PROGRAM ANNOUNCEMENT/SOLICITATION NO./CLOSING DATE/If not in response to a program... COVER SHEET FOR PROPOSAL TO THE NATIONAL SCIENCE FOUNDATION
COVER SHEET FOR PROPOSAL TO THE NATIONAL SCIENCE FOUNDATION PROGRAM ANNOUNCEMENT/SOLICITATION NO./CLOSING DATE/If not in response to a program announcement/solicitation enter NSF 00-2 FOR NSF USE ONLY NSF 00-2 NSF PROPOSAL NUMBER FOR CONSIDERATION BY NSF ORGANIZATIONAL UNIT(S) (Indicate the most specific unit known, i.e., program, division, etc.) Division of Molecular and Cellular Bioscience DATE RECEIVED NUMBER OF COPIES DIVISION ASSIGNED EMPLOYER IDENTIFICATION NUMBER (EIN) OR TAXPAYER IDENTIFICATION NUMBER (TIN) FUND CODE DUNS # (Data Universal Numbering System) SHOW PREVIOUS AWARD NO. IF THIS IS FILE LOCATION IS THIS PROPOSAL BEING SUBMITTED TO ANOTHER FEDERAL A RENEWAL AGENCY? YES NO x IF YES, LIST ACRONYM(S) AN ACCOMPLISHMENT-BASED RENEWAL NAME OF ORGANIZATION TO WHICH AWARD SHOULD BE MADE ADDRESS OF AWARDEE ORGANIZATION, INCLUDING 9 DIGIT ZIP CODE University of Florida University of Florida AWARDEE ORGANIZATION CODE (IF KNOWN) Gainesville, FL 32611-8252 NAME OF PERFORMING ORGANIZATION, IF DIFFERENT FROM ABOVE ADDRESS OF PERFORMING ORGANIZATION, IF DIFFERENT, INCLUDING 9 DIGIT ZIP CODE University of Florida, Department of Zoology 223 Bartram Hall PERFORMING ORGANIZATION CODE (IF KNOWN) PO Box 118525 Gainesville, Fl 32611-8252 IS AWARDEE ORGANIZATION (Check All That Apply) (See GPG II.D.1 For Definitions) FOR-PROFIT ORGANIZATION SMALL BUSINESS MINORITY BUSINESS WOMAN-OWNED BUSINESS TITLE OF PROPOSED PROJECT Characterization and manipulation of cooperative breeding in the Brown-headed Nuthatch REQUESTED AMOUNT PROPOSED DURATION (1-60 MONTHS) REQUESTED STARTING DATE 36 months Fall 2009 SHOW RELATED PREPROPOSAL NO., IF APPLICABLE $ 28,970 CHECK APPROPRIATE BOX(ES) IF THIS PROPOSAL INCLUDES ANY OF THE ITEMS LISTED BELOW X BEGINNING INVESTIGATOR (GPG I.A.3) X VERTEBRATE ANIMALS (GPG II.D.12) IACUC App. Date DISCLOSURE OF LOBBYING ACTIVITIES (GPG II.D.1) HUMAN SUBJECTS (GPG II.D.12) Exemption Subsection or IRB App. Date PROPRIETARY & PRIVILEGED INFORMATION (GPG I.B, II.D.7) NATIONAL ENVIRONMENTAL POLICY ACT (GPG II.D.10) INTERNATIONAL COOPERATIVE ACTIVITIES: COUNTRY/COUNTRIES HISTORIC PLACES (GPG II.D.10) SMALL GRANT FOR EXPLOR. RESEARCH (SGER) (GPG II.D.12) FACILITATION FOR SCIENTISTS/ENGINEERS WITH DISABILITIES (GPG V.G.) RESEARCH OPPORTUNITY AWARD (GPG V.H) PI/PD DEPARTMENT PI/PD POSTAL ADDRESS Zoology University of Florida PI/PD FAX NUMBER 421 Carr Hall Gainesville, Fl 32611-8252 NAMES (TYPED) High Degree Yr of Degree Telephone Number Electronic Mail Address BS 2006 727.687.6334 [email protected] PI/PD NAME Rebecca Kimball CO-PI/PD Jordan Victoria Smith CO-PI/PD CO-PI/PD CO-PI/PD NSF Form 1207 (10/99) Page 1 of 2 CERTIFICATION PAGE Certification for Principal Investigators and Co-Principal Investigators I certify to the best of my knowledge that: (1) the statements herein (excluding scientific hypotheses and scientific opinions) are true and complete, and (2) the text and graphics herein as well as any accompanying publications or other documents, unless otherwise indicated, are the original work of the signatories or individuals working under their supervision. I agree to accept responsibility for the scientific conduct of the project and to provide the required project reports if an award is made as a result of this proposal. I understand that the willful provision of false information or concealing a material fact in this proposal or any other communication submitted to NSF is a criminal offense (U.S.Code, Title 18, Section 1001). Name (Typed) Signature Social Security No.* Date PI/PD Rebecca Kimball Co-PI/PD Jordan Victoria Smith 3/7/07 Co-PI/PD Co-PI/PD Co-PI/PD Certification for Authorized Organizational Representative or Individual Applicant By signing and submitting this proposal, the individual applicant or the authorized official of the applicant institution is: (1) certifying that statements made herein are true and complete to the best of his/her knowledge; and (2) agreeing to accept the obligation to comply with NSF award terms and conditions if an award is made as a result of this application. Further, the applicant is hereby providing certifications regarding Federal debt status, debarment and suspension, drug-free workplace, and lobbying activities (see below), as set forth in the Grant