). Tertiary wastewater treatment using riparian wetlands: A curriculum guide for high school students. Unpublished Thesis (M.A.), California State University, San Bernardino, San Bernardino, CA. Pierce, K. H. (1967). Perris Reservoir recreation land use and acquisition plan (Revised). Sacramento, CA: Resources Agency, Dept. of Parks and Recreation, Division of Beaches and Parks. Pomeroy Johnston and Bailey Civil and Chemical Engineers. (1965). Report on disposal of nonreclaimable wastes produced in the upper Santa Ana River basin of Riverside County, California: A report to Riverside County Flood Control and Water Conservation District. Pasadena, CA: Author. Randolph Hlubik Associates Inc. (1989). California Citrus State Historic Park: Final general plan. Sacramento, CA: California State Department of Parks and Recreation. Riverside County Flood Control and Water Conservation District. (1947-). Annual report of the Riverside County Flood Control and Water Conservation District for the fiscal year... (Annual). Riverside, CA: Author. Riverside County Flood Control and Water Conservation District. (1965). Main Street Canyon watershed, Riverside County, California (Engineering design appendix). Riverside, CA: Author. Riverside County Flood Control and Water Conservation District. (1967-). Biennial report: Riverside County Flood Control and Water Conservation District (Journal). Riverside, CA: Author. Riverside County Flood Control and Water Conservation District. (1971). Riverside County Flood Control and Water Conservation District: Zone 1. Riverside, CA: Author. Riverside County Flood Control and Water Conservation District. (1974-1985). Hydrologic data for ... season (Journal). Riverside, CA: Author. 229 Water Resources Institute, California State University San Bernardino Riverside County Flood Control and Water Conservation District. (1978). Riverside County Flood Control and Water Conservation District, 1971-1977 progress report. Riverside, CA: Author. Riverside County Flood Control and Water Conservation District, & National Science Foundation (U.S.). (1960-). Annual report for fiscal year (Journal Government document). Riverside, CA: Author. Riverside County Flood Control Water Conservation District. (2004). Welcome to Riverside County Flood Control and Water Conservation District: Floodplain information. Retrieved March 17, 2004, 2004, from http://www.co.riverside.ca.us/depts/flood/floodplaininfo.asp Rosta, P. (1995). This reservoir is no dog. ENR, 234(10), 20. The first bids have been open for the $1.97-billion Domenigoni Valley Reservoir Project in Riverside County, California. It is one of the richest public works programs of the year and contractors are already treating the early contracts as a prelude to the minimum $400-million main contract competition set to end in October 1995. San Gorgonio Soil Conservation District, & Riverside County Flood Control and Water Conservation District. (1956). Tentative watershed work plan, Smith Creek Watershed, Riverside County, California. n.p. Sciandrone, J., & al, e. (1982). Levee failures and distress, San Jacinto River levee and Bautista Creek Chanel, Riverside County, Santa Ana River Basin, California. Scott, G. (1998, Aug 24, 1998). Chino plan keeps dairy lands open City targets only a third of annexation area for development. The Business Press, p. 1. The move is a required step toward annexation of the 1,810 acres covered by the plan. It also paves the way for similar efforts covering a larger chunk of the agricultural preserve - about 5,450 acres. Both sections consist mostly of dairy farms. Despite approval of the plan, little will change in the near future in Chino's chunk of the preserve. Roughly twothirds of that portion of the dairy preserve cannot be developed because the land is in flood plains or airport flight paths, city officials say. Orange County is considering raising the height of the Prado Dam near Corona so the dam can withstand a so-called 100-year flood. But that project would put 320 acres of Chino's portion of the preserve under the flood line behind the dam. The neighboring county is responsible for buying that land. 230 Santa Ana River & Watershed Bibliography Stokley, S. (1993, July 29, 1993). Study made no promises, feds say; An erosion study of Santa Ana River bluffs near Norco has been sent to Washington - an action eliciting different responses from those involved. The Press Enterprise, p. 578 words. City Manager George Lambert announced this week that the $ 425,000 reconnaissance study by the Los Angeles district office had recommended the Corps accept responsibility for preventing future erosion of the Norco bluffs. But a spokesman for the Corps of Engineers in Washington D. C. said yesterday that a reconnaissance study would not acknowledge responsibility for a problem. Lambert said that the fact that it had been sent on to Washington D. C. for final approval was a good sign. During the storms of 1969 and 1980, the bluffs were ravaged by the rain-swollen Santa Ana River and in some areas 50 feet of land was lost. The final decision on whether to use federal funds to protect the fragile bluffs would come from Washington. Suss, T. D., & Tobey, R. C. (1976). Historical resource survey of the Prado Flood Control Basin. Los Angeles: U.S. Army Corps of Engineers, Los Angeles District. Theodoratus Cultural Research Inc. (1983). The century of El Rincon: Historical synthesis of the Bandini-Cota adobe, Prado flood control basin, Riverside County, Ca. (Contract no. DACW09-82-M-2399) (Synthesis Report). Fair Oaks, CA: Author. U.S. Army Corps of Engineers. (1957). Santa Ana River Basin, California : Specifications for riverside levees downstream from Crestmore Avenue Bridge near Riverside, California. Los Angeles, CA: U.S. Army. Corps of Engineers. Los Angeles District.,. U.S. Army Corps of Engineers. (1969). Santa Ana River and tributaries, California: Review report for flood control - University Wash and Spring Brook, Riverside, California (with appendices). Los Angeles, CA: U.S. Army Corps of Engineers, Los Angeles District. U.S. Army Corps of Engineers Los Angeles District. (1940). Hydraulic model tests, spillway and outlet works: Prado Flood Control Dam on Santa Ana River, Prado, California. Los Angeles, CA: Author. U.S. Army Corps of Engineers Los Angeles District. (1956). Design memorandum no. 2, general design for Riverside levees. Los Angeles, CA: Author. U.S. Army Corps of Engineers Los Angeles District. (1956). Design memorandum no. 3, general design for Riverside levees. Part 2, Left-bank levee from Crestmore Avenue Bridge to Mission Boulevard Bridge and right-bank levee, Santa Ana River Basin, Calif. Los Angeles, CA: Author. U.S. Army Corps of Engineers Los Angeles District. (1957). Flood control project along Bautista Creek and San Jacinto River, Santa Ana River Basin, California. Los Angeles, CA: Author. U.S. Army Corps of Engineers Los Angeles District. (1959). Design memorandum no. 2, general design for Bautista Creek Channel: San Jacinto River and Bautista Creek improvements, Santa Ana River Basin, Calif. Los Angeles, CA: Author. U.S. Army Corps of Engineers Los Angeles District. (1959). General design for Bautista Creek channel, San Jacinto River and Bautista Creek improvements. Los Angeles, CA: Author. 231 Water Resources Institute, California State University San Bernardino U.S. Army Corps of Engineers Los Angeles District. (1960). General design for San Jacinto River levee, San Jacinto River and Bautista Creek improvements. Los Angeles, CA: Author. U.S. Army Corps of Engineers Los Angeles District. (1963). Detailed project report for Banning levee, San Gorgonio River. Los Angeles, CA: Author. U.S. Army Corps of Engineers Los Angeles District. (1970). Flood plain information: San Jacinto River (San Jacinto to Railroad Canyon), Riverside County, California. Los Angeles, CA: Author. U.S. Army Corps of Engineers Los Angeles District. (1971). Flood plain information: Salt Creek, Hemet to Railroad Canyon Reservoir, Riverside County, California. Los Angeles, CA: Author. U.S. Army Corps of Engineers Los Angeles District. (1973). Flood plain information, San Gorgonio River and Smith Creek, Riverside County, California. Los Angeles, CA: Author. U.S. Army Corps of Engineers Los Angeles District. (1974). Flood plain information: San Gorgonio River and tributaries, Riverside County, California. Los Angeles, CA: Author. U.S. Army Corps of Engineers Los Angeles District. (1976). Santa Ana River Basin and Orange County, California: Prado Dam foundation analysis. Los Angeles, CA: Author. U.S. Army Corps of Engineers Los Angeles District. (1979). Santa Ana River main stem, Santiago Creek and Oak Street Drain: Phase 1 general design memorandum studies for flood control and allied purposes. Los Angeles, CA: Author. U.S. Army Corps of Engineers Los Angeles District. (1980). Report on levee failures and distress, San Jacinto River levee and Bautista Creek channel: Riverside County, Santa Ana River Basin, California. Los Angeles, CA: Author. U.S. Army Corps of Engineers Los Angeles District. (1983). Bautista Creek Channel: Supplement no. 1 to design memorandum no. 3, general design for San Jacinto River levee, San Jacinto River and Bautista Creek improvements (Final). Los Angeles, CA: U.S. Army Corps of Engineers. Los Angeles District. U.S. Army Corps of Engineers Los Angeles District. (1985). Phase II general design memorandum, geotechnical appendix, Oak Street drain flood control project, Riverside County, California (geotechnical appendix). Los Angeles, CA: Author. U.S. Army Corps of Engineers Los Angeles District. (1993). Reconnaissance report: Norco Bluffs, Riverside County, California: Volume I: Main report (Reconnaissance). Los Angeles, CA: U.S. Army Corps of Engineers. Los Angeles District. U.S. Army Corps of Engineers Los Angeles District. (1995). Seven Oaks Dam and Prado Dams water conservation study (Main report including environmental impact statement, draft (F-4) study report). Los Angeles, CA: U.S. Army Corps of Engineers Los Angeles District. 232 Santa Ana River & Watershed Bibliography U.S. Army Corps of Engineers Los Angeles District. (1995). Seven Oaks Dam water conservation study (Technical appendices, draft (F-4) study report). Los Angeles, CA: U.S. Army Corps of Engineers Los Angeles District. U.S. Army Corps of Engineers Los Angeles District. (1997). Seven Oaks Dam water conservation, Santa Ana River Basin, California main report: Feasibility report (Feasibility). Los Angeles, CA: Author. U.S. Army Corps of Engineers Los Angeles District. (2000). Seven Oaks Dam: Foundation report, Santa Ana River Basin, California (Foundation report). Los Angeles, CA: Author. U.S. Army Corps of Engineers Los Angeles District. (2002). Prado basin and vicinity, including Reach 9 and stabilization of the Bluff Toe at Norco Bluffs: Reach 9 project features "Car Wash Strip Mall" access, Riverside, San Bernardino, and Orange counties, California (Draft supplemental environmental assessment and addendum to EIR 583). Los Angeles, CA: Author. U.S. Army Corps of Engineers Los Angeles District. (2003). Prado basin and vicinity, including Reach 9 and stabilization of the Bluff Toe at Norco Bluffs: Reach 9 Project features "Car Wash Strip Mall" access: Riverside, San Bernardino, and Orange counties, California (Final supplemental environmental assessment and addendum to EIR 583). Los Angeles, CA: Author. U.S. Army Corps of Engineers Los Angeles District. (2003). Proposed pilot channel in Prado Basin, Santa and [sic] River, Riverside County, California (Draft supplemental environmental assessment and addendum to EIR 583). Los Angeles, CA: Author. U.S. Army Corps of Engineers Portland District. (1988). Seven Oaks Dam outlet works: Phase II general design memorandum (Final). Portland, OR: Author. U.S. Office of the Assistant Secretary of the Army (Civil Works). (1997). Norco Bluffs, Riverside County, California: Communication from the Acting Assistant Secretary (Civil Works), the Department of the Army, transmitting a report on the project for river bank erosion control and bluff stabilization at Norco Bluffs, Riverside County, California, pursuant to section 101(b)(4) of the Water Resources Development Act of 1996. In U. S. C. H. C. o. T. a. Infrastructure (Ed.), House document / 105th Congress, 1st session (Vol. 105-145, pp. x, 292). Washington: U.S. Government Printing Office. University of California Riverside. (2003). University of California, Riverside storm water management plan. Riverside, CA: Author. Watson, M. (1993). Elsinore Valley Municipal Water District urban water management plan. Walnut Creek, CA: Elsinore Valley Municipal Water District. Webb, A. A. (1952). Elsinore Valley Municipal Water District preliminary design and cost estimates, imported water supply for Lucerne & Grand Avenue service areas. Riverside, CA: Elsinore Valley Municipal Water District. 233 Water Resources Institute, California State University San Bernardino Western Municipal Water District of Riverside County. (1988-). Water extractions for calendar year. Riverside, CA: Author. Covers water extractions made from the groundwater basins of the Santa Ana River Drainage Area above Prado Dam (excluding that part of the Chino Basin in San Bernardino County). Willdan Associates, & Eastern Municipal Water District. (1984). Draft facilities plan for Romoland Area of the Eastern Municipal Water District Project No. C-06-1563 project report. Anaheim, CA: Author. Williams, J. W. (1992). Lower Santa Ana River Canyon resource, flood plain, and habitat management plan: For the Santa Ana River from Imperial Highway to Prado Dam and for Brush Canyon (Final draft). Santa Ana, CA: County of Orange Environmental Management Agency. Riverside County Water Quality Albert A Webb Associates. (1959). Water quality study, Riverside - Arlington basins. Riverside, CA: A. A. Webb. Bachand, P., & Horne, A. J. (1993). A nitrogen budget for the Santa Ana River, Riverside County, California in 1990. Berkeley, CA: University of California, Environmental Engineering and Health Sciences Laboratory. Bachand, P. A. M. (1996). Effects of managing vegetative species, hydraulic residence time, wetland age and water depth on removing nitrate from nitrified wastewater in constructed wetland macrocosms in the Prado Basin, Riverside County, California. Unpublished Dissertation, Univ. of California, Berkeley, Berkeley, CA. Burton, C. A., Izbicki, J. A., & Paybins, K. S. (1998). Water-quality trends in the Santa Ana River at MWD Crossing and below Prado Dam, Riverside County, California (No. 0624BI 19.42/4:97-4173). Sacramento, CA: Orange County Water District. Burton, C. A., Kaehler, C. A., Christensen, A. H., U.S. Geological Survey, & Eastern Municipal Water District. (1996). Well-construction, water-quality, and water-level data, and pondinfiltration estimates, for three ground-water subbasins, Riverside County, California (Water-resources investigations report No. 96-4294). Sacramento, CA: U.S. Dept. of the Interior, U.S. Geological Survey. California Department of Water Resources Southern District. (1979). Ground water quality conditions in Menifee, Winchester, and South Perris subareas (District report). n.p.: Author. Comprehensive Planning Organization of the San Diego Region. (1977). Areawide water quality management plan, San Diego-Riverside designated area: Septic tank systems. San Diego, CA: Author. 234 Santa Ana River & Watershed Bibliography Danelski, D. (1996, December 22, 1996). Sewage launches wetlands revival; Riverside's treated waste water get further "treatment" as it benefits a growing wildlife area along the Santa Ana River. The Press Enterprise, p. 1006 words. Sewage may be the last thing that come to mind when one goes through the Hidden Valley ponds alongside the Santa Ana River at the northwest corner of Riverside. The series of ponds near the Santa Ana River are a sanctuary for wildlife. But the flora and fauna are fringe benefits of a city sewage-treatment strategy that uses Mother Nature to meet a state requirement to remove nitrogen from its highly treated sewage water. The ponds originally were built by a gun club for duck hunting. In the 1970s, they became part of county park called the Hidden Valley Wildlife Area and later - officials have no precise date - the city began feeding highly treated waste water into the ponds to keep them from drying up. It turned out this step actually helped clean the water further. By the 1980s, a researcher at the University of California, Riverside, found that the ponds naturally remove nitrogen from the waste water. Last year, the city completed about $ 2 million in improvements that added five new ponds and a network of pipes, dikes and monitoring devices that doubled the amount of water going through the ponds. City officials now want more of what they call a good thing. Evenson, D. E., & Dalrymple, S. R. (1974). A sensitivity study of the subsurface flow across the San Jacinto Fault and through the Bunker Hill Gap: A report prepared for the City of Riverside Public Utilities Department and the Santa Ana Watershed Planning Agency (No. 12430). Walnut Creek, CA: Water Resources Engineers. Florkowski, J. (2002, November 14, 2002). Man convicted of discharging polluted water into Santa Ana River. Inland Valley Daily Bulletin, p. 398 words. A former dairy operator was placed on two years of probation last week and ordered to pay a $10,000 fine for violating the federal Clean Water Act, according to the Los Angeles office of the U.S. Attorney. Dean Allan Swager, formerly of Corona, pleaded guilty inAugust to a felony violation of discharging manure-contaminated water from the Swager & Sons dairy into a tributary of the Santa Ana River in March 1999. Swager, 42, was sentenced to probation and the fine on Nov.4 in U.S. District Court in Santa Ana. The maximum punishment Swager could have faced was a three-year prison sentence and a $250,000 fine. Fugate, H. N., Idaho National Engineering Laboratory, & United States Air Force Strategic Air Command Environmental Compliance Division. (1991). Engineering evaluation/cost analysis report for March Air Force Base area no. 5 and site no. 4 removal action ground-water contamination treatment system (No. EGG-WM-9141). Idaho Falls, ID: EG&G Idaho Inc. Harris, R. A., & Hartford, J. L. (1965). Ground water quality study, Temescal Hydrologic subarea: A report to Santa Ana River Basin Regional Water Pollution Control Board (No. 8). Los Angeles, CA: California Dept. of Water Resources. Haughey, M. A. (1997). Copper dynamics of the sediments and water column of Lake Mathews, Riverside County, California. Unpublished Thesis (M.S.), University of California, Riverside, Riverside, CA. 235 Water Resources Institute, California State University San Bernardino Hitt, J. (1995). Toxic dreams. Harper's Magazine, 291(1742), 57. Between Sep 1956 and Nov 1972, the quarry called Stringfellow Acid Pits in California took in 34 million gallons of hundreds of different chemicals from about 100 different companies. In 1972, the dump was shut down, but the huge uncovered lagoons languished, unprotected by even a fence. A group of residents of Glen Avon called Concerned Neighbors in Action have filed suit, alleging that all of the city's problems could be traced to the dump. Izaguirre, G., Taylor, W. D., & Pasek, J. (1999). Off-flavor problems in two reservoirs, associated with planktonic Pseudanabaena species. Water Science and Technology, 40(6), 85-90. In the summer of 1996, off-flavor episodes involving 2-methylisoborneol (MIB) occurred in 2 southern California reservoirs: San Vicente Reservoir, in the San Diego area, and Lake Skinner, in western Riverside County. These events resulted in many consumer complaints from the resp. communities served. During the San Diego episode, moderate nos. of Pseudanabaena and other plankton were present in the water, and MIB was detected in one sample at 23 ng/L. Two strains of Pseudanabaena that produced MIB were isolated; cultures of this organism yielded 22 and 23 .mu.g/L, resp. Lake Skinner water also contained a moderate no. of Pseudanabaena and other plankton when MIB levels began to rise, with MIB reaching 10 ng/L. Liq. and agar cultures derived from Lake Skinner water developed a strong MIB odor, and eventually three MIB-producing isolates were obtained. MIB levels in the cultures were all <1 .mu.g/L. This was the 1st known MIB episode of planktonic origin in Lake Skinner, and it was the 1st off-flavor event in either reservoir in which Pseudanabaena was implicated. These 2 events underscore the potential importance of an organism not generally recognized as a cause of off-flavor in water supplies. Metropolitan Water District of Southern California, & Cadiz Inc. (1998). Addendum no. 1 to the final environmental impact report for the drainage water quality management plan, Lake Mathews Watershed [State Clearinghouse no. 91102048] (No. 1146). Los Angeles, CA: The Metropolitan Water District of Southern California, Planning and Resources Division, Environmental Planning Branch. Nash, J. (2001, May 25, 2001). Norco faces steep fines: WASTE: Too many pollutants discharge into the Santa Ana River, and talks with a state agency stall. The Press Enterprise, p. 388 words. The city faces fines of more than $ 100,000 for allowing too many pollutants to discharge into the Santa Ana River from its wastewater treatment plant last year, and a solution to the pollution problem has been stalled. Norco officials had hoped to divert wastewater from Norco Ranch, an egg producer and the city's largest private employer, from the local treatment plant to a regional pipeline to avoid the fines. The city asked the California Department of Corrections, which operates a prison in Norco, to tap into the municipal treatment system and give the egg ranch its capacity in the regional pipeline. But the Department of Corrections has turned down the idea, saying there are too many uncertainties about the future of the California Rehabilitation Center, a medium-security prison with about 4,800 inmates near Lake Norconian. 236 Santa Ana River & Watershed Bibliography Orr, J. H. (2001, Sep 10, 2001). Work begins in Perris on water treatment facility EMWD plant will clean Colorado River supplies for sale to new housing tracts. The Business Press, p. 4. Work began Aug. 7 on the Perris Water Treatment Plant, which will tap the Colorado River Aqueduct to treat and filter supplies at an existing Eastern Municipal Water District pumping station near East Rider Street and Evans Road in Perris. The plant will be operational by next summer. Currently, Eastern's allocation of aqueduct water is sold mostly to agriculture users for irrigation. Treating the water for domestic purposes will free up groundwater and recycled supplies for commercial customers, [Peter Odencrans] said. Eastern intends to pay off the construction bonds with connection fees from builders of new homes and businesses. A lawsuit filed recently in Riverside County Superior Court by Barratt American Inc., a Carlsbad-based builder of the 324-unit Montego townhome development in the Temecula area, will have no impact on the Perris plant, Odencrans said. Richardson, N. L. (1964). Ground water quality objectives, San Jacinto River Valley, Riverside County (First report). n.p.: California Dept. of Water Resources. Riverside Planning Dept., John Carollo Engineers, & Ecos Management Criteria. (1980). Proposed Riverside water quality control plant modifications (Draft environmental impact report). Riverside, CA: Ecos Management Criteria. Santa Ana Watershed Project Authority. (1992). 205(J) multi-objective optimization methodology for the Upper Santa Ana Basin. Riverside, CA: Santa Ana Watershed Project Authority. Stokley, S. (2001, August 18, 2001). Perchlorate may threaten Santa Ana River STRINGFELLOW: The state is testing samples and urging well users to switch to Jurupa district water. 81 parts per billion. The Press Enterprise, p. 1146 words. A chemical that causes thyroid damage may threaten the groundwater supply in the Santa Ana River and has contaminated at least one private well in Mira Loma used for drinking water, state officials said this week. State Department of Toxic Substances Control testing found that perchlorate, a component of rocket fuel, emanating from the Stringfellow acid pits has cut a wide swath through Jurupa. State officials are issuing warnings to well users to abandon them and begin using Jurupa Community Services District water for drinking and other uses. State officials are awaiting test results from samples taken from the Santa Ana River, but some suspect ithey already exists there. The Orange County Water District, a water wholesaler for the entire northern part of Orange County, gets about 50 percent of its water from the river. Another analysis is scheduled for this summer. Stokosa, T. J. (1999). Using GIS modeling to determine nitrate loading runoff in the Temescal Wash watershed, Southern California. Unpublished Thesis (M. A.), California State University, Long Beach, Long Beach, CA. United States Geological Survey Ground Water Branch. (1963). Data on water wells and springs in the Chuckwalla Valley area, Riverside County, California (California Dept. of Water Resources Bulletin No. 91-7). Sacramento, CA: California Department of Water Resources. 237 Water Resources Institute, California State University San Bernardino Willets, D. B., & Illingworth, L. R. (1956). Office report on investigation of hexavalent chromium waste discharge, Murrieta, Riverside County (Water quality investigations). Los Angeles, CA: California Division of Water Resources. Woolfenden, L. R., & Bright, D. J. (1988). Ground-water conditions in the Anza-Terwilliger area, with emphasis on the Cahuilla Indian Reservation, Riverside County, California, 1973-86 (Water-resources investigations report No. 88-4029). Denver, CO: Dept. of the Interior, U.S. Geological Survey. 5.3 Riverside County Development and Use General Information Hercules, N. (1994). Eagle Mountain Landfill passes test. The Public Record, 18(23), 1. Although the Eagle Mountain Landfill and Recycling Center has passed its most critical test -- approval of a water permit from the Regional Water Quality Control Board -- it will probably not get a permit to operate until next month, according to company officials. The Mine Reclamation Corporation (M.R.C.) currently has its solid waste application with the Riverside County Environmental health Department and must have this application reviewed by the Integrated Waste Management Board in Sacramento before receiving the operating permit. (excerpt) Messinger, R. (1996, Nov 4, 1996). Standoff over Murrieta redevelopment nears end. The Business Press, p. 4. Both sides have a great deal at stake in the suit, which parallels at least two other Inland Empire cases filed in the three years since the Legislature reformed state redevelopment law. In this case, Riverside County has challenged a proposed 3,500-acre Murrieta redevelopment area on the basis that it is neither urbanized nor blighted - two of the primary criteria for establishing a project area. The county also challenged a variety of procedural matters. City Manager Stephen Harding said that current redevelopment law makes it difficult for Murrieta to compete for economic development. "It puts us at a major disadvantage in this trade area," he said, because Temecula has well-established infrastructure - something Murrieta sorely lacks, he said. Infrastructure like roads and sewers will be a major focus of Murrieta's redevelopment project if the court allows its formation. The lawsuit has prevented Murrieta from solving some of the problems the redevelopment area was intended to address, Harding said. For instance, Rancon Industrial Park was designed before real estate values plunged, and its infrastructure costs make lots there too expensive now. Riverside County Planning Commission. (1960). Planning, Riverside County, California, 19301960. Riverside, CA: Author. The Planning Institute, University of Southern California, & Peat Marwick/Goodkin Real Estate. (1988). Riverside County growth management study. Riverside, CA: Riverside County Residents for Reasonable Growth Controls. 238 Santa Ana River & Watershed Bibliography Riverside County History Bean, L. J., Vane, S. B., Young, J., & Schwenn, B. (1991). The Cahuilla landscape: The Santa Rosa and San Jacinto Mountains. Menlo Park, CA: Ballena Press. Foster, J. M., Romani, G. R., Greenwood and Associates, & United States Army Corps of Engineers Los Angeles District. (1995). Mexican potters of Prado. Tucson, Az.: Statistical Research, Inc. Foster, J. M., Toren, A. G., Greenwood and Associates, & United States Army Corps of Engineers Los Angeles District. (1995). Archaeological and historical investigations of seven sites in the Prado basin. Tucson, AZ: Statistical Research, Inc. Greenwood, R. S., Foster, J. S., Duffield, A. Q., & Hatheway, R. G. (1990). Context and evaluation of historical sites in the Prado Basin. Pacific Palisades, CA.: Greenwood and Associates. Greenwood, R. S., Frierman, J. D., Foster, J. M., & Greenwood and Associates. (1983). The Bandini-Cota Adobe, Prado Dam, Riverside County, California: Test excavation. Springfield, VA: National Technical Information Service. Huber, W. L. (1925). Hemet Irrigation District.Unpublished manuscript. Report and correspondence on water supply and proposed consolidation of Lake Hemet Water Company and Fruitvale Mutual Water Company in Riverside County, California. James, G. W., & Chuckawalla and Palo Verde Irrigation Association. (1912). Report of the meetings of the delegates and executive board of the entrymen of the Chuckawalla Valley and Palo Verde Mesa. Los Angeles: Chuckawalla and Palo Verde Irrigation Association. Jimenez, G. L., & Johnson, T. M. (1981). Riverside City College, 1916-1981: A 65 year history. Riverside, CA: The Board of Trustees, Riverside Community College District. Keller, J. S., & McCarthy, D. F. (1989). Data recovery at the Cole Canyon site (Ca-Riv-1139) Riverside County, California. Pacific Coast Archaeological Society Quarterly, 25(1), iiivi, 1-89. A comprehensive report on the excavation of a Luiseno Indian site in Riverside County, California, recovered over 25,000 specimens, including ceramics, ground and flaked stone artifacts, beads and ornaments, figurines, and pictographs. Klotz, E. (1972). Riverside and the day the bank broke: A chronicle of the city, 1890-1907 (1st ed.). Riverside, CA: Rubidoux Press. McCarthy, D. F., & Goodman, J. D., II. (1986). Archaeological studies at Hi Card Ranch (CaRiv-1806), Santa Rosa Plateau, Riverside County, California. Pacific Coast Archaeological Society Quarterly, 22(2), 45-79. Excavations at the Hi Card Ranch site indicate that this prehistoric camp was probably occupied on a seasonal basis by Indians of the La Jolla culture. 239 Water Resources Institute, California State University San Bernardino McCarthy, D. F., King, C. D., & Yohe, R. M., II. (1987). Archaeological studies at Wildomar, Ca-Riv-2769, Riverside County, California. Pacific Coast Archaeological Society Quarterly, 23(1), 1-46. Presents the results of a 1984 archaeological study near Wildomar, California, of a Late Prehistoric Luiseno seasonal camp inhabited from circa 1000 to the mission period and discusses the findings in light of the ethnography on the Luiseno people who inhabited the region during the mission period. O'Connell, J. F. (1973). Perris Reservoir archeology: Late prehistoric demographic change in southeastern California (Archeological report No. 14). Sacramento, CA: University of California, Riverside, Archaeological Research Unit. Patterson, T. (1964). Landmarks of Riverside and the stories behind them. Riverside, CA: PressEnterprise Co. Patterson, T. (1971). A colony for California: Riverside's first hundred years. Riverside, CA: Press-Enterprise Co. Quinton Code & Hill Consulting Engineers. (1925). General report on water supply and proposed consolidation of Lake Hemet Water Company and Fruitvale Mutual Water Company in Riverside County, California. Hemet, CA: Joseph Barlow Lippincott. Riverside Water Company. (1888). Articles of incorporation and by-laws of the Riverside Water Company, Riverside, California: As amended June 29, 1885. Riverside, CA: Riverside Water Company. Robinson, W. W. (1957). The story of Riverside County. Riverside, CA: Riverside Title Co. Roe, J. H. (1932). Notes on early history of Riverside, California.Unpublished manuscript, Riverside, CA. Smith, G. A., & Freers, S. M. (1994). Fading images: Indian pictographs of western Riverside County. Riverside, CA: Riverside Museum Press. Whelan, H. A. (1973). Eden in Jurupa Valley: The story of Agua Mansa. Southern California Quarterly, 55(4), 413-429. An account of the founding of the Agua Mansa community in San Bernardino Valley in 1845. Conceived by ranchers Antonio Maria Lugo and Juan Bandini as a buffer against hostile Indians, the community was settled by pioneers from New Mexico led by Lorenzo Trujillo. In contrast to other Alta California pueblos, Agua Mansa citizens were not taken from jails, were not gamblers and drunkards, and were known to be hard-working and law-abiding. After California became a state, Agua Mansa and adjacent settlements were formed into the town of San Salvador in San Bernardino County. Agua Mansa's existence suddenly ended in 1862 when the Santa Ana River flooded the area and destroyed the town. Primary and secondary sources; 66 notes. 240 Santa Ana River & Watershed Bibliography Riverside County Settlement Rand McNally map of Riverside County: A section of complete map of California [6N35] (Cartographer). (1935). [2 maps on 1 sheet ;]. Rand McNally map of Riverside County: Section of complete map of California (Cartographer). (1946). [2 maps on 1 sheet]. Report for the period. (1955-). Riverside, CA: Western Municipal Water District of Riverside County. Construction of water storage and supply systems in Alessandro and Perris Valleys; and water supply at Elsinore.Unpublished manuscript(1960-). Berkeley, CA. Map of Riverside County, California, showing public highways and judicial districts (Cartographer). (1962). [1 sheet]. California water district to build 500-MW pumped storage project. (2002). Global Power Report, 10. Streamlined review advances stalled projects. (2003). Civil Engineering, 73(11), 36. Four major transportation projects that had ground to a halt are now moving forward thanks to a federal task force charged with expediting environmental reviews. The projects involve the development of a portion of Interstate 80 in Nebraska; a north-south multimodal corridor in Riverside County California; a circumferential highway in Vermont's Chittenden County and Bridge projects in Kentucky and Indiana. Albert A Webb Associates. (1972). Bidding documents, contract, special requirements, and basic specifications for constructing WR-23 connection metering and pressure reducing facility specification no. W-1. Riverside, CA: Author. Bailey, C. Z., & Ramsey, J. A. (Artist). (1939). Fuller Rancho [Photographs]. 24 photocopy views of the Fuller Rancho situated in the Santa Ana River Vally near Corona. Bailey, P. (1933). Report to the Regents of the University of California on the water supply for the Citrus Experiment Station, Riverside County, California. Santa Ana, CA: Author. Brock, J., Elliott, J. F., Resnick, B., & Sawyer, W. A. (1986). Santa Ana River upstream alternatives: Cultural resources survey. Cypress, CA: ECOS Management Criteria Inc. California Department of Transportation District 8. (1994). Initial study/environmental assessment: New interchange on Interstate 215 at the extensions of Evans Road and Ellis Avenue between the Fourth Street Case Road interchanges in the city of Perris in Riverside County (No. 08-RIV-215 P.M.. 24.7/26.1). San Bernardino, CA: State of California, Dept. of Transportation. 241 Water Resources Institute, California State University San Bernardino California Department of Water Resources. (1963). Feasibility of serving the San Gorgonio Pass Water Agency from the state water facilities (California. Dept. of Water Resources Bulletin No. 119-2). Sacramento, CA: Author. California Department of Water Resources. (1970). Meeting water demands in the ChinoRiverside area. Appendix A: Water supply (California Dept. of Water Resources Bulletin No. 104-3). Sacramento, CA: Author. California Office of the Auditor General. (1991). The Lake Elsinore management project: Report (No. P-042). Sacramento, CA: Author. California Public Utilities Commission Transportation Division. (1965). Report of commission staff on application no. 47295, 20th Street, County of Riverside. Sacramento, CA: Author. Campbell, K. W. (1963). Valle Vista sanitary survey. Berkeley, CA: State of California, Dept. of Public Health, Bureau of Sanitary Engineering. Carboni, W. F., & Barg, W. M. (1974). Meeting water demands in the Corona-Norco area. Riverside, CA: A.A. Webb Associates. Comprehensive Planning Organization. (1970). National highway functional classification and needs study, 1970-1990. San Diego, CA: Author. Dyer, C. M. (1989). Downtown Riverside: A case study in comprehensive planning. Unpublished M.U.R.P., California State Polytechnic University, Pomona, Pomona, CA. Eventov, A. (2003, Feb 1, 2003). Water projects map housing boom in Riverside County, Calif. Knight Ridder Tribune Business News, p. 1. The Eastern Municipal Water District reported its busiest year in more than a decade for new water and sewer projects. At its current pace, the water district's 199 new water and sewer projects started in 2002 will accommodate 13,421 new homes from Moreno Valley to San Jacinto to Temecula. "If you look at the lion's share of the activity in the Inland Empire, it would be in the heart of Riverside County along the 215 freeway corridor," said Steve Johnson, director of the Metro Study Group, a Riverside-based real estate consulting firm. Goudey, R. F. (1922). Report no. S-81 on the Hemet water supply (No. S-81). Berkeley, CA: State of California State Board of Health, Bureau of Sanitary Engineering. Hepler, H. (1994). District keeps earthquakes from shaking up water supply. The American City & County, 109(2), 64. Riverside Couny CA's Eastern Municipal Water District installed sensors that can detect seismic activity, giving officials some time to prepare for an earthquake. The system has shown its effectiveness. Hilscher, R., & California Bureau of Sanitary Engineering. (1917). On water supply of Cabazon (California State Board of Health report No. 10). [Berkeley]: State of California, Dept. of Public Health, Bureau of Sanitary Engineering. 242 Santa Ana River & Watershed Bibliography JHK & Associates. (1974). County of Riverside traffic operations study: Traffic operations program to increase capacity and safety. San Francisco, CA: California Division of Highways. Keith, A. C. (Cartographer). (1942). Map of Riverside County, California showing public highways [1 map]. Keith, A. C. (Cartographer). (1954). Map of Riverside County, California showing public highways [1 map]. Koebig & Koebig Inc. (1917). Report of the project of irrigating the Palo Verde Mesa and the Chucawalla Valley, Riverside County, California, by pumping from the Colorado River, showing the feasibility and cost of the enterprise. Los Angeles, CA: Author. Kubota, J. Y. (1953). Highgrove (Riverside County) sanitary survey. Berkeley, CA: State of California, Dept. of Public Health, Bureau of Sanitary Engineering. Kubota, J. Y. (1953). Sedco (Riverside County) sanitary survey. Berkeley, CA: State of California, Dept. of Public Health, Bureau of Sanitary Engineering. Kubota, J. Y. (1955). Rubidoux sanitary survey. Berkeley, CA: State of California, Dept. of Public Health, Bureau of Sanitary Engineering. Lando, R., & Wilke, P. J. (1979). Cultural resources reconnaissance (stage II) of flood control alternatives proposed for the Whitewater River Basin, Riverside County, California. Los Angeles, CA: U.S. Army Corps of Engineers, Los Angeles District. Lang, D. J., & Riverside County Flood Control and Water Conservation District. (1979). Waterresources data, 1970-75, for Perris Valley and vicinity, Riverside County, California (Open-file report No. 79-1256). Menlo Park, CA: U.S. Geological Survey. MacRostie, W., Sabiston, D. W., & Banks, H. O. (1951). Interim report on Elsinore Basin investigation. Sacramento, CA: State of California, State Water Resources Board. Metropolitan Water District of Southern California, Western Municipal Water District of Riverside County, Eastern Municipal Water District, & P & D Technologies. (1988). Land use/demographic study of western Riverside County. Orange, CA: P&D Technologies. Metropolitan Water District of Southern California Planning Division, & County of San Diego Water Authority. (1992). San Diego pipeline no. 6 (Draft environmental impact report No. 1078). Los Angeles, CA: Author. Muckel, D. C., Aronovici, V. S., & Blaney, H. F. (1948). Progress report on rainfall and irrigation water penetration and consumptive use in the Chino basin, Santa Ana River Valley, California (Provisional, subject to revision). n.p.: U.S. Dept. of Agriculture Soil Conservation Service. Neal, Y. M. (1991). Highway 79 at San Jacinto River Bridge replacement, 08-Riv-79-31.2 (Initial study/environmental assessment No. 91032005). Riverside, CA: California Dept. of Transportation, District 8. 243 Water Resources Institute, California State University San Bernardino Neal, Y. M. (1991). Highway 79 at San Jacinto River Bridge replacement, 08-Riv-79-31.2: Negative declaration SCH# 91032005; finding of no significant impact (No. 91032005). San Bernardino CA: California Dept. of Transportation, District 8,. Pacific Southwest Biological Services Inc., & Keller Environmental Associates. (1992). Report of a biological assessment for the proposed San Diego pipeline no. 6: A joint project of the Metropolitan Water District of Southern California and San Diego County Water Authority (No. 1079). Los Angeles, CA: Metropolitan Water District of Southern California Planning Division. Rancho California Water District. (1978). Draft EIR for water supply facilities to year 1985 for Rancho Division (Draft EIR). Temecula, CA: Author. Reinhardt, A. W., & Kubota, J. Y. (1953). Fern Valley (Riverside County) sanitary survey. Berkeley, CA: State of California, Dept. of Public Health, Bureau of Sanitary Engineering. Riverside County Planning Commission. (1966). General plan Riverside County, California, land use, highways, recreation. Riverside, CA: Author. Savage, H. N. (1921). Water supply works: Domestic and irrigation: Official up-state visit and inspection, October 4-10, 1921 inclusive (Inspection). n.p. Schuyler, J. D. (1898). Report on proposed pipe-distribution and water purification improvements at Hemet, Cal: n.p. Schuyler, J. D. (1911). The artesian water supply of the Elsinore Lake basin, Riverside County, California: Report on tests of wells bored by the Superior Land and Water Company. n.p. South Riverside Land and Water Company. (1887-1899). South Riverside Land and Water Company accounts, 1887 - 1889.Unpublished manuscript. State of California Department of Finance Demographic Research Unit. (1990). 1990 census of population and housing: Complete tables: state: California; county: Riverside. In S. t. f. 1 (Ed.) (Vol. Riverside [County] -- Riverside city). Sacramento, CA: State Census Data Center. U.S. Federal Highway Administration, & California Dept. of Transportation. (1981). Supplement to the draft environmental impact statement for development of a transportation facility on Route 15 between Magnolia Avenue in the City of Corona and State Route 60 north of the City of Norco in the counties of Riverside and San Bernardino (Supplement No. FHWA-CA-EIS-79-03-DS). Washington, DC: Authors. U.S. Federal Highway Administration, & California Dept. of Transportation. (1982). Final environmental impact statement for development of a transportation facility on Route 15 between Magnolia Avenue in the City of Corona and State Route 60 north of the City of Norco in the counties of Riverside and San Bernardino (Final EIS No. FHWA-CA-EIS79-03-FSCH number 78080886.08-Riv-15-40.4/51.5.08201-186001.). Washington, DC: U.S. Federal Highway Administration. 244 Santa Ana River & Watershed Bibliography Welsh, J. (2002, Jan 24, 2002). Corona, Calif. area lake to get reclaimed water. Knight Ridder Tribune Business News, p. 1. The Elsinore Valley Municipal Water District applied for the permit to put the reclaimed water into the lake as one way to resolve a conflict with the city of Lake Elsinore. City officials worried that reclaimed water would add more nutrients to a nutrient-heavy lake. But the amount of recycled water the district is proposing in the pilot plan is similar to putting a microscopic drop of bleach into a pitcher of water, [Greg Morrison] said. Western Municipal Water District of Riverside County. (1990). The urban water management plan of Western Municipal Water District of Riverside County: 1991-1996. Riverside, CA: Author. Wetherbee, A. M. (1987). Infrastructure financing via crossover refundings told. Worts, G. F. (1953). Report on the Pauba Ranch Exploratory Well, Riverside County, California (Open-file report). Long Beach, CA: United Sates, Department of the Interior, Geological Survey, Ground Water Branch. Riverside County Agriculture and Other Uses Mt. San Jacinto State Park [Booklet]. (1956). Sacramento, CA: California Division of Beaches and Parks. Riverside County agricultural crop report. (1963-). Riverside, CA: Riverside County Agricultural Commissioner. Riverside County popular street atlas (Cartographer). (1980). [1 atlas (viii 757 p. in various pagings)]. Riverside County industrial development map (Cartographer). (1981). [3 maps]. Riverside: A study in contrasts. (1986). Orange County Business Journal, 9(7), 38. The first white men arrived in Riverside County in 1774 with a Spanish expedition led by Juan Bautista de Anza. Settlers began moving into the area in the early 19th century, devoting themselves chiefly to cattle raising on large tracts of land granted by the Spanish crown. Then after the drought of 1863 and 1864 they turned to the production of grains and fruits. The County of Riverside was established as a separate entity in 1893 from a large but thinly settled portion of San Diego County and a small but relatively populous section of San Bernardino County. (excerpt) Recreation and thoroughfare map of desert and communities (Cartographer). (1989). [2 maps on one sheet: col.; on sheet 28 x 43 cm.]. Orange Heights Orange Association: Finding aid. (1996). Corona, CA: Corona Public Library. 245 Water Resources Institute, California State University San Bernardino Project aims to make Norco 'horse capital'. (2004, Jan 5, 2004). The Business Press, p. 1. Polluters are planting kelp along the Pacific Ocean in Orange County and removing a tropical plant that's clogging flood channels and choking native vegetation. The companies are paying off fines levied for pollution discharges or other water- related misdeeds. The Santa Ana Regional Water Quality Control Board has promoted this funding mechanism because it keeps money in local projects instead of sending the cash to a statewide water cleanup account in Sacramento. But the regional water board may scale back the projects because it has too little staff to oversee all those receiving the cash or the polluters paying for them. Agricultural Commissioner Riverside County. (1945-). Annual report ... fiscal year ending June 30 ... Riverside, CA: Author. California Department of Parks and Recreation. (1964). Report and recommendations [on the] feasibility of a proposed park and recreation service in Perris Valley, Riverside County. Sacramento, CA: California, Dept. of Parks and Recreation, Division of Recreation. California Department of Parks and Recreation. (1964). A report concerning the feasibility of establishing a park and recreation service in Perris Valley. Sacramento, CA: California, Dept. of Parks and Recreation, Division of Recreation. California Department of Parks and Recreation. (1984). Lake Elsinore State Recreation Area preliminary general plan. Sacramento, CA: Author. California Department of Parks and Recreation Division of Recreation. (1965). Report and recommendations [on] feasibility of a proposed park and recreation district in the Hemet area, Riverside County, California. Sacramento, CA: Author. California Department of Water Resources. (1997). Lake Perris. Sacramento, CA: State of California, The Resources Agency, Dept. of Water Resources. State Park rules and regulations pertaining to Lake Elsinore State Recreation Area, Riverside County, California Administrative Code, Title 14, Division 3 (1946). California Farmland Mapping and Monitoring Program (Cartographer). (1994). Riverside County important farmland map, 1992 [1 map on 3 sheets]. Chamber of Commerce Riverside California Plant Location Coordinators. (1968). Proposed industrial waste outfall to the sea final report. Riverside, CA: Riverside Chamber of Commerce. 