Proposal Guide (GPG), NSF 00-2. Willful provision of false information in this application and its supporting documents or in reports required under an ensuing award is a criminal offense (U.S. Code, Title 18, Section 1001). In addition, if the applicant institution employs more than fifty persons, the authorized official of the applicant institution is certifying that the institution has implemented a written and enforced conflict of interest policy that is consistent with the provisions of Grant Policy Manual Section 510; that to the best of his/her knowledge, all financial disclosures required by that conflict of interest policy have been made; and that all identified conflicts of interest will have been satisfactorily managed, reduced or eliminated prior to the institution’s expenditure of any funds under the award, in accordance with the institution’s conflict of interest policy. Conflicts that cannot be satisfactorily managed, reduced or eliminated must be disclosed to NSF. Debt and Debarment Certifications (If answer “yes” to either, please provide explanation.) Is the organization delinquent on any Federal debt? Yes No X No X Is the organization or its principals presently debarred, suspended, proposed for debarment, declared ineligible, or voluntarily excluded from covered transactions by any Federal Department or agency? Yes Certification Regarding Lobbying This certification is required for an award of a Federal contract, grant or cooperative agreement exceeding $100,000 and for an award of a Federal loan or a commitment providing for the United States to insure or guarantee a loan exceeding $150,000. Certification for Contracts, Grants, Loans and Cooperative Agreements The undersigned certifies, to the best of his or her knowledge and belief, that: (1) No Federal appropriated funds have been paid or will be paid, by or on behalf of the undersigned, to any person for influencing or attempting to influence an officer or employee of any agency, a Member of Congress, an officer or employee of Congress, or an employee of a Member of Congress in connection with the awarding of any federal contract, the making of any Federal grant, the making of any Federal loan, the entering into of any cooperative agreement, and the extension, continuation, renewal, amendment, or modification of any Federal contract, grant, loan, or cooperative agreement. (2) If any funds other than Federal appropriated funds have been paid or will be paid to any person for influencing or attempting to influence an officer or employee of any agency, a Member of Congress, and officer or employee of Congress, or an employee of a Member of Congress in connection with this Federal contract, grant, loan, or cooperative agreement, the undersigned shall complete and submit Standard Form LLL, “Disclosure of Lobbying Activities,” in accordance with its instructions. (3) The undersigned shall require that the language of this certification be included in the award documents for all subawards at all tiers including subcontracts, subgrants, and contracts under grants, loans, and cooperative agreements and that all subrecipients shall certify and disclose accordingly. This certification is a material representation of fact upon which reliance was placed when this transaction was made or entered into. Submission of this certification is a prerequisite for making or entering into this transaction imposed by Section 1352, Title 31, U.S. Code. Any person who fails to file the required certification shall be subject to a civil penalty of not less than $10,000 and not more than $100,000 for each such failure. AUTHORIZED ORGANIZATIONAL REPRESENTATIVE SIGNATURE DATE NAME/TITLE (TYPED) Jordan Smith 17/2/07 TELEPHONE NUMBER ELECTRONIC MAIL ADDRESS 727.687.6334 [email protected] FAX NUMBER *SUBMISSION OF SOCIAL SECURITY NUMBERS IS VOLUNTARY AND WILL NOT AFFECT THE ORGANIZATION’S ELIGIBILITY FOR AN AWARD. HOWEVER, THEY ARE AN INTEGRAL PART OF THE NSF INFORMATION SYSTEM AND ASSIST IN PROCESSING THE PROPOSAL. SSN SOLICITED UNDER NSF ACT OF 1950, AS AMENDED. Page 2 of 2 Project Summary. This project will contribute to a fundamental understanding of cooperative breeding. It entails long-term social and genetic characterization of Brown-headed Nuthatch (Sitta pusilla) breeding behavior in two populations along the Florida-Georgia border. Unlike previous studies, this project will allow for comparison of breeding