246 Santa Ana River & Watershed Bibliography Coronado, M. (2002, August 8, 2002). Not a good swim spot: Despite signs and other attempts to warn people, the sewage-contaminated Santa Ana River is used for recreation. The Press Enterprise. Wading in the Santa Ana River can make a person sick, but when the temperature is searing, the temptation to cool off can be great. During summer weekends, families park along a dirt turnoff near the In-N-Out burger on Van Buren Boulevard and take a short hike down to the river's bottom. A path surrounded by dirty diapers, beer cans and other trash leads to the Van Buren underpass, where the river pools up into a 2-foot stream. On hot days, residents from across the Inland area turn the Santa Ana River into their own beach. County officials say the waters are contaminated with coliform bacteria and potential viruses. And that's exactly what has troubled county health officials for years. Even the prospect of human waste doesn't deter many of the weekend swimmers, who say the water looks fine. And besides, they've swum and splashed for months -- even years -- and haven't gotten sick. Development Company of Riverside. (n.d.). Co-operative ranching with irrigated crops in southern California: Oranges, lemons and cotton. Riverside, CA: Development Company of Riverside. Economic Development Department. (n.d.). Industrial directory. San Bernardino, CA: Author. Gardner, J. W. (1961). Recreation land use and acquisition plan for Perris Reservoir. Los Angeles, CA: State of California, Dept. of Water Resources, Southern District. Gianelli, W. R., & Eiland, R. G. (1977). Ability of agriculture to pay for water: n.p. Hall, J. H. (1992). A citrus legacy. Riverside, CA: Highgrove Press. Inland Empire Coalition. (1992). Southern California's Inland Empire resource guide. Riverside, CA: Inland Empire Coalition. Joseph E. Bonadiman & Associates. (1973). Gavilan Springs Ranch; environmental impact report. For a recreation vehicle park, Riverside County, California. San Bernardino, CA: Author. Mehta, S. (2004, February 4, 2004). Riverside OKs construction of 2 power plants: They will be built near the Santa Ana River north of the airport, and will cost $75 million for both. Los Angeles Times, p. 332 words. Striving to meet increased energy demands on sweltering summer days, the Riverside City Council voted Tuesday to build two power plants. While most cities and counties are looking to cut costs at a time of fiscal uncertainty, there was little discussion and no controversy before the council's 7-0 vote to spend $75 million to build the 50 megawatt "peaker" plants and a transmission line. The city is looking to generate more energy because two long-term contracts with the California Department of Water Resources end in 2005 and 2008, Tom Evans said. 247 Water Resources Institute, California State University San Bernardino Moses, H. V., & Larsen, G. H. (1995). The orange-grower is not a farmer: G. Harold Powell, Riverside Orchardists, and the Coming of Industrial Agriculture, 1893-1930. California History, 74(1), 22-37, 131-133. Describes the transformation of citrus agriculture in Riverside County, California, along the lines of industrial capitalism. Citrus growers did not consider themselves as ordinary farmers. From the 1890's on they adopted modern ideas in the marketing and distribution of citrus fruit and in 1905 formed the California Fruit Growers Exchange (CFGE). Riverside County growers were leaders in adopting industrial methods of growing, packaging, and distributing citrus fruit and in viewing farm workers in industrial terms. The growers welcomed the advice of Department of Agriculture investigator G. Harold Powell, who later headed the CFGE. Moses, V. (1982). Machines in the garden: A citrus monopoly in Riverside, 1900-1936. California History, 61(1), 26-35. Describes the monopoly on equipment used to process citrus production. Fred Stebler founded the California Iron Works (C.I.W.) in 1909 and George Parker organized the Parker Machine Works in the same year. The two competitors, both based in Riverside County, California, fought for control of the market until they merged in 1921. Stebler patented numerous inventions used in the processing of citrus, including washers, dryers, conveyors, and labelers. Of special note were the C.I.W.'s fruit sizer, fruit distributor, and fruit separator machines. In 1929 Stebler and Parker sold out to the Food Machinery Corporation which long maintained control over citrus machinery production. Muckel, D. C., & Aronovici, V. S. (1950). Rainfall and irrigation water penetration and consumptive use in the Beaumont-Yucaipa Area, Santa Ana River Valley, California. Pomona, CA: U.S. Dept. of Agriculture, Soil Conservation Service. Murkland, P. (1998, March 9, 1998). El-Nino-related rains eroded chunks of Riverside County's 25 miles of park trails leaving the Santa Ana River loaded with traps along trails. The Press Enterprise, p. 536 words. El Nino's storms have carved new courses for the river, washed away big chunks of Riverside County's 25 miles of park trails and loaded the river with booby traps. Hidden holes can snap a horse's leg or rip tendons. Underwater debris can stab or gash. Most dangerous are the mud bogs and quicksand that can mire a horse - and a human - in seconds. The volunteers from Riverside County's Equestrian Trails Patrol mounted their horses Sunday and began another workday, looking for riders and horses in trouble. National Cartography and Geographic Information Systems Center (U.S.) (Cartographer). (1993). San Jacinto, Elsinor-Murrieta-Anza and Riverside-Corona R.C.D.'s, Riverside and San Bernardino counties, California: January 1993 PBQ & D Inc., & Riverside County Road Department. (1978). Riverside/San Bernardino recreational travel study - Riverside County recreation resource inventory. Santa Ana, CA: PBQ & D Inc. Phillips, C. A., Gray, K. L., Woy, C. W., Taylor, T. L., Roland, C., Hare, R. G., et al. (1984). Lake Elsinore State Recreation Area: Preliminary general plan (Preliminary). Sacramento, CA: Dept. of Parks and Recreation. 248 Santa Ana River & Watershed Bibliography Riverside County Office of Agricultural Commissioner. (1942-). Riverside County agricultural crop and livestock report. Riverside, CA: Author. Riverside Land & Irrigation Co. (1876). The Riverside Land and Irrigation Company of San Bernardino County, California. Fort Wayne, IN: Sentinel Print. Sketch of its organization and plan of operations, with such additional information in regard to location, climate, soil, productions, price of lands, and irrigation facilities, as is usually required by those seeking homes on the Pacific coast. Riverside Parks and Recreation Dept. (1986). Four Corners report: Summary of Four Corners report. Riverside, Calif: Dept. of Park & Recreation. Schuyler, J. D. (1891-1908). Water supply available for irrigation, to be developed by storage reservoirs on the Pauba and Temecula Ranchos, in Riverside County, California.Unpublished manuscript, Berkeley, CA. Swanson, M. T., & Hatheway, R. G. (1989). The dairy industry of the Prado Basin. Pacific Palisades, CA: Greenwood and Associates. Tucker, D. M. (2003, Jan 27, 2003). Riverside to battle blight in Hunter Park district. The Business Press, p. 5. Surado, a maker of customer management software, plans to increase its employee base in the new year. To accommodate the growth, Surado plans to build a 35,000-square-foot plant in the 56-acre University Research Park, a swath of industrial land zoned for technology startup companies at the north end of Hunter Park. The research park is surrounded by the proposed redevelopment project area and is part of a redevelopment project area for the county of Riverside. A redevelopment area will allow the city to secure federal funds to pay for railroad overpasses and underpasses, said Chris Buydos, senior project manager for new initiatives and economic development for the University of California, Riverside and development leader for the research park. Urbanomics Research Associates. (1972). Analysis of the economic effects of the Lake Perris recreation development on the Riverside County economy. Claremont, CA: Author. Werminski, J. (1976). A survey of the natural history of Lake Perris State Recreation Area. Sacramento, CA: California Dept. of Parks and Recreation. Young, A. A. (1943). General survey of San Jacinto Basin, Riverside County, California: Prepared for the Guayule Emergency Rubber Project, U.S. Forest Service. n.p.: United States Soil Conservation Service. Young, A. A., Ewing, P. A., & Blaney, H. F. (1941). Utilization of the waters of the Beaumont Plains and San Jacinto Basin, California: A progress report. Washington, DC: U.S. Dept. of Agriculture, Soil Conservation Service, Division of Irrigation. 249 Water Resources Institute, California State University San Bernardino Riverside County Creative / Artistic Expressions Historic American Building Survey. (1996). Photographs, written historical and descriptive data: Prado Dam: Santa Ana River near Junction of State Highways 71 and 91, Corona Vicinity, Riverside County, California (No. CA-178). San Francisco, CA: Dept. of the Interior, National Park Service Western Region. Riverside County Litigation / Legal Issues Riverside Heights Water Company et al., Plaintiffs, v. Riverside Trust Company, Limited, Appellant, and East Riverside Water Company, Cross-Complainant and Respondent, 148 457 (Supreme Court of California, Department One 1906). Anaheim Union Water Company, and Santa Ana Valley Irrigation Company, Respondents, v. O. B. Fuller, G. H. Fuller, Fred Zucker, and F. J. Smith, Appellants, 150 327 (Supreme Court of California, Department One 1907). Anaheim Union Water Company, et al., Appellants, v. Theodore Ashcroft, Ira Ashcroft, Antonio Aros et al., Respondents, 153 152 (Supreme Court of California, Department Two 1908). C. H. Fuller et al., Appellants, v. Fred J. Smith, Respondent, California Reports 177 (Supreme Court of California, Department One 1909). John H. Barton et al., Appellants, v. Riverside Water Company, Riverside Highland Water Company, and West Riverside 350-inch Water Company, Respondents, 155 509 (Supreme Court of California 1909). Riverside Trust Co., Limited v. East Riverside Water Co., 173 241 (Circuit Court of Appeals, Ninth Circuit 1909). Riverside Land Company, Appellant, v. Joseph Jarvis et al., Respondents, 174 316 (Supreme Court of California 1917). The Gage Canal Company (a Corporation), Appellant, v. East Riverside Water Company (a Corporation), Respondent. East Riverside Water Company (a Corporation), Crosscomplainant, v. The Gage Canal Company (a Corporation) et al., Cross-defendants, 180 204 (Supreme Court of California, Department Two 1919). Corona Foothill Lemon Company et al., Plaintiffs; William Fisher et al., Respondents, v. Charles E. Lillibridge et al., Appellants, 8 522 (Supreme Court of California 1937). Grace Stesel et al., Respondents, v. Santa Ana River Water Company (a Mutual Water Company) et al., Defendants; Metzler & Company (a Corporation) et al., Appellants, 35 117 (Court of Appeal of California, Fourth Appellate District 1939). Riverside Water Company (a Corporation), Appellant, v. Jurupa Ditch Company (a Corporation), Respondent, 187 538 (Court of Appeal of California, Fourth Appellate District 1960). Orange County Water District, Respondent, v. City of Riverside et al., Appellants, 188 566 (Court of Appeal of California, Fourth Appellate District 1961). 250 Santa Ana River & Watershed Bibliography Harry R. Erwin et al., Plaintiffs and Appellants, v. The Gage Canal Company, Defendant and Respondent, 226 189 (Court of Appeal of California, Fourth Appellate District 1964). Sylvia Watson, a Minor, etc., Plaintiff and Appellant, v. Bruce H. Mcwen et al., Defendants and Respondents, 225 771 (Court of Appeal of California, Fourth Appellate District 1964). Pacific Water Conditioning Association, Inc., Plaintiff and Appellant, v. City council of the City of Riverside et al., Defendants and Respondents, 73 546 (Court of Appeal of California, Fourth Appellate District, Division Two 1977). Gillespie, C. G. (1938). In the matter of application of the city of Riverside to construct and operate a trickling filter plant near the Arlington septic tank and dispose of chlorinated effluent into Santa Ana River or for irrigation. Berkeley, CA: State of California, Dept. of Public Health, Bureau of Sanitary Engineering. Gillespie, C. G. (1939). In the matter of application of the city of Riverside for permit to continue the use of the temporary sewage basins on the south side of Santa Ana River south of Jurupa Avenue and Grand Avenue. Berkeley, CA: State of California, Dept. of Public Health, Bureau of Sanitary Engineering. Gillespie, C. G. (1942). In the matter of application of the city of Riverside for permit to continue the use of the present sedimentation tanks and spreading areas and also for permit to construct a trickling filter type of sewage treatment with sewage chlorination to be located approximately 2,000 feet upstream from Pedley Bridge and to dispose of the effluent into Santa Ana River. Berkeley, CA: State of California, Dept. of Public Health, Bureau of Sanitary Engineering. Lippincott, J. B. (1924). Tentative plan of allotment of the waters of the San Jacinto River, Riverside County, California.Unpublished manuscript, n.p. 251 Water Resources Institute, California State University San Bernardino This page intentionally left blank 252 Santa Ana River & Watershed Bibliography 6.0 San Bernardino County 6.1 San Bernardino County Physical Environment General Information Dutcher, L. C., Garrett, A. A., & District., S. B. C. F. C. (1958). Geologic and hydrologic features of the San Bernardino area, California, with special reference to underflow across the San Jacinto fault. Long Beach, CA: U.S. Geological Survey, Ground Water Branch,. Forbes, H. (1915). Report on the geology and hydrology of the San Bernardino Valley: n.p. Woodruff, G. A. (1980). Soil survey of San Bernardino County, southwestern part, California. Washington, DC: United States Soil Conservation Service. San Bernardino County Climate San Bernardino Valley Municipal Water District. (1961). Evaluation of an artificial nucleation program in the Santa Ana River Basin, November 1960 through April 1961. San Bernardino, CA: Author. San Bernardino Valley Municipal Water District. (1963). Evaluation of an artificial nucleation program in the Santa Ana River Basin, November 1961 through April 1962. San Bernardino, CA: Author. San Bernardino Valley Municipal Water District. (1963). A report on the artificial nucleation program in the Upper Santa Ana River Watershed, 1962-1963 season. San Bernardino, CA: Author. San Bernardino Valley Municipal Water District. (1964). A report on weather modification by artificial nucleation in the Upper Santa Ana River Water Shed: 1963-1964 season. San Bernardino, CA: Author. Silva, A. (2004, Jan 5, 2004). Weather technology helps, but forecasts still require 'guesstimates'. Knight Ridder Tribune Business News, p. 1. During Friday's storm, some county-operated rain gauges that recorded highest rainfall totals on Dec. 25, including Lytle Creek and Panorama Point, again recorded some of the most intense rain and some of the highest totals. The forecasters tap into flood-control rain gauges, including the more than 50 gauges operated by the San Bernardino Flood Control District, which give updated readings every 15 minutes. Weather Modification Company. (1954). Cloud-seeding operations in San Diego County and the Santa Ana River Watershed: For the period October 15, 1953 - April 15, 1954. Redlands, CA: Author. 255 Water Resources Institute, California State University San Bernardino San Bernardino County Geography Big Bear Lake and vicinity [Map number 2007] (Cartographer). (1953). [1 map]. Cramer, C. H., Harrington, J. M., Chase, G. W., & Bennett, J. H. (1984). Microearthquake, geophysical, and geodetic surveys for earhquake [sic] hazards evaluation, eastern San Gabriel Mountains and Upper Pomona Valley areas, San Bernardino County, California. Sacramento, CA: California Dept. of Conservation, Division of Mines and Geology. Minnich, R. A. (1988). The biogeography of fire in the San Bernardino Mountains of California: A historical study. Berkeley, CA: University of California Press. Robinson, J. W. (1977). Mines of the San Bernardinos. Glendale, CA: La Siesta Press. Sung, H. H. (1990). Geomorphic Setting and Origins of the Barton Flats Region in the San Bernardino Mountains, Southern California. DAI, 51(09B), 231. San Bernardino County Geology Dickey, D. D. (1957). Core logs from two test holes near Kramer, San Bernardino County, California (Geological Survey bulletin No. 1045-B). Washington, DC: U.S. Government Printing Office. San Bernardino north quadrangle, California (Cartographer). (1975). [1 map]. San Bernardino south quadrangle, California (Cartographer). (1975). [1 map]. Albright, L. B., III. (2000). Biostratigraphy and vertebrate paleontology of the San Timoteo Badlands, Southern California. Berkeley, CA: University of California Press. Calzia, J. P., & U.S. Geological Survey. (1987). Mineral resources of the Kingston Range Wilderness Study Area, San Bernardino County, California (U.S. Geological Survey bulletin No. 1709-D). Denver, CO: Dept. of the Interior, U.S. Geological Survey. Dutcher, L. C., & Garrett, A. A. (1963). Geologic and hydrologic features of the San Bernardino area, California with special reference to underflow across the San Jacinto fault (Geological Survey water-supply paper No. 1419). Washington, DC: U.S. Government Printing Office. Fife, D. L., & Rodgers, D. A. (1976). Geologic hazards in southwestern San Bernardino County, California (No. 77622986). Sacramento, CA: California Division of Mines and Geology. Gloyd, S. (2002). Designing ordinary bridges for ground fault rupture: n.p. Guillou, R. B. (1953). Geology of the Johnston Grade area, San Bernardino County, California. Unpublished Thesis (M.A.), University of California at Los Angeles, Los Angeles, CA. Hillenbrand, J. M. (1990). The potato sandstone between The Santa Ana River and Badger Canyon, San Bernardino County, Southern California: Implications for displacement in the San Andreas Fault zone. Unpublished M.S., University of California Riverside, Riverside, CA. 256 Santa Ana River & Watershed Bibliography Kooser, M. A., & Reynolds, R. E. (Eds.). (1986). Geology around the margins of the eastern San Bernardino Mountains. Redlands, CA: Inland Geological Society. Matti, J. C. (1987). Mineral resources of the Morongo Wilderness Study Area, San Bernardino County, California (U.S. Geological Survey bulletin No. 1710-B). Washington, DC: U.S. Government Printing Office. Shreve, R. L. (1968). The Blackhawk landslide (No. 68029062). Boulder, CO: Geological Society of America. Taylor, G. C. (1994). Mineral land classification of a part of southwestern San Bernardino County: the Big Bear Lake--Lucerne Valley area, California (1 v. (various pagings)). Sacramento, CA: California Dept. of Conservation, Division of Mines and Geology. San Bernardino County Hydrology California Department of Water Resources Southern District. (1977). Upper Santa Ana River drainage area land use study, 1975 (District report): State of California, the Resources Agency, Department of Water Resources, Southern District. Davidson, G. (Cartographer). (1885). Map showing catchment areas of the Bear Valley (San Bernardino Mt.), 74 Sq. M., the San Luis Rey River Irrigation Co., 246 Sq. M., and the San Diego Flume Co. (Cuyamaca), 13 1/2 Sq. M.: Southern California [1 ms. map;]. Dutcher, L. C. (1965). Progress report on water studies in the Bloomington-Colton area, Upper Santa Ana Valley, California, 1964. Garden Grove, CA: U.S. Geological Survey, Water Resources Division. Einhellig, R. F., & Pugh, C. A. (2002). Hydraulic model study of the San Sevaine side-weir diversion to Jurupa Basin. Denver, CO: U.S. Dept. of the Interior, Bureau of Reclamation. Finkle, F. C., Rowe, W. P., & Browning, C. R. (1933). Letter report 1933 March 14 to Irvine Company, Tustin, Calif. In I. Company (Ed.) (pp. 20, [17] leaves bound). Irvine, CA: n.p. Finkle, F. C., Rowe, W. P., & Browning, C. R. (1933). Report on water spreading Santa Ana and Mill Creek cones and effect on Orange County's water supply. Irvine, CA: The Irvine Company. Gosling, A. W. (Cartographer). (1967). Patterns of subsurface flow in the Bloomington-Colton area, Upper Santa Ana Valley, California [1 map]. Prepared in cooperation with the San Bernardino County Flood Control District. Includes text, generalized geologic map, comparison of logs of test well, location map, and hydrologic map. Hassan, A. A. (1971). Estimated hydrologic and water qualtiy changes that would result from the release of state water in the Santa Ana River near the Bunker Hill dike (Memorandum report). Los Angeles, CA: Dept. of Water Resources. 257 Water Resources Institute, California State University San Bernardino Hicks, J. N. (1942). A report pertaining to water spreading on the Upper Santa Ana River Delta. Unpublished Thesis (B.S.), University of California, Berkeley, CA. Huber, W. L. (1921). Hydrographic report upon Upper Santa Ana River. n.p. A study of hydrographic conditions relating to the possible development of a hydroelectric project in the upper portion of Santa Ana River watershed and Bear Creek watershed in San Bernardino County. Londquist, C. J., Martin, P. R., & United States Marine Corps. (1991). Geohydrology and ground-water-flow simulation of the Surprise Spring basin aquifer system, San Bernardino County, California (Water-resources investigations report No. 89-4099). Denver, CO: U.S. Geological Survey. Martin, L. (1951). Hydrologic and climatic data: A report based on data gathered by San Bernardino County Flood Control District, cooperative observers and district staff. San Bernardino ,CA: San Bernardino County Flood Control District. Mendenhall, W. C. (1905). The hydrology of San Bernardino Valley, California (Water-supply and irrigation paper No. 142). Washington, DC: U.S. Government Printing Office. Sacker, J. S. (1988). Use of hydrogeology and hydrochemistry to map groundwater barriers and flow, Lytle Creek fan area, Upper Santa Ana River Valley, San Bernandino County, California. Unpublished M.S., University of Southern California, Los Angeles, CA. San Bernardino County Flood Control District. (1952). Biennial report on hydrologic and climatic data. San Bernardino, CA: San Diego County Flood Control District, Hydrologic Section. 258 Santa Ana River & Watershed Bibliography U.S. Geological Survey. (1970). Contributions to the hydrology of the United States, 1970 (Geological Survey water-supply paper). Washington, DC: U.S. Government Printing Office. A. Geohydrology of the Lower Verdigris River Valley between Muskogee and Catoosa, Oklahoma / By H. H. Tanaka -- B. Availability of streamflow for recharge of the Basal Aquifer in Pearl Harbor Area, Hawaii / By G. T. Hirashima -- C. Water resources of the Upper White River Basin, East-Central Indiana / By L.W. Cable ... [et al.] -- D. Underground storage of imported water in the San Gorgonio Pass Area, Southern California / By R.M. Bloyd, Jr. -- E. Mean annual runoff as related to channel geometry of selected streams in California / By E.R. Hedman -- F. Prospects for developing stockwater supplies from wells in northeastern Garfield County, Montana / By M.C. Van Lewen and N.J. King -- G. Ground-water outflow from Chino Basin, Upper Santa Ana Valley, Southern California / By J.J. French -- H. Subsurface geology of the Late Tertiary and Quaternary water-bearing deposits of the southern part of the San Joaquin Valley, California / By M.G. Croft -- I. Water for Cranberry culture in the Cranmoor area of central Wisconsin / By Louis J. Hamilton -- J. The water quality of Sam Rayburn Reservoir, Eastern Texas / By Jack Rawson and Myra W. Lansford -- K. Analysis of stream-temperature variations in the Upper Delaware River Basin, New York / By Owen O. Williams -- L. Factors contributing to unusually low runoff during the period 1962-68 in the Concho River Basin, Texas / By Stanley P. Sauer -- M. Tunnels and dikes of the Koolau Range, Oahu, Hawaii, and their effect on storage depletion and movement of groundwater / By G.T. Hirashima -- N. Quality of the ground water in Basalt of the Columbia River Group, Washington, Oregon, and Idaho / By R. C. Newcomb -- O. Water quality of streams in the Neshaminy Creek Basin, Pennsylvania / By Edward F. McCarren. Woolfenden, L. R., & Kadhim, D. (1997). Geohydrology and water chemistry in the RialtoColton Basin, San Bernardino County, California (Water-resources investigations report No. 97-4012). Denver, CO: U.S. Dept. of the Interior, U.S. Geological Survey. San Bernardino County Topography State of California represented by Director of Public Works (Cartographer). (1955). Lavic quadrangle, California--San Bernardino Co.: 15 minute series (topographic) [1 map]. In upper margin: State of California represented by Director of Public Works. Relief shown by contours and spot heights. "Compiled in 1955 from 1:24,000 scale maps of the Lavic Lake, Sunshine Peak, Galway Lake and Lavic SE 7.5 minute quadrangles, surveyed 1955." Includes quadrangle location map. Contour interval: 40 ft. U.S. Department of Agriculture Office of Experiment Stations (Cartographer). (1900-1909?). Map of San Bernardino and adjacent valleys, California [1 map]. 259 Water Resources Institute, California State University San Bernardino 6.2 San Bernardino County Environmental Issues San Bernardino County Biodiversity Area's development plans at risk due to endangered rat habitat. (2002, Jun 3, 2002). Knight Ridder Tribune Business News, p. 1. Some of the area's largest economic revitalization projects could be delayed indefinitely now that the U.S. Fish and Wildlife Service has designated 33,295 acres of San Bernardino and Riverside counties as critical habitat for the endangered San Bernardino kangaroo rat. The San Bernardino Municipal Water Department is studying how the new habitat designation will affect a 117-acre site it wants to sell to Arrowhead Credit Union for a new $100 million corporate campus. El-Ahraf, A., Tacal, J. V., Jr., Sobih, M., Amin, M., Lawrence, W., & Wilcke, B. W. (1991). Prevalence of cryptosporidiosis in dogs and human beings in San Bernardino County, California. Journal of the American Veterinary Medical Association, 198(4), 631-634. Emmel, T. C., & Emmel, J. F. (1969). Selection and host overlap in two Desert Papilio butterflies. Ecology, 50(1), 158-159. The two California desert Papilio (Lepidoptera: Papilionidae) species, P. indra fordi Comstock & Martin and P. rudkini Comstock, are frequently sympatric in range but mutually exclusive in host plant source. In 1966, optimal rainfall conditions led to a large simultaneous emergence of the adults of both species, synchronizing the growth of the resulting larvae, and larvae of both species switched to feeding on both foodplants wherever defoliation of the usual foodplant had already occurred from earlier larval feeding. But apparently when population peaks are reached simultaneously, the selective advantage of separate hosts breaks down and direct competition through foodplant overlap occurs. Ingles, L. G. (n.d.). The seasonal and associational distribution of the fauna of the Upper Santa Ana River Wash. Claremont, CA: Pomona College. Kresge, N. (2003, Aug 28, 2003). Endangered fly preserve plan requires rare Dehli sands. Knight Ridder Tribune Business News, p. 1. Large amounts of sand could be necessary to turn the heavily tilled land back to the Delhi sand dunes the fly needs to survive, said Greg Ballmer, a UC Riverside entomologist and one of the two fly experts who led the study. Alternatively, Ballmer said, the city could heap the sand in dunes instead of spreading it evenly -- a plan that might require a bit less sand. 260 Santa Ana River & Watershed Bibliography McNary, S. (2000, August 14, 2000). Plan would coordinate mining, wildlife: County supervisors will consider a proposal that would accommodate endangered species and miners in the Upper Santa Ana River Wash. The Press Enterprise, p. 482 words. San Bernardino County is looking for a plan that will allow hikers, endangered wildlife and miners of sand and gravel to co-exist in the Upper Santa Ana River Wash. On Tuesday, the Board of Supervisors is scheduled to consider endorsing a conceptual plan that would consolidate mining in the west end of the six-by-two mile wash, and remove mining rights from areas that are still unscarred but are in the path of miners. The area is in demand for mining, flood control, habitat conservation and water management. Novick, H. J. (1979). Home range and habitat preferences of black bears (Ursus Americanus) in the San Bernardino Mountains of Southern California. Unpublished Thesis (M.S.), California State Polytechnic University, Pomona., Pomona, CA. Reisen, W. K., & Pfuntner, A. R. (1987). Effectiveness of five methods for sampling adult Culex mosquitoes in rural and urban habitats in San Bernardino County, California. Journal of the American Mosquito Control Association, 3(4), 601-606. Sigal, L. L., & Nash, T. H. (1983). Lichen communities on conifers in Southern California mountains: An ecological survey relative to oxidant air pollution. Ecology, 64(6), 13431354. In comparison with collections from the early 1900's when oxidant air pollution was essentially absent, 50% fewer lichen species were found on conifers during 3 yr (19761979) of collecting and sampling in the mountains of Southern California. Among the five mountains ranges studies, the San Bernardino Mountains, the region with the highest oxidant levels, had lower lichen frequency and cover values. Furthermore, at sites with high oxidant levels, marked morphological deterioration of the common species Hypogymnia enteromorpha was documented. Transplants of this species from the relatively unpolluted Cuyamaca Rancho State Park into the San Bernardino Mountains exhibited similar deterioration after a year's exposure. Silva, A. (2003, May 16, 2003). Fish could hurt San Bernardino, Calif. plans to sell runoff from plant. Knight Ridder Tribune Business News, p. 1. Wading into a rushing stream of treated wastewater on the north side of the Santa Ana River, biologist Brant Allen shoves a white tube into the water so he can see the threatened Santa Ana sucker fish frolicking on the bottom. The algae-eating fish, which can grow to be eight inches long, might be a major stumbling block to San Bernardino's plan to sell some of its high-quality wastewater, instead of letting the water flow down the Santa Ana River where Orange County lets it percolate into the ground for later use. U.S. Fish and Wildlife Service. (1999). Implementing agreement by and among the Edward Antonini Residuary Trust, Angelus Block Co., Ind., E-Z Mix, Inc. and the United States Fish and Wildlife Service to establish a program for the conservation of the endangered Delhi Sands flower-loving fly in connection with development of approximately 65 acres for industrial uses in the City of Rialto, County of San Bernardino, California (Draft). n.p.: Author. 261 Water Resources Institute, California State University San Bernardino San Bernardino County Ecology Chambers Group. (1993). Management plan for the Santa Ana River woolly star, eriastrum densifolium ssp. sanctorum (Final report). Los Angeles, CA: U.S. Army Corps of Engineers, Los Angeles District. Hogan, D. E. (1984). Home range and habitat preferences of female black bears in the San Bernardino Mountains of Southern California. Unpublished Thesis (M.S.), California State Polytechnic University, Pomona, Pomona, CA. Wheeler, J. A. (1991). Seed and seedling ecology of Eriastrum densifolium ssp. sanctorum, an endangered floodplain endemic (California). MAI, 30(01), 142. Flood control on the Santa Ana River (San Bernardino County, California) will simplify the floodplain ecosystem; the existing mosaic of flood-created surfaces will coalesce over successional time into a more uniform older surface. Eriastrum densifolium ssp. sanctorum is restricted to young surfaces within the Santa Ana River Floodplain. The ecology of this endangered subspecies, from seed maturity to seedling establishment, was examined to identify vulnerable life history features. Abundant seed germinated in mass during fall storms. Significant among-site differences in seedling survivorship correlated with several successional gradients. San Bernardino County Hazards/Disasters Cozad, D. (2003, December 21, 2003). Fire and water; Flames devastated the Santa Ana River watershed. Forest management is key to avoiding further damage. The Press Enterprise, p. D03. In the aftermath of the catastrophic fires that hit Inland Southern California, many forestry experts have emphasized the importance of thinning our forests, hinting that the devastation could have been far less with proper forest management. I wish to focus on the impacts to our already stressed watershed. The Santa Ana River Watershed provides most of the water for more than 5 million Southern California residents. In the aftermath of the Grand Prix, Old, and Padua fires, delivering clean water to those residents is going to be more difficult and costly. Fires burned more than 185 square miles of the watershed, most of it in the San Bernardino National Forest. Costs to mitigate the fires' effects on water quality are estimated at about $ 450 million. These policies and resulting fires degrade water quality and wildlife habitats, and make providing clean water more costly. Toppozada, T. R., Borchardt, G., & Hallstrom, C. L. (1993). Planning scenario for a major earthquake on the San Jacinto Fault in the San Bernardino area. Sacramento, CA: California Dept. of Conservation, Division of Mines and Geology. 262 Santa Ana River & Watershed Bibliography Vanhorne, S. (2003, Dec 3, 2003). Rialto, Calif. faces new water problems after fire damage. Knight Ridder Tribune Business News, p. 1. Concerns about the future of the Rialto-Colton groundwater basin prompted the Rialto City Council to declare a water shortage emergency at its meeting Tuesday. Rialto declared a water shortage emergency in July because of drought and contamination. City officials encouraged residents to voluntarily curb their water usage, but did not enact any mandatory measures. The silt washed from the desolate landscape could also cause problems for water suppliers. They are concerned the ash will choke the man-made catch basins that trap runoff and allow it to soak into the ground. San Bernardino County Environmental Resources Management Public hearing in re flood control at San Bernardino, California: hearing held at San Bernardino, California Thursday, 9 April 1964, 73 leaves (1964). Santa Ana River land use analysis: San Bernardino County. (1971). Pomona, CA: California State Polytechnic University, Pomona. California. (1991). Engineering News - Record, 62 words. CH2M Hill Inc., Santa Ana, is preparing schematic design for new outfall channel, which will include a concrete channel for overflow from water treatment plant #4 at southwest corner of Ettiwanda Ave. and Sixth St. to Santa Ana River bed in Rancho Cucamonga. Planned by Chino Basin Municipal Water District, Rancho Cucamonga. Estimated project cost, $ 10 million. URL: http://www.enr.com Open space: A plan of open space and trails for the County of San Bernardino (Cartographer). (1991). [1 map]. Big California earthfill lowballed by Brazilians. (1993). Engineering News - Record, 376 words. A U.S. subsidiary of a major Brazilian contractor is apparent low bidder for a huge Corps of Engineers earthfill dam near San Bernardino, Calif. The firm came in $ 36 million below estimate and left $ 29 million on the table. Bidding alone as CBPO of America Inc., Sherman Oaks, Calif., the Brazilians priced Seven Oaks Dam on the Santa Ana River at $ 167.8 million. The firm is a subsidiary of Construtora Norberto Odebrecht. Corps begins work on California dam. (1996). Civil Engineering, 66(2), 17. In September 1995, the US Army Corps of Engineers began work on the $450 million Seven Oaks Dam project in the San Bernardino Mountains, about 13 km northeast of Redlands, California. Seven Oaks was conceived as a buffer against the yearly onslaught of rain in the winter, when the flow of the Santa Ana and its tributaries can increase from 200 L/s to 500,000 L/s. Initial study and draft negative declaration: Sugarloaf Mountain drainage control project. (1996). n.p. 263 Water Resources Institute, California State University San Bernardino Ables, J. H., Jr., & Pickering, G. A. (1975). Flood control project on Lytle and Warm Creeks and Santa Ana River, California: Hydraulic model investigation (Final Technical No. H-757). Vicksburg, MS: Waterways Experiment Station. American Society of Civil Engineers Los Angeles Section. (1946). Lytle-El Cajon Creeks flood control project. An invitation to the Los Angeles Section of the American Society of Civil Engineers to make a tour of inspection on 29 Sept. Los Angeles, CA: American Society of Civil Engineers. Apfelbaum, S. (2000). Costly Eagle Mountain to replace Edom Hill landfill. The Public Record, 24(41), 1. Ascenzi, J. (2003, Aug 18, 2003). Fontana on trail to preserve endangered habitat. The Business Press, p. 6. Berghouse, L. C. (2003, August 26, 2003). Developer threatens to sue San Bernardino County, California, over land rights. Knight Ridder Tribune Business News, p. 1. Colonies partner Jeff Burum said Monday that if the county doesn't settle now by agreeing to pay for improvements to a flood control basin at the center of the Colonies development, his company will seek $200 million as reimbursement for land use, legal fees, lost money due to the litigation and for the cost of improvements to the basin. The Colonies, however, is willing to settle for $10 million to $15 million plus a land swap in which the Colonies would give the county the rights to the flood control basin in return for county land of equal value somewhere else. Even if the county loses and decides to appeal, the Colonies will simultaneously sue for damages, Burum said. Berghouse, L. C. (2003, August 29, 2003). Developer wins judgment against San Bernardino County, California, flood basin. Knight Ridder Tribune Business News, p. 1. San Bernardino County has no right to a flood control basin at the heart of the Colonies at San Antonio development in north Upland, a judge ruled Thursday. In the lawsuit decided by [Peter Norell] on Thursday, the Colonies argued that the county Flood Control District abandoned its right to use their property more than 20 years ago after a series of modern flood control improvements were built. If the county does appeal Norell's decision and the county's easements are reinstated, the county would still be responsible for building a basin, said Colonies attorney Heidi Timken. Berghouse, L. C. (2003, July 30, 2003). Development in Upland, California, may flood unless control work is done. Knight Ridder Tribune Business News, p. 1. A large water basin at the Colonies at San Antonio development will flood in the event of a five-year storm, Upland officials say. Colonies co-managing partner Jeff Burum is frustrated, saying a public agency such as the San Bernardino County Flood Control District should take the lead on this issue because the basin is a regional flood control facility. [Ken Miller] said the county Flood Control District is one to two months away from approving a plan to cut a notch in the basin, so he does not foresee any flooding this rainy season. 264 Santa Ana River & Watershed Bibliography Berghouse, L. C. (2003, June 19, 2003). Discrepancies may help developer's suit in San Bernardino County, Calif. Knight Ridder Tribune Business News, p. 1. During his testimony, Ken Williams, the district's right-of-way section chief, went over a list of easements that completely cover the Colonies' land. He also testified to the procedure it takes to lift flood control easements. On cross examination, Williams was not able to answer some questions poised by Colonies lawyer Scott Sommer about the Colonies property, even though Williams is billed as an expert about the district's land rights. While it appeared Sommer was able to find a hole in Williams' testimony about procedures, he was not able to prove water flowing on the Colonies' land does so under an Upland easement. Big Bear Watermaster. (1977-). Annual report for calendar year. Redlands, CA: Big Bear Watermaster. California Bureau of Sanitary Engineering. (1949). In the matter of application of the City of Rialto for permit to continue operation of the present sewage treatment plant with disposal of oxidized, chlorinated effluent to 20 acres of land adjacent to the plant for irrigation purposes; and, in addition to dispose of oxidized, chlorinated effluent on a new 20-acre tract situated on the northeast corner of the intersection of Riverside Avenue and Santa Ana Avenue in the county of San Bernardino. Berkeley, CA: State of California Dept. of Public Health, Bureau of Sanitary Engineering. California Department of Water Resources. (1968). Yucaipa dam and reservoir project: Findings on the application of the San Bernardino Valley Municipal Water District for grants under the Davis-Grunsky Act. Sacramento, CA: Author. California Department of Water Resources. (1972). Prado Dam and Reservoir project, Prado Regional Park: Findings on the amended application of the county of San Bernardino for grants under the Davis-Grunsky Act. Sacramento, CA: Author. California Department of Water Resources. (1974). Draft environmental impact report on lowering the level of the reservoir impounded by Lake Arrowhead Dam. n.p.: Author. Public hearing, Dept. of Water Resources, State of California, held in State Building, San Bernardino, California, Tuesday, December 9, 1975, 113 (1975). Regarding water management in the Santa Ana River Basin area. California Department of Water Resources, & San Bernardino Valley Municipal Water District. (1972). Yucaipa dam and reservoir project. Findings on the amended application of the San Bernardino Valley Municipal Water District for grants under the Davis-Grunsky Act. Sacramento, CA: State of California Resources Agency, Dept. of Water Resources. California Department of Water Resources Southern District. (1986). San Bernardino-San Gorgonio water resources management investigation. Los Angeles, CA: State of California, The Resources Agency, Dept. of Water Resources, Southern District. California Department of Water Resources Southern District. (1994). Revised initial study and final mitigated negative declaration: San Bernardino Tunnel intake reconstruction project. Glendale, CA: Author. 265 Water Resources Institute, California State University San Bernardino California Dept. of Water Resources. (1964). Review by the State of California of the proposed review report of the District Engineer, U.S. Army Engineer District, Los Angeles, Corps of Engineers, on flood control, Lytle and Warm Creeks, Santa Ana River Basin, California. Los Angeles, CA: U.S. Army Corps of Engineers Los Angeles District,. Local agency formation commission hearing : 9:00 a.m., January 23, 1964, County Courthouse, San Bernardino, California to conduct a public hearing on LAFC 19, the proposed annexation of the City of San Bernardino to the Metropolitan Water District., 2 v. (1964). Cooper, D. R. (1992). Outlet works for Seven Oaks Dam, Santa Ana River, San Bernardino County, California: Hydraulic model investigation (Technical report No. HL-92-14). Vicksburg, MS: U.S. Army Engineer Waterways Experiment Station. County of San Bernardino Flood Control District. (2004). Flood control district - Environmental preservation. Retrieved March 17, 2004, 2004, from http://www.co.sanbernardino.ca.us/flood/environ.htm Cox, M. A. (2002). Awards of merit. Civil Engineering, 72(7), 81. Four Awards of Merit in the Civil Engineering's Outstanding Civil Engineering Achievement Awards are presented. The Award winners are: 1. JFK Terminal 4 at New York City's John F. Kennedy International Airport, 2. The Everglades Construction Project in Florida, 3. the Seven Oaks Dam in the San Bernadino National Forest of California, and 4. the Experience Music Project in Seattle. Each project is briefly discussed. Currie Engineering, & San Bernardino Valley Municipal Water District. (1966). Report on the engineering and economic feasibility of the Yucaipa Dam and Reservoir Project, of the San Bernardino Valley Municipal Water District. In support of an application for a grant under the Davis- Grunsky Act, State of California. San Bernardino, CA: Currie Engineering. Dibble, E. F. (1958). Estimates of supplemental water needs in San Bernardino County. Sacramento, CA: California Legislature Interim Committee on Proposed Water Project. Drucker, D. M. (2003, May 21, 2003). California water-runoff regulations could cost cities. Knight Ridder Tribune Business News, p. 1. "The state has fobbed off the costs of these mandates to us because they're underfunded. It's another typical example of state government shirking its responsibility for something," Jim Markman, city attorney for Rancho Cucamonga and Upland, said. In a portion of San Bernardino County, the county Flood Control District used to share the $10,000 permit fee with 18 other jurisdictions, Rancho Cucamonga among them. Now, all municipalities must purchase their own permit -- with an increased maximum cost of $20,000 -- and still pay for their portion of the areawide permit. The prohibitive costs result from the new inspection regimen required for permit compliance, Rancho Cucamonga NPDES Coordinator Bob Zetterberg explained. According to his preliminary estimates, it could cost $500 for each inspection -- or $2.25 million just to inspect the city's 4,500 businesses once. 266 Santa Ana River & Watershed Bibliography Eastwood, J. S. (1910). Big Bear Valley Dam, 1910-1911; and Big Bear Valley Dam Highway, 1924.Unpublished manuscript. Reports, notes and correspondence on Big Bear Valley development. Engineering-Science Inc., San Bernardino County Board of Supervisors, Neste Brudin & Stone, Urbanomics Research Associates, & Mountain Desert Planning Agency. (1972). Comprehensive areawide plans for municipal or public domestic water and sewerage systems (final report). San Bernardino, CA: San Bernardino County Board of Supervisors. Eventov, A. (2002, Apr 11, 2002). Agencies agree on former Air Force Base land, environment deal in California. Knight Ridder Tribune Business News, p. 1. During their meeting in the Loma Linda City Council Chambers, the San Bernardino International Airport Authority and the Inland Valley Development Agency approved a plan that could give the airport more than 220 acres of land for development in exchange for 54 acres that would be set aside as a preserve for the San Bernardino kangaroo rat and the Santa Ana River woolly star, a small plant. The proposal will allow the Air Force to clean up the dump and give the land to the airport authority in exchange for roughly $10,000 a year for surveys and maintenance of the 54-acre preserve. The Air Force must include the $10,000 a year and an additional $10,000 every three years in its annual budget for studying the endangered species, according to a report by Tom Dodson and Associates, the agencies' environmental consulting firm that crafted the proposal. Florkowski, J. (2002, September 28, 2002). County to get $5 million in flood control funds; Storm drain will protect dairies, Santa Ana River from runoff, pollution. Inland Valley Daily Bulletin, p. 493 words. San Bernardino County officials will receive more than $5 million in federal funds to complete control projects that they say will help protect dairies from potentially devastating floods. This $5.6 million will be used to construct a storm drain to catch urban runoff along Euclid Avenue. The storm drain is the last of three projects that county and dairy officials say will keep storm runnoff from flowing onto dairy land. The article gives a short history of the project. Hornbeck, D., & Botts, H. (1988). Seven Oaks Dam Project water systems. Los Angeles, CA: U.S. Corps of Engineers, Los Angeles District. Howard, K. B. (2002). San Bernardino residents' participation in the planning and implementation of "Downtown Revitalization". Unpublished Thesis (M.S.W.), California State University, San Bernardino, San Bernardino, CA. This study serve as an avenue for people from this community to voice their opinions; to share personal hopes and concerns in light of their urban neighborhood, soon to become a lake. 267 Water Resources Institute, California State University San Bernardino Huber, W. L. (1911). District engineer's report on application of Union Power Company for preliminary water power permit in the Angeles National Forest: n.p. Report on proposed hydro electric development of the Union Power Company on the Santa Ana River and on Bear Creek. Huber, W. L. (1912). District engineer's report on application for a final water power permit. n.p. Report on proposed hydro electric development of the Union Power Company on the Santa Ana River and on Bear Creek. Inouye, D. (1985). Upper Santa Ana River drainage area land use survey, 1984. Los Angeles, CA: California Dept. of Water Resources, Southern District. Inouye, D. (1999). 1993 survey report of land use in the upper Santa Ana River drainage area. Los Angeles, CA: California Dept. of Water Resources, Southern District, Division of Planning and Local Assistance,. James M. Montgomery Consulting Engineers. (1966). Engineering plan, nonreclaimable industrial waste water disposal system, Chino Basin Municipal Water District. Pasadena, CA: Author. Kresge, N. (2003, Aug 20, 2003). San Bernardino County, California, official offers habitat proposal. Knight Ridder Tribune Business News, p. 1. As it determines how to protect rare species and habitat when development spreads across its north end, Fontana should consider linking to a county wildlife preserve already established in the north Etiwanda area, county Supervisor Paul Biane said Tuesday. San Bernardino County once planned to draft a habitat conservation plan like Fontana's, a project Biane admitted has stalled. Kresge, N. (2004, Jan 2, 2004). Land swap may solve environmental, development stalemate in Fontana, California. Knight Ridder Tribune Business News, p. 1. [Ken Hunt] said the city hopes to trade the 20 to 25 acres of land near the Mary Vagle Nature Center it had originally offered as replacement Delhi Sands giant flower-loving fly habitat for 30 acres of land in Southridge. The endangered fly species has been spotted on the Southridge land, Hunt said, posing a development problem for Southridge developer Ten-Ninety Ltd. Lee, C. H. (1913). Report on power generating and transmission system of Nevada-California and Southern Sierra Power Companies. n.p. Lee, C. H. (Artist). (n.d.). Photographs accompanying report on power generating and transmission system of Nevada-California and Southern Sierra Power Companies [photographs]. 268 Santa Ana River & Watershed Bibliography Lippincott, J. B. (1903). Memorandum of Bear Valley Dam investigations.Unpublished manuscript. Investigations on the elasticity, expansion under heat and deflection under water pressure of Bear Valley Dam, San Bernardino County, California. MacArthur, R. C. (1983). Watershed sedimentation investigation for the Mentone Dam (Special projects memo No. 83-4). Davis, CA: US Army Corps of Engineers The Hydrologic Engineering Center. Metcalf & Eddy Inc., & San Bernardino Valley Municipal Water District. (1986). Procedural documents, general conditions, general requirements, technical provisions, and standard drawings for Warm Creek channel Wells, contract no. 101. San Bernardino, CA: Metcalf & Eddy Inc. Metropolitan Water District of Southern California. (n.d.). Yucaipa Dam and reservoir project, Yucaipa Regional Park, San Bernardino County, California. Los Angeles, CA: Author. Miller, K. (2000, Dec 4, 2000). Inland Empire Focus: Land owners not closed to open space. The Business Press, p. 1. The San Timoteo Canyonlands Coalition hopes to preserve much of 8,000 to 10,000 acres of canyon, watershed and badlands, covering 15 miles from the east end of the San Timoteo Creek flood channel in Redlands, as a state park. The Crafton Hills Open Space Conservancy hopes to add about 4,500 acres of mostly public land near the Yucaipa Regional Park and San Bernardino National Forest to the San Bernardino County Regional Parks system, according to Tim Krantz, a University of Redlands professor and conservancy member. Yucaipa Valley Conservancy hopes to set aside 8,000 to 10,000 acres straddling the San Bernardino-Riverside county line. Miller, P., & McBride, J. R. (Eds.). (1999). Oxidant air pollution impacts in the montane forests of Southern California: A case study of the San Bernardino Mountains. New York: Springer. Murkland, P. (2001, August 12, 2001). Old sparks of ingenuity still run: A local gamble on a new kind of electricity in the 1800s paid off with the Santa Ana River and Mill Creek power plants, still reliable energy sources. The Press Enterprise, p. 1527 words. Nearly every light switch and high-voltage power line in the nation tells a story that began in the San Bernardino Mountains. It's easy to travel back more than a century to this electric moment of history. Two of the handful of power plants that began it all are still toiling daily along the Santa Ana River and nearby Mill Creek. Although these are among the oldest power plants in the nation, plant operators say the two 1800s workhorses are dependable and efficient in this era of power crisis and uncertainty. For example, one plant is whirring along with most of its original 1800s handmade transformers and machinery. Workers joke that they're really curators. There aren't any catalogs or dot-coms for old hydropower parts, either. Bill Johnson, a plant operator, said, "When we do repairs we have to make a lot of the parts by hand." 269 Water Resources Institute, California State University San Bernardino Myers, W. A. (1992). History of the hydroelectric power plants in San Antonio Canyon. n.p.: Southern California Edison Company,. Hydroelectric power plants California San Bernardino County San Antonio Canyon. National Association of Attorneys General. (2003). FERC may give annual licenses without state certification of compliance: California Trout, Inc. v. Federal Energy Regulatory Commission et al., No. 01-70787 (9th Cir. Dec. 16, 2002). National Environmental Enforcement Journal, 988 words. Provides background information on the California Trout v. FERC case. National Cartography and Geographic Information Systems Center (U.S.) (Cartographer). (1993). Inland Empire West Resource Conservation District, San Bernardino and Riverside counties, California National Cartography and Geographic Information Systems Center (U.S.) (Cartographer). (1993). Riverside-Corona Resource Conservation District, San Bernardino and Riverside counties, California Perkes, C. (1998, October 13, 1998). Corridor of lakes proposal drawing increased interest; The plan calls for dams along Santa Ana River. The Press Enterprise, p. 741 words. Boosters of a proposal to build a water project in San Bernardino are now talking with Colton about turning a portion of the Santa Ana River into a corridor of lakes. San Bernardino Valley Municipal Water District officials say lakes could be a recreational draw for Colton, while solving some of the region's water problems. The municipal water district recently formed a joint powers authority to explore creating a river, streams or lake in the city of San Bernardino. Water officials say some of the water that now flows down the Santa Ana River to Orange County could be saved using inflatable rubber dams. Water enthusiasts could fish or relax on small boats on the lakes, which would also allow the lowering of dangerously high ground water levels, store water to be sold and help improve underground water quality through recharge. George Aguilar, president of the municipal water district board, said it's time for water to start serving the region instead of flowing west for the benefit of others. Perliter & Ingalsbe. (1970). Amendment to feasibility study and report for Yucaipa Dam and Reservoir Project and Yucaipa Regional Park. Los Angeles, CA: San Bernardino Valley Municipal Water District. Perliter & Ingalsbe. (1970). Engineering feasibility study and report for Yucaipa Dam and reservoir project. Los Angeles, CA: San Bernardino Valley Municipal Water District. Perliter & Ingalsbe. (1971). Feasibility study and report for Yucaipa Dam and Reservoir Project and Yucaipa Regional Park. Los Angeles, CA: San Bernardino Valley Municipal Water District. 270 Santa Ana River & Watershed Bibliography Phun, P. (2000, January 8, 2000). Huge dam to protect against floods opens. The San Diego Union Tribune, p. 342 words. A massive new flood-control dam built to safeguard 3 million people but criticized by environmentalists was dedicated yesterday in the foothills of the San Bernardino Mountains. The $420 million Seven Oaks Dam, erected above the growing sprawl of the inland region east of Los Angeles, is the cornerstone of a $1.5 billion effort to lessen the effects of catastrophic floods along the 75-mile course of the Santa Ana River. Critics worry that the dam, designed to hold back water only during periods of heavy runoff, could evolve into a semi-permanent reservoir, jeopardizing its flood-control objectives and destroying wildlife habitat. Rooney, G. (1997, July 13, 1997). Flood insurance; The Seven Oaks Dam, a $ 420-million project designed to prevent downstream disaster in the three counties along the Santa Ana River, is ahead of schedule to meet a July 1999 finish date. The Press Enterprise, p. 1064 words. In two years, the Seven Oaks Dam will be ready to handle the kind of major flood that has not occurred in the Santa Ana River for 135 years. Thanks to cooperative weather and around-the-clock construction, the U. S. Army Corps of Engineers' earthen dam at the junction of the Santa Ana and Government canyons northwest of Redlands is rising at the rate of about six inches a day. The dam is about halfway to its eventual 550-foot height above the river in the San Bernardino Mountains. The $ 420-million project is running ahead of schedule to meet a July 1999 completion date, said Terence King, the resident engineer who oversees the work. The key fixture of the corps' $ 1.4 billion flood control project on the Santa Ana River, Seven Oaks Dam is designed to provide protection from flooding downstream, primarily in Orange County. Ryan, W. A. (1995). Succession following flooding in the upper Santa Ana River wash, Southern California. Unpublished M.A., California State University, Fullerton, Fullerton, CA. San Bernardino County. (1991). Open space, recreation, scenic. San Bernardino, CA: San Bernardino County. San Bernardino County Planning Department, & San Bernardino County East Valley Planning Agency. (1968). Planning reports. San Bernardino, CA: San Bernardino County Planning Dept. San Bernardino County Planning Dept. (1960). Sewage disposal study. San Bernardino, CA: Author. San Bernardino Valley Municipal Water District. (1954). Certificate of proceedings for the formation of San Bernardino Valley Municipal Water District. San Bernardino, CA: Author. San Bernardino Valley Municipal Water District. (1978). Before the Federal Energy Regulatory Commission: Application for preliminary permit for the Lytle Creek, Sweetwater, Waterman Canyon and Santa Ana Low Power Plants San Bernardino County, California. San Bernardino CA: San Bernardino Valley Municipal Water District. 271 Water Resources Institute, California State University San Bernardino San Bernardino Valley Municipal Water District. (1983). Water supply, hydroelectric and flood control multi-purpose plan. San Bernardino,CA: Author. San Bernardino Valley Municipal Water District, San Bernardino Valley Water Conservation District, & Western Municipal Water District of Riverside County. (1979). Upper Santa Ana Valley cooperative well measuring program, spring 1979 (No. ENG-79-E2). San Bernardino, CA: Authors. San Bernardino Valley Municipal Water District, San Bernardino Valley Water Conservation District, & Western Municipal Water District of Riverside County. (1980). Upper Santa Ana Valley cooperative well measuring program, fall 1979 (No. ENG-80-E2). San Bernardino, CA: Authors. San Bernardino Valley Municipal Water District, San Bernardino Valley Water Conservation District, & Western Municipal Water District of Riverside County. (n.d.). Upper Santa Ana Valley cooperative well measuring program. San Bernardino, CA: San Bernardino Valley Municipal Water District. San Bernardino Valley Municipal Water District, & Southern California Edison Company. (1980). San Bernardino Valley Municipal Water District data for Southern California Edison Company Diversion vs. pumpage: Additional data requested by Southern California Edison Company. San Bernardino, CA: Author. San Bernardino Valley Municipal Water District Water Resources Division. (1974-). Engineer's report on water supply (Vol. v.1- (1974)-). San Bernardino: San Bernardino Valley Municipal Water District. San Bernardino Valley Water Conservation District, & San Bernardino Valley Municipal Water District. (1973). Upper Santa Ana Valley cooperative well measuring program, Fall 1972 (No. ENG-73-E1). San Bernardino, CA: Author. Santos, K. F. (2002, November 14, 2002). Road to stay closed awhile: REDLANDS: Releases from a dam flood Alabama Street where it crosses the Santa Ana River. The Press Enterprise, p. 340 words. Alabama Street, a much-used road that runs through the Santa Ana River wash between Redlands and Highland, will be closed indefinitely because of water releases from the Seven Oaks dam, a Redlands official said Wednesday. "It could be two more weeks, it could be two more days. I have no way to know," said Ron Mutter, Redlands' director of public works. The road was first closed on Friday evening -- during last week's rainstorm -- between San Bernardino Avenue and Third Street in Highland. Schuyler, J. D. (1909). Bear Valley Mutual Water Company: Report on plans for New Bear Valley Dam and on proposed dam at Filaree Flat, in the canyon of the Santa Ana River, with tentative plans for Filaree Flat Dam: n.p. 272 Santa Ana River & Watershed Bibliography Soast, A. (1995). Dam finally is on the rise. ENR, 235(20), 26. Earth is finally moving steadily on the largest current embankment project in the US and the subsidiary of an international Brazilian construction firm is making it clear how and why it bid alone and left $29 million on the table to get the job. A principal reason, just now being unveiled, is a complex conveyor system to rapidly deliver much of the 38 million cu. yd. of fill for Seven Oaks Dam on the Santa Ana River near San Bernardino, California. Also, CBPO of America Inc. cut its bid to the bone to win the opportunity to make a big mark in the US, acknowledges Ricardo A. Soares, vice president and chief executive officer. However, the contractor's first year on the project was not smooth. Now, after suffering a 3-month delay not of its own making, CBPO is rushing to fill the embankment's deep excavated core trench before the rainy season begins around Dec. 1, 1995. Swanson, M. T., & De Vries, D. (1994). The Santa Ana River Hydroelectric System: Report prepared for the U.S. Army Corps of Engineers, Los Angeles District (No. 1879442094). Tucson, AZ: Statistical Research Inc. The Press Enterprise. (1999, October 29, 1999). Santa Ana River plan to be unveiled. The Press Enterprise, p. 131 words. Plans to restore four acres of wetland along the San Bernardino stretch of the Santa Ana River will be unveiled today by San Bernardino County and The Wildlands Conservancy. The conservancy has raised $ 5 million to restore the river from E Street to Waterman Avenue, north of Interstate 10. Plans include a public trail, environmental education opportunities, wildlife viewing and habitat restoration as part of a larger effort to revitalize 100 miles along the river. Tobey, R. C., & Suss, T. D. (1977). Historical resource survey of the Prado Flood Control Basin (No. DACW09-76-M-1442). Los Angeles, CA: U.S. Army Corps of Engineers. Troy, T. (1984). Flood-plain management along the upper Santa Ana River. Unpublished Thesis (M.A.), California State College, San Bernardino, San Bernardino. U.S. Army Corps of Engineers. (1946). Santa Ana River basin, Calif. flood control: Hydrology, San Antonio Creek above San Antonio dam. Los Angeles, CA: U.S. Army Corps of Engineers, Los Angeles District. U.S. Army Corps of Engineers. (1946). Santa Ana River Basin, California flood control: Report to Board of Consultants on San Antonio Dam. Los Angeles, CA: Author. U.S. Army Corps of Engineers Los Angeles District. (1951). Definite project report on San Antonio and Chino Creeks improvement, San Antonio Dam. Los Angeles, CA: Author. U.S. Army Corps of Engineers Los Angeles District. (1954). Design memorandum no. 2, general design for San Antonio and Chino Creeks improvement: San Antonio and Chino Creeks Channel. Los Angeles, CA: U.S. Army Corps of Engineers, Los Angeles District. U.S. Army Corps of Engineers Los Angeles District. (1955). General design for Lytle Creek levee, Devil, East Twin, Warm and Lytle Creeks, Calif. Los Angeles, CA: Author. 273 Water Resources Institute, California State University San Bernardino U.S. Army Corps of Engineers Los Angeles District. (1956). Design memorandum no. 2, general design for Devil Creek Diversion: Devil, East Twin, Warm, and Lytle Creeks project, Santa Ana River Basin, Calif. Los Angeles, CA: Author. U.S. Army Corps of Engineers Los Angeles District. (1958). Design memorandum no. 1, general design for City Creek levee, Santa Ana River Basin, Calif. Los Angeles, CA: Author. U.S. Army Corps of Engineers Los Angeles District. (1958). Design memorandum no. 3, general design for East Twin and Warm Creeks improvements: Channel improvements from Marshall Boulevard downstream to Santa Ana River, Devil, East Twin, Warm, and Lytle Creeks project, Santa Ana River Basin, Calif. Los Angeles, CA: Author. U.S. Army Corps of Engineers Los Angeles District. (1958). Design memorandum no. 4, general design for East Twin and Warm Creeks improvements, levee improvements upstream from Marshall Boulevard: Devil, East Twin, Warm, and Lytle Creeks Project, Santa Ana River Basin, Calif. Los Angeles, CA: Author. U.S. Army Corps of Engineers Los Angeles District. (1959). Design memorandum no. 2, general design for Mill Creek Levees, Santa Ana River Basin, California (Final). Los Angeles, CA: Author. U.S. Army Corps of Engineers Los Angeles District. (1964). Review report for flood control, Lytle and Warm creeks, San Bernardino County, Calif. (with appendixes). Los Angeles, CA: Author. U.S. Army Corps of Engineers Los Angeles District. (1966). Cucamonga Creek San Bernardino and Riverside Counties California. Santa Ana River and tributaries, California review report for flood control. Los Angeles, CA: Author. U.S. Army Corps of Engineers Los Angeles District. (1966). Review report for flood control, Cucamonga Creek, San Bernardino and Riverside Counties, Calif. (with appendixes). Los Angeles, CA: Author. U.S. Army Corps of Engineers Los Angeles District. (1985). Upper Santa Ana River flood storage alternatives study: Supplement to phase I general design memorandum on the Santa Ana River main stem, including Santiago Creek (Final). Los Angeles, CA: Author. U.S. Army Corps of Engineers Los Angeles District. (1988). Santa Ana River: Phase II GDM on the Santa Ana River mainstem including Santiago Creek (Draft design memorandum no. 1). Los Angeles, CA: Author. 9 volumes as follows: Volume 1: [pt.1] Seven Oaks Dam [pt.2]. Seven Oaks Dam and appendixes. Volume 2: Prado Dam. Volume 3: [pt.1] Santa Ana River (Prado Dam and Pacific Ocean) [pt.2] Santa Ana River appendixes. Volume 4: Mill Creek Levee. Volume 5: Oak Street Drain. Volume 6: Santiago Creek. Volume 7: Hydrology. Volume 8: Environmental. Volume 9: Economics and public comment and response. U.S. Army Corps of Engineers Los Angeles District. (2000). Seven Oaks Dam: Embankment criteria and performance report, Santa Ana River Basin, California (Performance report). Los Angeles, CA: Author. 274 Santa Ana River & Watershed Bibliography U.S. Office of Hydropower Licensing Division of Licensing and Compliance, & U.S. Department of Agriculture Forest Service Big Bear Ranger District. (1997). Draft environmental assessment: Application to relocate project facilities: Santa Ana River 1 and 2 Hydroelectric Project and Santa Ana River 3 Hydroelectric Project (Draft No. FERC project no. 2198-007, California. FERC project no. 1933-011, California). Washington, DC: Federal Energy Regulatory Commission. U.S. Office of Hydropower Licensing Division of Licensing and Compliance, & U.S. Department of Agriculture Forest Service Big Bear Ranger District. (1998). Santa Ana River 1 and 2 Hydroelectric Project, FERC project no. 1933-011 and Santa Ana River 3 Hydroelectric Project, FERC project no. 2198-007, California (Final environmental assessment application to relocate project facilities). Washington, DC: Federal Energy Regulatory Commission. Urbanomics Research Associates, Neste Brudin and Stone Inc., & United States Soil Conservation Service. (1968). Planning program. San Bernardino, CA: San Bernardino County Planning Dept. URS Consultants, & San Bernardino County Land Management Dept. (1988). Santa Ana River resource management plan: Scoping project for the San Bernardino County Land Management Department. San Bernardino, CA: URS Consultants. Waterways Experiment Station. (1960). Earth dam criteria: Report 2 San Antonio Dam, San Antonio and Chino Creeks Improvement, Santa Ana River Basin, California. Vicksburg, MS: Dept. of Defense, Dept. of the Army Corps of Engineers, Waterways Experiment Station. West San Bernardino County Water District, & Neste Brudin & Stone. (1977). Community of Bloomington for the West San Bernardino County Water District (Draft environmental impact report). San Bernardino, CA: Neste, Brudin & Stone. Western Municipal Water District of Riverside County, & San Bernardino Valley Municipal Water District. (2001). Water extractions for calendar year. Riverside, Calif.: Western Municipal Water District. Covers water extractions made from the groundwater basins of the Santa Ana River Watershed above Prado Dam (excluding that part of the Chino Basin in San Bernardino County). Wilt, T. (1999). Seismic behavior of rock slopes at Seven Oaks Dam. San Bernardino County Health and Safety Mian, L. S., & Prochaska, R. G. (1990). Mosquito abundance and arboviral activity in San Bernardino County during 1989. Proceedings and papers of the annual conference of the California Mosquito and Vector Control Association, 58, 37-42. Mian, L. S., & Prochaska, R. G. (1991). Mosquito abundance and arboviral activity in San Bernardino County during 1990. Proceedings and papers of the annual conference of the California Mosquito and Vector Control Association, 59, 30-34. 275 Water Resources Institute, California State University San Bernardino Mian, L. S., Prochaska, R. G., Long, S. J., & Madon, M. B. (1991). The occurrence of Psorophora signipennis in San Bernardino County, California. Proceedings and papers of the annual conference of the California Mosquito and Vector Control Association, 59, 68. Moxham, R. M., & U. S. Atomic Energy Commission. (1955). Geologic and airborne radioactivity studies in the Rock Corral area, San Bernardino County, California (Geological Survey bulletin No. [1021-C]). Washington, D.C.: United States Government Printing Office. Pfuntner, A. R. (1988). Mosquito abundance and virus activity in the Chino area, San Bernardino County, California, 1987. Proceedings and papers of the annual conference of the California Mosquito and Vector Control Association, 56th, 26-31. Vanhorne, S. (2003, Aug 8, 2003). State, federal officials work to fix pollution problem in Rialto, Calif. Knight Ridder Tribune Business News, p. 1. Local water officials suspect military munitions manufacturers that operated in north Rialto half a century ago are the main source of perchlorate contamination in the basin. The California Environmental Protection Agency plans to set a state perchlorate standard by early next year that would establish how much perchlorate in water is safe. So far, the agency has only asked water providers to alert customers if they detect four parts per billion or more in their water. Waldman, P. (2003, Jan 10, 2003). Defense firm to help inquiry into industry water pollution. Wall Street Journal, p. A.1. So far, the Pentagon has not accepted any responsibility for the area's perchlorate pollution, although the Army used a local site as a weapons depot in the 1940s. Local and state officials hope [Goodrich]'s cooperation will help change the Pentagon's position by turning up documents showing the Army spilled perchlorate in the area during its use of the site. The officials also hope Goodrich and other defense contractors, if implicated as polluters, will have recourse to Defense Department cleanup funds as part of their original contracts. San Bernardino County Water Quality Folder of newspaper clippings of the Stanford Research Institute's report on San Bernardino Valley water problems.Unpublished manuscript(1960-). One folder containing 9 items. CEC approves six power projects totaling 3,600 MW in three months. (2001). Global Power Report, 22. On March 21, the CEC approved ThermoEcoteck's $600-million, 1,056- MW Mountainview Power Plant project (GPR, 2 March, 16). It is being built on the site of the existing 126-MW station in San Bernardino County that ThermoEcotek bought from Southern California Edison in 1998. The CEC imposed some conditions relating to treatment of contaminated groundwater and protecting the Santa Ana River habitat by requiring that the natural gas pipeline for the project is to be constructed by drilling under the riverbed. 276 Santa Ana River & Watershed Bibliography Ascenzi, J. (1997, Jul 7, 1997). Citrus Plaza development faces water contamination. The Business Press, p. 6. Besides Citrus Plaza, plans for which were approved by the county Board of Supervisors in January, there are three other proposed shopping centers within Redlands' borders or sphere of influence: Cities Pavillion, an $80 million, 44-acre project that would include a 20-screen multiplex theater, as well as retail and restaurants. The project was approved by the city planning commission June 24, and now goes to the City Council. "They can go ahead with construction, because all they would need there (during construction) is water for firefighting and dust control," [John McGuckian] said of Citrus Plaza, one of three major mall projects now on the drawing boards for the Redlands area. "But in order to actually open up and do business, they will have to find some potable water supply, one that meets state water requirements." California Bureau of Sanitary Engineering. (1951). Warm Creek survey (Code no. 52-8-6). Berkeley, CA: State of California, Dept. of Public Health, Bureau of Sanitary Engineering. California Department of Water Resources. (1955). Salt balance study, Upper Santa Ana Valley. Sacramento, CA: Author. California Department of Water Resources. (1957). Quality of surface and ground waters in Upper Santa Ana Valley (California Department of Water Resources Bulletin No. 40-57). Sacramento, CA: Author. California Division of Water Resources. (1952). Geology, hydrology and water quality of Warm Creek, San Bernardino County, California. Los Angeles, CA: California Division of Water Resources. California Division of Water Resources. (1953). Report to Santa Ana Regional Water Pollution Control Board: Investigation of waste discharges at Ontario International Airport, San Bernardino County (Water quality investigations No. 53-8-9). n.p.: Author. California Manufacturers Association. (1962, June 6). Round table conference of Santa Ana River Basin Regional Water Pollution Control Board on synthetic detergents. Paper presented at the Round table conference, Ontario, CA. Chacon, R. (2002, July 15, 2002). Suspected polluters called to face penalties. The Business Press, p. 5. "The purpose of the meeting is to discuss the pollution problems with the different parties and to advise them of their role in assisting us in cleaning up the ground water," said Steve Elie, an environmental attorney and partner with Musick, Peeler & Garrett LLP in Los Angeles, who is working on the case for the task force. The task force will present the county and companies with evidence of perchlorate contamination, Elie said. The contaminated area is in the vicinity of Highland and Locust Avenues near the Mid-Valley Landfill, which is operated by San Bernardino County, and is suspected of leaking the chemical. 277 Water Resources Institute, California State University San Bernardino Fenn, M. E., & Poth, M. A. (1999). Technical reports - Surface water quality - Temporal and spatial trends in streamwater nitrate concentrations in the San Bernardino Mountains, Southern California. Journal of environmental quality, 28(3), 14. Fletcher, G. L. (1967). Wastewater discharges in the Bunker Hill-San Timoteo area 1934-35 to 1975-76. San Bernardino, CA: San Bernardino Valley Municipal Water District. Ford, G. G., & Iwanaga, H. (1966). Addendum report on persistence of synthetic detergents in ground water, San Bernardino and Riverside counties, 1964-65: A report to the State Water Quality Control Board. n.p.: California State Water Quality Control Board. Goudey, R. F. (1921). On an investigation of the Riverside Water Company System with reference to sewage disposal of San Bernardino (No. S66). Berkeley, CA: California State Board of Health, Bureau of Sanitary Engineering. Hassan, A. A. (1969). Contribution of minerals to ground waters from agricultural sources in the Upper Santa Ana River ground water basins (Technical information record study No. 1335-3-A-6). Los Angeles, CA: State of California Resources Agency, Dept. of Water Resources, Southern District, Planning Branch. Hill, C. (1979). Wastewater discharges in the Bunker Hill-San Timoteo area 1934-35 to 1977-78. San Bernardino, CA: San Bernardino Valley Municipal Water District. Howard, B. (1996, Jan 29, 1996). Dirty water threatens growth of San Bernardino business. The Business Press, p. 1. Irwin, G. A., & Lemons, M. (1974). A water-quality reconnaissance of Big Bear Lake, San Bernardino County, California, 1972-1973 (Water resources investigations No. 3-74). Menlo Park, CA: U.S. Geological Survey, California District. Izbicki, J. A., Danskin, W. R., & Mendez, G. O. (1998). Chemistry and isotopic composition of ground water along a section near the Newmark area, San Bernardino County, California (Water-resources investigations report No. 97-4179). Denver, CO: U.S. Geological Survey. McClelland, E. J. (1963). Aquifer-test compilation for the upper Santa Ana Valley Area, San Bernardino County California (Preliminary, subject to revision). Sacramento, CA: U.S. Geological Survey. McKillop, D. H., & Hamilton, R. H. (1953). Effect of waste discharges from the Culligan Zeolite Company, San Bernardino County: A report to Santa Ana Regional Water Pollution Control Board No.8 (Water quality investigations). Los Angeles, CA: California Division of Water Resources. 278 Santa Ana River & Watershed Bibliography McNary, S. (2002, Dec 20, 2002). Senator Feinstein to seek funds for Rialto, Calif., area's toxicwater woes. Knight Ridder Tribune Business News, p. 1. Sen. Dianne Feinstein pledged Thursday to help find federal money to attack the problem of perchlorate that is polluting drinking water wells in Rialto, Colton and Fontana areas. World War II munitions bunkers in north Rialto near San Bernardino County's MidValley Sanitary Landfill held perchlorate- fueled weapons. Fireworks, which also contain perchlorate, were also stored there. U.S. Army Corps of Engineers Col. Richard Thompson, said there was no evidence to show the Army is responsible for perchlorate pollution found in north Rialto and Colton. He is handling the Department of Defense and Army responses to state regulators' orders to investigate the pollution. He said, however, a contract to conduct further research is to be signed next month, with the inquiry continuing through next year. Miller, K. (2001, Jan 15, 2001). Bill would sink federal dollars into local water. The Business Press, p. 20. HR 131, by U.S. Rep. Gary Miller, R-Diamond Bar, calls for cleaning and reclaiming water in the Chino dairy area and providing resources for water recycling in the Inland Empire, the congressman said. Inland Empire Utilities Agency supports the bill, said Sondra Elrod, spokeswoman for the municipal water district that serves the Chino Basin. There is one desalter in the Chino area that supplies potable water to Chino, Chino Hills and the Jurupa Community Service District, Elrod said. The desalter is operated by the Santa Ana River Project Authority. National Association of Attorneys General. (2002). United States v. Dean Swager, No. 02-205 AHS (C.D. Cal. Aug. 5, 2002). National Environmental Enforcement Journal. Dean Allan Swager, a dairy farmer from Chino, California, recently pled guilty to illegally discharging wastewater tainted with manure into a Santa Ana River tributary. The dairy farm, operated by Swager and his father, stables about 900 mature cows. Sentencing is scheduled for November 4. Neste Brudin & Stone. (1965). Report of preliminary engineering of Barton Flats and contiguous Santa Ana River area water and sewerage systems, San Bernardino National Forest. San Bernardino, CA: Author. Neste Brudin & Stone. (1965). Water treatment plant for the city of Redlands, California. San Bernardino, CA: Author. 279 Water Resources Institute, California State University San Bernardino Nuss, G., Foreman, T., Bloomquist, J., Magnuson, G., CH2M Hill, & Gordon S. Magnuson and Associates. (1994, February 27 - March 2, 1994). Comparison of the rapid infiltration/extraction process to conventional filtration for tertiary treatment of municipal effluent. Paper presented at the 1994 Water Reuse Symposium, Dallas, TX. To meet State of California Title 22 reclaimed water quality requirements, the cities of San Bernardino and Colton have evaluated the use of rapid infiltration and extraction (RIX) as an alternative to tertiary filtration. Title 22 requires that chemical coagulation and mechanical filtration followed by disinfection be performed on secondary wastewater effluent prior to discharge to the Santa Ana River. This paper describes a demonstration RIX facility designed and operated for one year to demonstrate the equivalency of RIX to conventional tertiary filtration. The facility consisted of the following components: pipelines from the two wastewater treatment plants to convey secondary effluent to the demonstration facility, two sets of rapid infiltration basins capable of infiltrating a total of 2mgd, ten extraction wells capable of extracting a total of 2.4 mgd from the shallow aquifer, and 44 monitoring wells to monitor the effectiveness of the RIX demonstration facilities. Monitoring was conducted to assess the removal of virus, reduction in nitrogen, and general improvement in effluent quality. The resulting RIX process has been accepted by the California Department of Health Services for achieving unrestricted water reuse standards. Pomeroy Johnston and Bailey. (1966). Non-reclaimable wastes produced in the Upper Santa Ana River Basin of San Bernardino County, California (preliminary report). Pasadena, CA: Author. Pomeroy Johnston and Bailey. (1966). Ocean disposal of non-reclaimable wastes produced in the Upper Santa Ana River Basin within San Bernardino County, California. Pasadena, CA: Author. Rosta, P. B. (2002). California's Inland Feeder Project to resume in 2003. ENR, 248(21), 19. Next April, J.F. Shea Construction Inc. is scheduled to start boring nearly 8 miles of tunnels at the northern end of the 44-mile Inland Feeder in San Bernardino County. Sachs, E. (2002, Apr 5, 2002). Green-Waste recycler unable to accept dangerous materials. Knight Ridder Tribune Business News, p. 1. A board official said the firm, owned by Jim Sullivan, has for years illegally accepted tons of a plastic-laden paper pulp that now covers 16 acres of the 40-acre site on Key Street. "He's operating an illegal landfill," said Dixie Lass, senior engineering geologist for the water quality board, a regional arm of the state Environmental Protection Agency. Salts dissolved in the pulp could endanger groundwater beneath the site and water in the adjacent river, which feeds drinking water reservoirs that supply Orange County. The firm's permits allow it to recycle only green waste -- lawn clippings and other yard waste -- which it does under contracts with a majority of cities in the San Bernardino Valley. San Bernardino County Planning Commission. (1960). Sewage disposal study, upper Santa Ana River basin. San Bernardino, CA: Author. 280 Santa Ana River & Watershed Bibliography Schaefer, D. H., Warner, J. W., & San Bernardino Valley Municipal Water District. (1975). Artificial recharge in the upper Santa Ana River area, San Bernardino County, California (Water-resources investigations No. 15-75). Menlo Park, CA: U.S. Geological Survey, Water Resources Division. Silva, A. (2003, Feb 28, 2003). Cleanup of groundwater touted at airbase site in San Bernardino, Calif. Knight Ridder Tribune Business News, p. 1. Once the bureaucratic tangle is sorted out, [Philip Mook] said he expected the contaminated dirt to be removed beginning in the summer. Some soil contaminated with radium also must be removed. A building at the base was used to paint radium on aircraft gauges until radioactive material was banned for such uses in the 1960s. Another building with a volatile organic compound in the soil beneath it was originally signed off as being clean, but regulators later speculated the material could come out of the soil as vapor, which would be a problem only if a small building were directly above it, Mook said. Silva, A. (2003, May 7, 2003). San Bernardino County, Calif. officials approve more funds for water probe. Knight Ridder Tribune Business News, p. 1. "This additional work is expanding in the direction of groundwater flow to see how far the perchlorate has gone," said Kamron Saremi, an engineer with the Santa Ana Regional Water Quality Control Board, which has ordered the county to investigate the perchlorate mess. A 6-mile plume of the contaminant, a rocket-fuel ingredient, has spread from the area near the landfill, where makers of munitions, fireworks and rocket fuel have operated since the 1940s. Twenty wells serving Rialto, Colton, Fontana and Bloomington have been contaminated by the chemical. There also is a perchlorate plume in Redlands and Loma Linda, where aerospace giant Lockheed Martin is paying for cleanup. Sullivan, S. (1992, December 9, 1992). Cities plan new facility for sewage; Colton and San Bernardino's $ 43 million plant will use soil-filtering techniques for a third-level treatment of wastewater before it passes into the Santa Ana River. The Press Enterprise, p. 339 words. The only two cities that still don't triple-treat their wastewater before pouring it into the Santa Ana River have opted for an innovative method of removing viruses. The system could be up and running in two years. San Bernardino and Colton will jointly build a $43 million plant that uses the natural filtering properties of soil to cleanse infectious materials from sewage. By pouring twice-treated wastewater into large, shallow ponds and letting it percolate into the soil, then pumping it back up from the groundwater table, the cities expect to save $20 million, compared to a traditional tank and chemical treatment system. The cities are studying land along the river in Colton for soil best suited to the process. A one-year pilot project that ended earlier this year treated 1 million gallons a day of water on 32 acres. 281 Water Resources Institute, California State University San Bernardino Vanhorne, S. (2004, Mar 12, 2004). California sets contamination limits for perchlorate in drinking water. Knight Ridder Tribune Business News, p. 1. There are about 65 wells in San Bernardino County that exceed the 6 ppb level, including five in the Rialto-Colton basin, 18 in the Chino basin, nine in San Bernardino, and 33 in the Redlands-Loma Linda area, according to the Santa Ana Regional Water Quality Control Board. Rialto City Attorney Bob Owen said the announcement will not seriously impact the city's lawsuit against 42 entities accused of polluting the Rialto-Colton basin with perchlorate. Five city wells are contaminated with the chemical. The levels ranged from 88 ppb to 4.5 ppb before treatment systems were installed or the wells were shut down. Willets, D. B., & Illingworth, L. R. (1956). Water quality objectives, ground water basins, San Bernardino County: A report to Santa Ana River Basin Regional Water Pollution Control Board (No. 8). Los Angeles, CA: California Division of Water Resources. 6.3 San Bernardino County Development and Use San Bernardino County History Redlands, CA (Artist). (1914). [Photographs]. A crowd gathers near the train tracks in Redlands (San Bernardino County), California as the Sells Floto Circus and Buffalo Bill's Wild West Show circus train arrives. The flatbed rail cars carry ornate circus trailers and personnel. A Ford car and commercial buildings are near the tracks. A building has an inscription: "Union Fertilizer Company." Bulletin of the San Bernardino Valley Water Conservation District. (1937-). Redlands, CA: San Bernardino Valley Water Conservation District. Anderson, A. E. (1935). Report of examination of San Antonio Water Company. Berkeley, CA: Federal Land Bank of Berkeley. Arnold, J. E., & Greenwood and Associates. (1987). Archaeological resources of the Seven Oaks Dam Project, Upper Santa Ana River locality. Pacific Palisades, CA: Greenwood and Associates ;. Beattie, G. W. (1951). Origin and early development of water rights in the east San Bernardino Valley. Redlands, CA: San Bernardino Valley Water Conservation District. Beattie, G. W., & Beattie, H. P. (1951). Heritage of the valley: San Bernardino's first century. Oakland, CA,: Biobooks. Caballeria, J., & Farris, C. (1902). History of San Bernardino Valley from the padres to the pioneers, 1810-1851. San Bernardino, CA: Times-Index Press. Conley, B. B. (1982). Pages from the past (a reprint of the column entitled "Pages from the past" which appeared in the [Ontario] Daily Report from Sept.9, 1979, through Sept. 5, 1982). Ontario, CA: Ontario Daily Report. 282 Santa Ana River & Watershed Bibliography E Clampus Vitus. (1982). Old Bear Valley Dam: Dedication of historical marker for Old Bear Valley Dam, California registered historical landmark no. 725, at west end of Big Bear Lake, California, October 10, 1982.Unpublished manuscript, Big Bear Valley, CA. Fisher, P. C. (1972). The mountaineers. Redlands, CA: San Bernardino County Museum Association. Foster, J. M., Greenwood, R. S., Duffield, A. Q., Toren, A. G., & Romani, G. R. (1988). Work camps in the Upper Santa Ana River Canyon. Pacific Palisades, CA: Greenwood and Associates. Ingersoll, L. A. (1904). Ingersoll's century annals of San Bernardino County, 1769-1904: Prefaced with a brief history of the state of California: Supplemented with an encyclopedia of local biography and embellished with views of historic subjects and portraits of many of its representative people. Los Angeles, CA: Author. Judson & Brown (Cartographer). (1883). Birds-eye view of the Redlands Colony & surroundings, from Redlands Heights, San Bernardino Co., Cal., 1882 [1 view ;]. Miller, E. J. (1989). The SAAAB: The history of the Santa Ana Army Base. Santa Ana, CA: Trilevel. Mosso, F., & Eddy, J. (Cartographer). (1971). Map of the survey of San Bernardino Rancho (Photocopy on frosted drawing film of map made by Felix Mosso of the County Surveyor's Office in 1925) [1 map]. Odell, G., & Warren, D. (1966). It happened in San Bernardino County: A subject index. San Bernardino, CA: San Bernardino Public Library. Rhodes, E. (Ed.). (1951). The break of day in Chino: A collection of incidents and impressions marking the early life of Chino as recorded by various reliable authors. Chino, CA: n.p. Robinson, J. W. (1989). The San Bernardinos: The mountain country from Cajon Pass to Oak Glen: Two centuries of changing use. Arcadia, CA: Big Santa Anita Historical Society. Robinson, W. W. (1958). The story of San Bernardino County. San Bernardino, CA: Pioneer Title Insurance Co. San Bernardino Valley Municipal Water District. (1900-). Annual report (Annual). San Bernardino, CA: Author. San Bernardino Valley Water Conservation District. (1937-). Annual statement and summary of activities. Redlands, CA: Author. Schuyler, J. D. (1896). Report on water supply for the City of Redlands, California: n.p. Schuyler, J. D. (1902). Report on the water supply of the Riverside Trust Company, under the Gage Canal, and the measures desirable for increasing the same to a minimum of 1600 miners inches: n.p. 283 Water Resources Institute, California State University San Bernardino Schuyler, J. D., & Murphy, D. W. (1895). Report on the water supply of Mentone with: Mentone water supply, report of measurements of water developments at Mentone and the availability of the supply for domestic purposes: n.p. Wesner, H. B. (Artist). (1880). Artesian wells of San Bernardino, Calif. from the R.W. Waterman family papers [Photographs]. Views of fountains, people, carriages, and horses. All photos include a note that the wells pictured supply the Gage Canal of Riverside, Calif. San Bernardino County Settlement Progressive map of San Bernardino Co.: Data obtained from government and private sources (Cartographer). (1930). [1 map]. Includes range, township and section numbers; legend includes railroads, springs, wells, reservoirs and mines. Rand McNally map of San Bernardino County; Southwest corner, San Bernardino County: Section of complete map of California [6N35] (Cartographer). (1935). [2 maps on 1 sheet ;]. Rand McNally map of San Bernardino County ; Southwest corner, San Bernardino County: Section of complete map of California (Cartographer). (1946). [2 maps on 1 sheet]. Corps closes out Seven Oaks file. (2002). ENR, 248(20), 14. Two and a half years after completion of the Seven Oaks Dam in southern California, the U.S. Army Corps of Engineers and its contractor, Odebrecht Construction Inc., resolved remaining claims May 10 with a $38.5-million mediated settlement. However, company officials say the jury is still out on whether the technically challenging, high-profile project will turn a profit. Alan M. Voorhees & Associates. (1973). San Bernardino countywide five-year capital improvement for streets and highways. Los Angeles, CA: Author. Albert A Webb Associates. (1970). Estimated percolation of state water released in the Santa Ana River near the Bunker Hill Dike: Task order VIII-2. Riverside, CA: Santa Ana Watershed Planning Agency. Ascenzi, J. (2001, Dec 3, 2001). Paving with good intentions; long-delayed Route 30 extension could help some businesses -- and hurt others. The Business Press, p. 1. Assuming construction remains on schedule, the Foothill Freeway will be open from La Verne on the west to Interstate 15 in Rancho Cucamonga on the east within a year. The new freeway will take a lot of traffic -- and customers -- off Foothill Boulevard to the south. [Brad Umansky], who has negotiated numerous deals along Foothill Boulevard, said the freeway extension could hurt Montclair Plaza, already competing for shoppers with Ontario Mills and The Spectrum in Chino. 284 Santa Ana River & Watershed Bibliography Barth, M., & Tadi, R. (1996). An emissions comparison between truck and rail: A case study of the California I-40. Washington, DC: Transportation Research Board. Blaney, H. F. (1952). Basic data: Supplementing a report entitled: Rainfall and irrigation water penetration in the upper Santa Ana River Valley, San Bernardino County, California (Basic data: Supplementing a report). n.p.: U.S. Dept. of Agriculture Soil Conservation Service. Bookman-Edmonston Engineering Inc. (1963). Costs of alternative joint ventures for delivery of water from the state aqueduct to contracting agencies easterly of San Bernardino. Glendale, CA: Author. Brown, G. V., & National Seismic Conference and Workshop on Bridges and Highways. (2002). Design of the Lytle Creek Wash Bridge to survive permanent ground displacement due to surface fault rupture. Paper presented at the Third National Seismic Conference and Workshop on Bridges and Highways, Portland, Oregon. C M Engineering Associates, & Hesperia County Water District. (1976). Water report, Hesperia area: Immediate and long-range improvements to water system. n.p.: C. M. Engineering Associates. California Department of Water Resources. (1960). Contract between the State of California Department of Water Resources and San Bernardino Valley Municipal Water District for a water supply. In S. B. V. M. W. District (Ed.) (pp. 46). Sacramento, CA: Author. California Department of Water Resources. (1970). Meeting water demands in the Bunker HillSan Timoteo area (California Dept. of Water Resources Bulletin No. 104-5). Sacramento, CA: Author. California Department of Water Resources, & San Bernardino Valley Municipal Water District. (1975). Yucaipa dam and reservoir project: Findings on the amended application of the San Bernardino Valley Municipal Water District for grants under the Davis-Grunsky Act. Sacramento ,CA: State of California, Resources Agency, Dept. of Water Resources. California Division of Highways. (1974). General plan for use of land to be sold (Public resources code section 6373), Department of Transportation, Division of Highways, RA 174. Sacramento, CA: California State Lands Commission. California Division of Highways, & Southern California Rapid Transit District. (1971). Draft environmental statement on proposed express busway on the San Bernardino Freeway (FAI-10): Including proposed bus service and bus routes to and from the busway (Draft EIS). Sacramento, CA: State Department of Public Works, Division of Highways. California Public Utilities Commission Transportation Division. (1959). Report covering investigation of conditions at publicly used road crossings of Union Pacific Railroad Company at Toomey and Manix, San Bernardino County, case no. 6356. Sacramento, CA: Author. California Resources Agency. (1966). West San Bernardino County Water District water supply and distribution system (Rialto, California): Comments of California on a feasiblity report filed under Public Law 984. Sacramento, CA: Author. 285 Water Resources Institute, California State University San Bernardino Chino Basin Watermaster. (1978-). Annual report of the Chino Basin Watermaster. Chino, CA: Author. City of Riverside (Calif.). (1891). Rules and regulations governing the use of piped water: Also, water rates as fixed by the Board of Trustees of the City of Riverside for the year commencing July 1, 1890, and ending June 30, 1891. Riverside, CA: Riverside Water Company. De Leuw Cather & Company, & L. D. King Engineering Company. (1970). Engineering report on railroad - street grade separations: Archibald Avenue - SP, Archibald Avenue - UP, Haven Avenue - SP, Milliken Avenue - SP, County of San Bernardino. San Francisco, CA: De Leuw, Cather & Company. Department of Agriculture Forest Service. (1979). Land- management alternatives for Big Bear Basin, San Bernardino National Forest. San Bernardino, CA: Author. Pura 35-year land-use plan is presented for the 30,665-acre big bear basin planning unit in big bear ranger district, san bernardino national forest, san bernardino county, california. the preferred alternative would provide levels of developed and dispersed recreation opportunities and production of goods and services to meet a moderate range of demands. primary visual quality objectives would be retention on 22,449 acres and partial retention on 7,968 acres; modification standards would apply to only 248 acres. special land uses would occupy a total. Drummer, R. (1998, May 18, 1998). Mountain water proposal denied. The Business Press, p. 1. Owners of the recently closed Santa's Village still hope to open a water-pumping operation in the little mountain town of Skyforest, despite last week's rejection of the proposal by the San Bernardino County Planning Commission. The Skyforest Co. wants to pump 30 acre-feet per year out of underground wells at the property and sell the water to commercial bottlers. Dutcher, L. C., & French, J. J. (1965). Progress report on water studies in the Chino-Corona area, Upper Santa Ana Valley, California, 1964 (Open-file report). Garden Grove, CA: U.S. Geological Survey, Water Resources Division. Engeron, C. S. (2001, February 19, 2001). A path of the past: Highland wants to build a new structure across the Santa Ana River while preserving an iron bridge built in 1912. The Press Enterprise, p. 594 words. On the east end of Highland, drivers on Greenspot Road come upon a historic bridge that spans the boulders and brush that fill the Santa Ana River bed. The bridge's 18-foot-wide span is barely wide enough for two cars, and the rusty iron bolts and cracked asphalt tell the tale of its age -- nearly 90 years. The bridge was the property of San Bernardino County until last fall, when Highland annexed 3,320 acres that included the road and bridge. The city, which desires a safer and more convenient route across the river bed, has applied for federal grant money to pay for a new road and bridge. The bridge may be used as a pedestrian and equestrian path that will connect to the Santa Ana River Trail. Envicom Corporation, & DKS Associates. (1989). City of San Bernardino general plan. San Bernardino, CA: City of San Bernardino. 286 Santa Ana River & Watershed Bibliography Farkov, E. (Cartographer). (2002). San Bernardino County [1 map]. French, J. J. (1972). Ground-water outflow from Chino Basin, Upper Santa Ana Valley, Southern California (Geological Survey water-supply paper No. 1999-G). Washington, DC: U.S. Government Printing Office. Friedersdorf, C. (2003, May 9, 2003). Rancho Cucamonga, Calif., faces new water costs. Knight Ridder Tribune Business News, p. 1. New state regulations designed to keep polluted urban runoff out of coastal waters has city officials crying foul. A portion of the new regulations will require cities to inspect businesses to ensure their sites do not pollute urban runoff during rain storms. Even cities that comply with the new regulations will lose protection against third party lawsuits that they had under the former regulatory framework. Permitting fees paid to the state's regional water quality control board by developers and cities will also be raised, and cities with populations under 100,000 will face the fees for the first time. The new regulations are part of a gradual trend that has tightened provisions of the Clean Water Act since its passage in the 1970s -- a trend environmental advocates say is essential to cleaning up coastal waters in Orange County, which consistently fail to meet pollution targets. Godines, V. (1997, April 26, 1997). Redlands' petition seeks to halt release of water into river; The city contends the planned test on Mill Creek and the Santa Ana River will reduce its water supply. The Press Enterprise, p. 592 words. Redlands has filed a petition with a federal commission in an attempt to block a test involving water flowing from the San Bernardino Mountains that could significantly reduce the city's water supply, officials said Friday. An attorney hired by the city filed the petition Thursday with the Federal Energy Regulatory Commission in Washington, D.C., seeking to stop the test, which is scheduled to begin next week and could last through October. Southern California Edison is planning to conduct the test as part of its application for renewal of its license for hydroelectric plants along Mill Creek and the Santa Ana River in the foothills above the city. Hanson, J. C., & San Bernardino Valley Municipal Water District. (1977). Stream diversions in the Bunker-Hill-San Timoteo area 1959-60 - 1974-75. Sacramento, CA: James C. Hanson Consulting Civil Engineer. Hardt, W. F., & Freckleton, J. R. (1987). Aquifer response to recharge and pumping, San Bernardino ground-water basin, California (Water-resources investigations report). Denver, CO: Dept. of the Interior, U.S. Geological Survey. Hertel, R. M. (1951). Big Bear Pines 1950 sanitary survey. Berkeley, CA: State of California Dept. of Public Health Bureau of Sanitary Engineering. Hilgard, E. W. (1902). Studies of the subterranean water supply of the San Bernardino Valley and its utilization (U.S. Dept. of Agriculture Bulletin). n.p.: U.S. Dept. of Agriculture, Office of Experiment Stations. 287 Water Resources Institute, California State University San Bernardino Hinckley, H. P. (1944). Review of the Irvine suit and its effect in limiting water conservation operations in San Bernardino County (Bulletin No. 3). San Bernardino, CA: San Bernardino Valley Water Conservation District. Keith, F. E. (1950). San Bernardino area 1950 sanitary survey. Berkeley, CA: State of California Dept. of Public Health Bureau of Sanitary Engineering. Kemmerer, J. P. (Cartographer). (1925). Map of San Bernardino County, California: Showing roads, railroads, springs and mining districts of the desert portion [1 map]. Lee, C. H. (1947). San Bernardino underground water basin in re San Bernardino Valley Water Conservation District vs. City of Riverside. n.p. Lifsher, M. (1997, Jun 18, 1997). Conflicting reports are at center of landfill fight. Wall Street Journal, p. CA.1. How the seismic survey went from sounding alarm bells to ringing none at all is a question that is now at the heart of a dispute between Waste Management and Cadiz Land Co., a Santa Monica agribusiness firm that wants to stop the dump from being built. Seismic instability at the site, Cadiz contends, could rip the landfill's liners and pollute an underground water supply that Cadiz uses. Cadiz, after losing a couple of preliminary rounds of litigation, is girding itself for a protracted fight. Lippincott, J. B. (1899). Water supply of San Bernardino Valley. Washington, DC: United States Government printing office. Lippincott, J. B., & U.S. Geological Survey. (1902). Development and application of water near San Bernardino, Colton and Riverside, California (Geological Survey water-supply and irrigation paper). Washington, DC: U.S. Government Printing Office. Martin, R. (1979). Bunker Hill artesian zone study. Unpublished Thesis (M.S.), California State Polytechnic University, Pomona, Pomona, CA. Melcher, K., Cope, A., Keene, C., & Albert A. Webb Associates. (1998). Initial study for the California Department of Water Resources: Proposed East Branch extension project, phase II, Santa Ana River crossing prepared for California Department of Water Resources. Sacramento, CA: California Department of Water Resources, Southern District,. Metcalf & Eddy. (1983). San Bernardino Valley Municipal Water District analysis of city of Redlands water supply plans and the effect on the SBVMWD. San Bernadino, CA: Author. Muckel, D. C. (1952). Consumptive use in the valley of Santa Ana River between Riverside Narrows and the Orange County line, California (Appendix A to Rainfall and irrigation water penetration in the upper Santa Ana River Valley, San Bernardino County, California). Washington, DC: United States Soil Conservation Service,. 288 Santa Ana River & Watershed Bibliography Muckel, D. C., & Aronovici, V. S. (1952). Rainfall and irrigation water penetration in the Upper Santa Ana River Valley, San Bernardino County, California: A report based on data gathered under a cooperative agreement between San Bernardino County, California, and the Soil Conservation Service, United States Department of Agriculture. Washington, DC: U.S. Soil Conservation Service. Neste Brudin & Stone Inc. (1973). A study of water supply sources and distribution systems, Reche Canyon area, May, 1973. San Bernardino, CA: Author. Orr, J. H. (2001, May 7, 2001). State may tighten rules for developer water claims Senate to consider putting teeth in 1995 law that failed to gauge impacts of growth. The Business Press, p. 3. The Senate will consider two bills aimed at putting teeth in 1995 legislation that required cities and counties to at least consider water supplies before approving major projects. SB 610 and SB 221 would spell out requirements and, more controversially, perhaps ban housing projects that fail to prove adequate water supplies are available. Orr, J. H. (2002, May 6, 2002). Pipeline project helps meet growth-related water needs of Southern California. Knight Ridder Tribune Business News, p. 1. Metropolitan's board April 9 awarded a $46.8 million contract to Vista-based L.H. Woods & Sons Inc. to install a 12-foot-diameter pipeline extending 5.3 miles from the foothills of the San Bernardino Mountains north of the city of Highland near Highway 330. The pipeline will connect to an existing Inland Feeder pipeline section near the Santa Ana River. The work is funded by $200 million in water revenue bonds sold by Metropolitan in November. Rosta, P. B. (1993). Inland Empire rulers plan $1.2-billion road. ENR, 230(17), 26. Exurbs in the fast-growing Inland Empire region east of Los Angeles plan to build a new freeway costing an estimated $1.2 billion, mostly with local funds. The San Bernardino Associated Governments plan to extend by 28.5 miles the existing Foothill Freeway from the Los Angeles County line through western San Bernardino County. Rosta, P. B. (1997). State plans freeway funding. ENR, 238(22), 12. Another piece of the Southern California freeway system will begin to fall into place in 1997 when construction begins on the $600 million extension of State Route 30 in Los Angeles and San Bernardino counties. Rowe, W. P. (1945). Water is precious (Reprint. Originally published in the San Bernardino Daily Sun and the Evening Telegram, Sept. 16,18,19,21,22 1945). San Bernardino, CA: San Bernardino Daily Sun. San Bernardino County. (1956). Master plan of highways for southwest portion of San Bernardino County (Preliminary report). San Bernardino, CA: San Bernardino County Planning Commission. San Bernardino County Planning Department (Cartographer). (1958). Master plan of highways, San Bernardino County, California [1 map on 4 sheets]. 289 Water Resources Institute, California State University San Bernardino San Bernardino County Surveyor (Cartographer). (1938). Map of southwest portion of San Bernardino County, California [1 map]. San Bernardino Valley Municipal Water District Water Resources Division. (1980-). Annual report on water supply. San Bernardino, CA: Author. State of California Department of Finance Demographic Research Unit. (1990). 1990 census of population and housing: Complete tables: state: California; county: San Bernardino. In S. t. f. 1 (Ed.) (Vol. San Bernardino [County] -- Chino -- Montclair -- Ontario --Rancho Cucamonga -- San Bernardino -- Upland). Sacramento, CA: State Census Data Center. Stetson Strauss & Dresselhaus Inc. (1962). Alternate sources of water supply for the City of San Bernardino. Los Angeles, CA: Author. Swett, I. L. (1967). Tractions of the Orange Empire. Los Angeles, CA: Interurbans. Thomas M. Stetson Civil and Consulting Engineers. (1963). Supplemental report on alternate sources of water supply for the City of San Bernardino. Los Angeles, CA: T.M. Steteson. U.S. Department of Agriculture Forest Service. (1994). Falls Road realignment/reconstruction: San Bernardino County, California (Draft environmental impact statement:). San Bernardino, CA: U.S. Department of Agriculture. Way, H. L. (Cartographer). (1921). Map of southwest portion, San Bernardino County, California [1 map]. Woolfenden, L. R., Koczot, K. M., San Bernardino Valley Municipal Water District, & U.S. Geological Survey. (2001). Numerical simulation of ground-water flow and assessment of the effects of artificial recharge in the Rialto-Colton Basin, San Bernardino County, California (Water-resources investigations report No. 00-4243). Denver CO: U.S. Dept. of the Interior U.S. Geological Survey ; Information Services distributor. Wright, M. G., & Santa Ana Watershed Project Authority. (1996, August 4-8, 1996). The long road to implementing the first phase of the Santa Ana Watershed Project Authority Chino Basin Desalination Program. Paper presented at the 1996 Biennial Conference & Exposition; American Desalting Association; The Water Supply Puzzle: How Does Desalting Fit In?, Monterey, CA. This paper discusses the Chino Basin Desalination Program, a specific program that addressed the salt imbalance in the lower Chino Groundwater Basin. The objectives of implementing the program include: reducing dependence on imported water; providing a drought proof water supply; improving the water quality of the Santa Ana River; and, clean-up of the degradated groundwater basin for ultimate use as a potable water supply. Topics covered include: end user water purchase agreements; feasibility; financing; and, final stages of implementation. San Bernardino County Agriculture and Other Uses San Bernardino Mountain area [Map no. 2005] (Cartographer). (1953). [2 maps on 1 sheet .]. 290 Santa Ana River & Watershed Bibliography Lake Arrowhead, Crestline, Lake Gregory, Big Bear Lake areas [C-1758] (Cartographer). (1957). [2 maps on 1 sheet]. Lake Arrowhead, Crestline, Lake Gregory, Big Bear Lake areas [C-1166] (Cartographer). (1961). [2 maps on 1 sheet]. San Bernardino County industrial development map (Cartographer). (1982). [2 maps]. San Bernardino Mountains recreation topo map: Mountain biking, hiking, 4WD, Big Bear, Arrowhead, Barton Flats, Lytle Creek (Cartographer). (1994). [1 map: col.; 68 x 100 cm., folded to 23 x 11 cm.]. Family says casino will support vanishing tribe sole survivors of Augustine band to open gaming center near Salton Sea in 2002. (2001, Sep 10, 2001). The Business Press, p. 5. Automobile Club of Southern California Travel Publications Department (Cartographer). (n.d.). Guide to San Bernardino Mountains [maps : both sides, col. ; 36 x 88 cm. or smaller, sheet 66 x 99 cm., folded to 23 x 10 cm.]. California Agricultural Extension Service. (1964). Agriculture's impact on food, jobs, taxes, land, water, income in San Bernardino County. Berkeley, CA: University of California. California Department of Parks and Recreation. (1974). Providence Mountains State Recreation Area: Mitchell Caverns Natural Preserve. Sacramento, CA: Author. California Department of Water Resources. (1974). Hesperia aquatic recreation area: Recreation development plan (California Dept. of Water Resources Bulletin No. 117-16). Sacramento, CA: Author. California Division of Beaches and Parks. (1957). Report on state park potentialities of San Bernardino Mountains, San Bernardino County, California: In accordance with Senate Concurrent Resolution no. 20. Sacramento, CA: Author. California Farmland Mapping and Monitoring Program (Cartographer). (1994). San Bernardino County important farmland map, 1992 [1 map on 3 sheets]. California Resources Agency (Cartographer). (n.d.). Mt. San Jacinto Wilderness State Park California State Automobile Association (Cartographer). (1975). Guide to San Bernardino Mountains [3 maps on 1 sheet]. Carr's Graphic Service (Cartographer). (1977). 1977 Big Bear Lake Valley street map: Including Big Bear Lake, Big Bear City, Fawnskin, Sugarloaf, Boulder Bay, Moonridge, Baldwin Lake and Erwin Lake areas [1 map]. East Riverside Irrigation District. (1892). Reports of officers of the East Riverside Irrigation District, San Bernardino County, California. San Bernardino, CA: J. Flagg & Co. Finkle, F. C. (1892). Chief engineer's report on the Grapeland Irrigation District: Its physical and engineering problems and business status: With a brief history of its organization and confirmation. San Bernardino, CA: F.C. Finkle. 291 Water Resources Institute, California State University San Bernardino Frasher, S. (2002, May 27, 2002). Former San Bernardino County, Calif., industrial site transformed. Knight Ridder Tribune Business News, p. 1. Frazier, J. (1999, October 30, 1999). Santa Ana River trail outlined: The San Bernardino proposal includes a course for equestrian, bicycle and hiking use. The Press Enterprise, p. 423 words. Ghori, I. (2000, June 07, 2000). Gravel-pit operator agrees to restoration: It likely will be 65 years before the plan is carried out in the Santa Ana River wash in Highland. The Press Enterprise, p. 403 words. Grenfell, C. C. (1981). Development of skiing in the San Bernardino Mountains. San Bernardino, CA: San Bernardino County Museum Asociation. Hall, W. H. (1891). Perris Irrigation District, California: Its physical, engineering and business problems and conditions. n.p.: A report made to the State Association of Irrigation Districts of California. Harrison, T. (Cartographer). (1999). San Jacinto Wilderness trail map [1 map]. Harrison, T. (Cartographer). (2000). San Gorgonio Wilderness trail map [1 map]. Joseph E. Bonadiman & Associates. (1965). Report on engineering feasibility, economic justification, and financial feasibility of Prado Regional Park Project, San Bernardino County, California, in support of application for grants under provisions of the DavisGrunsky Act, State of California. San Bernardino, CA: Author. Kush, D. K. (Cartographer). (1995). Guide to San Bernardino Mountains [3 maps on 1 sheet]. MacDuff, C. (2000, November 02, 2000). Santa Ana River trail is going ahead -- slowly. The Press Enterprise, p. 691 words. Plans for a hiking, biking and horseback-riding trail along the Santa Ana River through San Bernardino County are inching along. Another baby step was taken this week, when the Board of Supervisors gave parks officials the green light to apply for a $ 1.6 million grant to build a 4.5-mile stretch between San Bernardino and Redlands. Costs for the trail are discussed. Matthews, V. K. (2000). Preparatory vocational education grant proposal. Unpublished Thesis (M.A.), California State University, San Bernardino, San Bernardino, CA. This thesis was written as part of a process to secure funds for developing a "Preparatory Vocational Education" training academy for entry-level "Irrigation Technicians." Research revealed that funding for vocational program development was being awarded to "All-inclusive" or academy-style programs. These programs provide instruction necessary for students with zero experience to compete as entry-level journeymen. This project is based on a partial proposal draft for a U.S. Department of Labor Grant. 292 Santa Ana River & Watershed Bibliography McNary, S. (2000, December 04, 2000). Trail to sea wins boost: San Bernardino County officials are hopeful that White House recognition will help raise money for the Santa Ana River Trail. The Press Enterprise, p. 458 words. The Santa Ana River Trail has been named a Community Millennium Trail by the White House Millennium Council. The distinction should help market the trail, raise grant money, motivate volunteer action and promote events in support of the trail, said Jeff Weinstein, county trails coordinator. Messinger, R. (1996, May 6, 1996). Builder looks past Redlands. The Business Press, p. 1. The district means much more for Redlands than simply the possibility of losing one large development, however. If Majestic can find a cost-effective way to extend services to its property without going through Redlands, it's likely that other landowners in the 1,000-acre doughnut hole would consider doing the same thing. Redlands officials doubt that the county can extend services at a reasonable cost. Still, they've opposed the district's formation, arguing that the entire project has been studied with the assumption that services are coming from Redlands. "That's always been stated in all the documents," said Eric Norris, the city's principal planner. "Everything said that service is coming from the city of Redlands." The island of unincorporated land was created in the early 1960s, when Redlands and the city of San Bernardino were engaged in an annexation war, according to James Roddy, executive officer of the county's Local Agency Formation Commission, which oversees annexation. To block the creeping annexation of San Bernardino, Redlands marked its territory by annexing a sliver of property just south of the Santa Ana River bed. Messinger, R. (1996, Feb 12, 1996). Majestic Realty may develop industrial park in Redlands. The Business Press, p. 10. The district means much more for Redlands than simply the possibility of losing one large development, however. If Majestic can find a cost-effective way to extend services to its property without going through Redlands, it's likely that other landowners in the 1,000-acre doughnut hole would consider doing the same thing. Redlands officials doubt that the county can extend services at a reasonable cost. Still, they've opposed the district's formation, arguing that the entire project has been studied with the assumption that services are coming from Redlands. "That's always been stated in all the documents," said Eric Norris, the city's principal planner. "Everything said that service is coming from the city of Redlands." The island of unincorporated land was created in the early 1960s, when Redlands and the city of San Bernardino were engaged in an annexation war, according to James Roddy, executive officer of the county's Local Agency Formation Commission, which oversees annexation. To block the creeping annexation of San Bernardino, Redlands marked its territory by annexing a sliver of property just south of the Santa Ana River bed. Polacek, P. (Cartographer). (1996). Guide to San Bernardino Mountains [3 maps on 1 sheet]. Puritz, H. M. (Cartographer). (2000). Guide to San Bernardino Mountains: Detailed street maps, plus points of interest, boating, winter sports, lodging, restaurants, campgrounds and more! [3 maps on 1 sheet]. 293 Water Resources Institute, California State University San Bernardino Robinson, J. W. (1979). San Bernardino mountain trails: 100 wilderness hikes in Southern California (3d ed ed.). Berkeley, CA: Wilderness Press. Sabbatini, R., Steinmetz, J., & Williams, J. (1985). Existing and potential recreation use and benefit analysis: Upper Santa Ana River and Lytle Creek, San Bernardino County, California. Santa Ana CA: Pod,. San Bernardino County Agricultural Commissioner. (1951-2001). Annual crop and livestock report. San Bernardino, CA: U.S. Dept. of Agriculture. San Bernardino County Agricultural Commissioner. (1954-1994). Annual report (No. sn 89018736). San Bernardino, CA: San Bernardino County Dept. of Agriculture. San Bernardino County Department of Economic and Community Development, & Inland Empire Economic Council. (1989). Industrial directory. San Bernardino, CA: County of San Bernardino, Dept. of Economic and Community Development ; Inland Empire Economic Council. San Bernardino County Department of Economic and Community Development, & Inland Empire Economic Council. (1990-). County of San Bernardino industrial directory: Prepared through the public-private partnership of San Bernardino County Environmental Public Works Agency, Department of Economic Community, Development Inland Empire Economic Council. San Bernardino, CA: Author. San Bernardino County Planning Department. (1960). Planning for recreation in San Bernardino County. San Bernardino, CA: Author. San Bernardino County Planning Dept. (1963). Recreation planning activities (preliminary report). n.p.: Author. San Bernardino County Regional Parks Department. (1988). Regional Parks Department strategic master plan 2010: Our parks future (Draft). San Bernadino, CA: Author. Smith, G. A. (1974). Cattle brands of San Bernardino County (1st ed.). Bloomington, CA: San Bernardino County Museum Association. Stewart, M. (Cartographer). (1991). Guide to San Bernardino Mountains [3 maps on 1 sheet]. U.S. Department of Agriculture Soil Conservation Service, West Valley Planning Agency, & San Bernardino County Planning Dept. (1968). Report and general soil map southwest portion San Bernardino County, California. Redlands, CA: U.S. Department of Agriculture Soil Conservation Service. West San Bernardino County Water District, & Neste Brudin & Stone. (1965). Engineering and financial feasibility report, August 1965, to accompany the application of the West San Bernardino County Water District for loan under provisions of public law 984, as amended, of the 84th Congress, for the purpose of reconstructing an irrigation distribution system for the project area. San Bernardino, CA: Neste, Brudin and Stone, consulting civil engineers. 294 Santa Ana River & Watershed Bibliography San Bernardino County Litigation / Legal Issues Berghouse, L. C. (2003, July 17, 2003). Flood panel wants San Bernardino County, California, to fight for land rights. Knight Ridder Tribune Business News, p. 1. A San Bernardino County Flood Control District committee formally asked the county Board of Supervisors to "vigorously" defend the district's land rights at a time when the district's jurisdiction is in question. Even though the new 210 Freeway now diverts all street runoff from north Upland and San Antonio Heights to the Colonies property, the Colonies has argued that the Flood Control District lost its right to use the land because it abandoned its easements by the mid- 1990s. The Colonies Partners and Upland city engineers asked the committee in June 2002 to fund the expensive basin. The request was rejected, prompting the Colonies to sue the county. Berghouse, L. C. (2003, June 17, 2003). San Bernardino, California, Flood Control District faces setback in property suit. Knight Ridder Tribune Business News, p. 1. The Colonies contends that the Flood Control District does not have the right to dump that street runoff on their property because the district abandoned that land in the 1990s. The Colonies also contends that modern flood control needs far surpass the original scope of the easements, thus making them invalid. [Mitchell Norton] also argued that the Colonies has already been compensated by Caltrans for the basin. [Peter Norell] also oversaw the Colonies case with Caltrans, which ended in a $17.9 million settlement. Norell said the settlement did not specify that Caltrans paid damages explicitly for the basin. Big Bear Municipal Watere District, Plaintiff and Appellant, v. Bear Valley Mutual Water Company, Defendant and Respondent; City of Redlands, Intervener and Respondent, 207 363 (Court of Appeal of California, Fourth Appellate District, Division Two 1989). California Bureau of Sanitary Engineering. (1964). Exhibit A in the matter of the permit application from San Bernardino Valley Municipal Water District, dated June 15, 1962, serving Yucaipa: Sanitary engineering investigation of domestic water supply. Berkeley, CA: State of California, Dept. of Public Health, Bureau of Sanitary Engineering. Charles H. Condee et al. v. Hiram M. Barton, 62 1 (Supreme Court of California, Dept. One 1882). City of San Bernardino (a Municipal Corporation), Plaintiff, Appellant and Respondent, v. City of Riverside (a Municipal Corporation), et al., Defendants, Appellants and Respondents, 186 7 (Supreme Court of California 1921). City of San Bernardino vs. Fontana Water Co. et al. Action No. 17030 Judgment: In the Superior Court of the State of California in and for the County of San Bernardino 32 leaves (Superior Court of the State of California 1924). County of San Bernardino (a Body Corporate and Politic), Petitioner, v. Industrial Accident Commission and George W. Barnes, Respondents, 1 598 (Court of Appeal of California, Fourth Appellate District 1934). 295 Water Resources Institute, California State University San Bernardino Daniel Durkee, Appellant, v. Ynez Cota et al., Respondents, 74 313 (Supreme Court of California 1887). Foster v. Bear Valley Irrigation CO., 65 836 (Circuit Court, S.D. California 1895). Gillespie, C. G. (1931). In the matter of the application of the city of Redlands for permit to establish and use a 640-acre city sewer farm along the Santa Ana River bottom northwest of town (Findings and opinion). Berkeley, CA: State of California, Dept. of Public Health, Bureau of Sanitary Engineering. Hinckley, H. P. (1962). Water litigation in the Upper Santa Ana River Basin (San Bernardino County): n.p. Huber, W. L. (1911). District engineer's report on application of Cyrus G. Baldwin for right of way for conduit in the Angeles National Forest: n.p. In the District Court of Appeal of the State of California, Second Appellate District : San Bernardino Valley Water Development Company, plaintiff and appellant vs. San Bernardino Valley Municipal Water District, defendant and appellee, application and declaration for extension of time to file appellee's answering brief [4] leaves (District Court of Appeal of the State of California, Second Appellate District 1964). In the District Court of Appeal of the State of California, Second Appellate District, Division Three : San Bernardino Valley Water Development Company, plaintiff and appellant vs. San Bernardino Valley Municipal Water District, et al, defendant and respondent, Appeal from judgment of the Superior Court of Los Angeles County. . 50 leaves (District Court of Appeal of the State of California, Second Appellate District, Division Three 1965). In the District Court of Appeal, Fourth Appellate District : William E. Leonard, et al, petitioners, vs. the Board of Directors of the San Bernardino Valley Municipal Water District, et al, respondents, brief of Wilson, Harzfeld, Jones & Morton, Attorneys at Law, amicus curiae, in support of respondents ix, [167] (District Court of Appeal, Fourth Appellate District 1964). In the District Court of Appeal, Fourth Appellate District, State of California: William E. Leonard, et al, petitioners, vs. the Board of Directors of the San Bernardino Valley Municipal Water District, et al, respondents, the City of San Bernardino, et al., real parties in interest, memorandum regarding points and authorities filed in opposition to petition for writ of mandate [5] leaves (Chapman & Sprague 1960). In the District Court of Appeal, Fourth Appellate District, State of California : William E. Leonard, et al., petitioners, vs. the Board of Directors of the San Bernardino Valley Municipal Water District, et al., respondents, the City of San Bernardino, et al., real parties in interest, points and authorities in opposition to petition for writ of mandate ii, 11 leaves (District Court of Appeal, Fourth Appellate District, State of California 1961). 296 Santa Ana River & Watershed Bibliography In the District Court of Appeal, Fourth Appellate District, State of California : San Bernardino Valley Municipal Water District, a municipal water district, organized and existing under the Municipal Water District Act of 1911 of the State of California, plaintiff-appellant, vs- Meeks and Daley Water Company, et al., defendants-respondents, appeal from Superior Court of San Bernardino County, Hon. Paul Vallee, Judge, appellant's closing brief, San Bernardino Valley Municipal Water District vi, [32] leaves (District Court of Appeal, Fourth Appellate District, State of California 1963). In the District Court of Appeal, Fourth Appellate District, State of California : William E. Leonard, et al, petitioners, vs. the Board of Directors of the San Bernardino Valley Municipal Water District, et al, respondents, the City of San Bernardino, et al, real parties in interest, amendment to answer to petition for writ of mandate [11] leaves (District Court of Appeal, Fourth Appellate District, State of California 1963). In the District Court of Appeal, Fourth Appellate District, State of California : William E. Leonard, et al., petitioners, vs. the Board of Directors of the San Bernardino Valley Municipal Water District, et al., respondents, the City of San Bernardino, etc., real party in interest, brief of A.S. Hubbs and Helen A. Gleason amici curiae in support of respondents 21 leaves (District Court of Appeal, Fourth Appellate District, State of California 1963). In the District Court of Appeal, Fourth Appellate District, State of California: San Bernardino Valley Municipal Water District, a municipal water district, organized and existing under the Municipal Water District Act of 1911 of the State of California, plaintiff-appellant, vs- Meeks and Daley Water Company, et al., defendant-respondent, appeal from Superior Court of San Bernardino Co., Hon. Paul Vallee, Judge, specially assigned, opening brief of San Bernardino Valley Municipal Water District iii, 26 leaves (District Court of Appeal, Fourth Appellate District, State of California 1963). In the District Court of Appeal, Fourth Appellate District, State of California: William E. Leonard, Donald G. Mauldin, E. Dana Brooks, Alfred Merle Sessions and Ralph G. Velasquez, individually, jointly and as representatives of all of those persons who have signed a petition for exclusion of territory from the San Bernardino Valley Municipal Water District, which said petition was filed with the Secretary of said Municipal Water District on October 2, 1963, and which said petition is entitled, "Petition for exclusion from San Bernardino Valley Municipal Water District", petitioners, vs. the Board of Directors of the San Bernardino Valley Municipal Water District, a public agency, and A.M. Herman, Leroy Holmes, Joseph E. Bonadiman, Horace T. Hinckley, and Maurice S. Shumaker, as members of said Board of Directors, repondents, the City of San Bernardino, a municipal corporation, and the Board of Water Commissioners of the City of San Bernardino, real parties in interest, petition for writ of mandate and points and authorities in support thereof 1 v. (various pagings) (District Court of Appeal, Fourth Appellate District, State of California 1963). In the District Court of Appeal, Fourth Appellate District, State of California: William E. Leonard, et al, petitioners, vs. the Board of Directors of the San Bernardino Valley Municipal Water District, et al, respondents, amicus curiae brief of the City of San Bernardino in support of petition for writ of mandate [39] leaves (District Court of Appeal, Fourth Appellate District, State of California 1963). 297 Water Resources Institute, California State University San Bernardino In the District Court of Appeal, Fourth Appellate District, State of California : William E. Leonard, et al, petitioners, vs. the Board of Directors of the San Bernardino Valley Municipal Water District, et al, respondents, brief of respondents 1 v. (various pagings) (District Court of Appeal, Fourth Appellate District, State of California 1964). In the District Court of Appeal, Second Appellate District, State of California : San Bernardino Valley Water Development Company, plaintiff and appellant vs. San Bernardino Valley Municipal Water District, defendant and respondent, petition for rehearing ii, [16] leaves (District Court of Appeal, Second Appellate District, State of California 1965). In the Superior Court of the State of California in and for the County of Sacramento: San Bernardino Valley Municipal Water District, plaintiff, vs. Department of Water Resources of the State of California and Metropolitan Water District of Southern California; Municipal Water District of Orange County, defendants, Friday, June 28, 1974, 9:30 o'clock a.m., deposition of William R. Gianelli 98 leaves (Superior Court of the State of California in and for the County of Sacramento 1974). In the Superior Court of the State of California in and for the County of Sacramento: San Bernardino Valley Municipal Water District, plaintiff, vs. Department of Water Resources of the State of California and Metropolitan Water District of Southern California, defendants, Municipal Water District of Orange County, intervener, Monday, July 14, 1975, reporter's transcript of proceedings had on defendants' motions for judgment on the pleadings 54 leaves (Superior Court of the State of California in and for the County of Sacramento 1975). In the Superior Court of the State of California, in and for the County of San Bernardino: Orange County Water District, a public corporation, plaintiff, vs. City of Riverside, a municipal corporation, City of Colton, a municipal corporation, City of San Bernardino, a municipal corporation, City of Redlands, a municipal corporation, defendants, summary of arguments 119 leaves (Superior Court of the State of California 1957). In the Supreme Court of the State of California : San Bernardino Valley Municipal Water District, plaintiff and appellant, vs. Meeks and Daley Water Company, et al., defendants and respondents, appeal from Superior Court of San Bernardino County, Hon. Paul Vallee, Judge, petition of appellant San Bernardino Valley Municipal Water District for a hearing after decision by the District Court of Appeal 1 v. (various pagings) (Supreme Court of the State of California 1964). In the Supreme Court of the State of California : San Bernardino Valley Water Development Company, plaintiff and appellant vs. San Bernardino Valley Municipal Water District, defendant and petitioner, appeal from Superior Court of Los Angeles County, Hon. Jesse J. Frampton, Judge, appellant's reply to petition for hearing by Supreme Court 19 leaves (Supreme Court of the State of California 1965). In the Supreme Court of the State of California : San Bernardino Valley Water Development Company, plaintiff-appellant vs. San Bernardino Valley Municipal Water District, defendant-petitioner, declaration of Hugo W. Wilde substituting attorney for San Bernardino Valley Municipal Water District [3] leaves (Supreme Court 1965). 298 Santa Ana River & Watershed Bibliography In the Supreme Court of the State of California : San Bernardino Valley Water Development Company, plaintiff-appellant vs. San Bernardino Valley Municipal Water District, defendant-petitioner, petition for a hearing by the Supreme Court ii, 16 leaves & leaves 261-294 (Supreme Court of the State of California 1965). In the Supreme Court of the State of California: San Bernardino Valley Water Development Company, plaintiff-appellant vs. San Bernardino Valley Municipal Water District, defendant-petitioner, declaration of Martin McDonough relating to substitution of attorney for San Bernardino Valley Municipal Water District 4 leaves (Supreme Court of the State of California 1965). Jurupa Ditch Company, Inc., Plaintiff and Appellant, v. County of San Bernardino, Defendant and Respondent, 256 35 (Court of Appeal of California, Fourth Appellate District, Division Two 1968). Katz et al. v. Walkinshaw, 141 116 (Supreme Court of California 1902). Leah J. Katz, Executrix, etc., et al., Appellants, v. Margaret D. Walkinshaw, 141 116 (Supreme Court of California 1903). Orange County Water District (a Corporation), Respondent, v. City of Riverside et al., Appellants, 171 518 (Court of Appeal of California, Fourth Appellate District 1959). Orange County Water District, Plaintiff and Respondent, v. City of Colton, Defendant and Appellant, 226 642 (Court of Appeal of California, Fourth Appellate District 1964). Orange County Water District, Respondent, v. City of Riverside, et al., Appellants, 154 345 (Court of Appeal of California, Fourth Appellate District 1957). Orr, J. H. (2000, Jun 26, 2000). War over water is near end. The Business Press, p. 1. Since 1964, when San Bernardino voters rejected membership in Metropolitan to keep control over their water supplies, the animosity has continued as courtroom brawling. The new agreement specifically puts on hold two consolidated lawsuits in which Valley seeks to sell excess State Water Project water into the Metropolitan system -- over the objections of Metropolitan. "We feel the impacts are minimal to Metropolitan," Man said of opening Metropolitan's market to Valley. "As surplus water, we want to make sure there is no adverse impact on the resources, or on the financing or revenue structure, of the Metropolitan system." The Valley district will deliver 15,000 acre-feet of its surplus State Water Project supplies, brought by aqueduct from the Sacramento-San Joaquin Delta, to Metropolitan for spreading over the higher and drier San Bernardino Basin in the north. Pacific Rolling Mill Company, Respondent, v. Bear Valley Irrigation Company et al., Defendants. J. A. Graves et al., Intervenors, Appellants, 120 94 (Supreme Court of California, Department One 1898). Riverside Land and Irrigation Co, Appellant, v. Cornelius Jansen et al., Respondents, 66 300 (Supreme Court of California, Dept. Two 1885). 299 Water Resources Institute, California State University San Bernardino Riverside Water Company, Appellant, v. R. H. Sargent et al., Respondents, 112 230 (Supreme Court of California, Department Two 1896). San Bernardino County Flood Control District, Plaintiff and Respondent, v. Patrick F. Grabowski, Defendant and Appellant, 205 885 (Court of Appeal of California, Fourth Appellate District, Division Two 1989). San Bernardino Valley Water Development Company, Plaintiff and Appellant, v. San Bernardino Valley Municipal Water District, Defendant and Respondent, 236 238 (Court of Appeal of California, Second Appellate District, Division Three 1965). Silva, A. (2003, Jun 17, 2003). Lake Arrowhead, Calif. agency defends water rights as historic. Knight Ridder Tribune Business News, p. 1. Attorney and part-time Lake Arrowhead resident Theodore Heyck filed a complaint in March with the State Water Resources Control Board alleging the agency has no rights to the lake's water. Heyck argues the water rights became invalid after a 1913 decision in which a San Bernardino County court ruled that water couldn't be exported from the mountains because doing so would affect High Desert residents. Originally planned as a drinking water reservoir to serve the communities below, Lake Arrowhead instead became a popular recreation destination after the court decision forced a change in plans. Southern California Labor Management Operating Engineers Contract Compliance Committee, Plaintiff and Appellant, v. Lloyd W. Aubry, Jr., as Director, etc., Defendant and Respondent., 54 873 (Court of Appeal of California, First Appellate District, Division Four 1997). Superior Court of the State of California for the County of San Bernardino: San Bernardino Valley Municipal Water District, plaintiff, -vs- Edward W. Nelson, et al., defendant, reporter's transcript of oral proceedings 41 leaves (Superior Court of the State of California for the County of San Bernardino 1978). The Mountain Club (a Corporation), Respondent, v. Harry J. Penny, etc., Appellant, 67 225 (Court of Appeal of California, Second Appellate District, Division Two 1924). The Riverside Water Company, Respondent, v. Matthew Gage, Appellant, 89 410 (Supreme Court of California 1891). The Riverside Water Company, Respondent, v. Matthew Gage, Appellant, 108 240 (Supreme Court of California, Department One 1895). W. D. Anderson, Respondent, v. State of California et al., Appellants, 61 140 (Court of Appeal of California, Fourth Appellate District 1943). W. O. Price v. The Riverside Land and Irrigation Company, 56 431 (Supreme Court of California 1880). 300
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