system dynamics between populations while controlling for geographic and genetic variation. Studies which contribute to an understanding of the breadth of both intra and interspecific variation among cooperative breeders, such as this, are instrumental for resolution of broad evolutionary patterns in this rare breeding system. In addition, this project addresses a specific question in a basic aspect of cooperative breeding, delayed dispersal. Delayed dispersal is considered a precondition for helping by establishing group living however, this aspect of cooperative breeding remains controversial. This project will directly test the ecological constraints hypothesis to provide insight into factors promoting delayed dispersal. Uncovering the evolutionary origin of cooperative breeding will provide further insight into the paradox of helping behavior. A broader impact of this study is aimed at community outreach in a child friendly format. The project will be featured on the Tall Timbers Research Station webpage, a collaborating institution in the study. The website will feature project progress including field and lab notes, photographs, and general life history of the Brown-head Nuthatch. Also, the project will be represented in the annual open-house for the field station for the duration of project. The ultimate goal is to: 1) inform the public of the scientific process and 2) stimulate interest in science and environmental awareness. The Brown-headed Nuthatch is a threaten species and its conservation status will be featured to stimulate interest from the public. This study will also impact the young members of the scientific community through undergraduate mentoring. Characterization of the breeding system will require intense field work such as nest searching and mist-netting, and intense lab work such as DNA extractions and PCR. Both of these stages of research require assistance from multiple undergraduate researchers. Dedicated students will have the opportunity to conduct independent projects and will be expected to participate in an undergraduate research symposium providing either a poster or oral presentation. TABLE OF CONTENTS For font-size and page-formatting specifications, see GPG Section II.C. Total No. of Pages in Section Section Page No.* (Optional)* Cover Sheet (NSF Form 1207) (Submit Page 2 with original proposal only) A Project Summary (not to exceed 1 page) 1 B Table of Contents (NSF Form 1359) 1 C Project Description (including Results from Prior NSF Support) (not to exceed 15 pages) (Exceed only if allowed by a specific program announcement/solicitation or if approved in advance by the appropriate NSF Assistant Director or designee) 6 D References Cited 2 E Biographical Sketches (Not to exceed 2 pages each) 1 F Budget (NSF Form 1030, plus up to 3 pages of budget justification) 5 G Current and Pending Support (NSF Form 1239) 1 H Facilities, Equipment and Other Resources (NSF Form 1363) 1 I Special Information/Supplementary Documentation J Appendix (List below) Include only if allowed by a specific program announcement/ solicitation or if approved in advance by the appropriate NSF Assistant Director or designee) Appendix Items: *Proposers may select any numbering mechanism for the proposal. The entire proposal, however, must be paginated. Complete both columns only if the proposal is numbered consecutively. NSF Form 1359 (10/99) 46 Characterization and manipulation of cooperative breeding in the Brown-headed Nuthatch Jordan Smith Background. Cooperative breeding (CB) is rare in birds and is found in only three percent of the world’s avifauna1. It is most frequently observed in kin groups when offspring remain on the natal territory and assist with nestling care1,2. This helping behavior at the nest is an evolutionary paradox that has fascinated scientists for decades2. Why do individuals remain on home territory and forgo personal reproduction thereby decreasing their fitness 2 (see 1 for a full review)? Theory on the evolutionary origin and maintenance of this peculiar breeding system is centered on kin-based cooperative breeders. There are two aspects of CB which are traditionally considered important to a fundamental understanding of the breeding system: delayed dispersal and helping1,2, 3,4. Delayed dispersal is important because it is regarded as a precondition to helping by establishing group living at the natal territory3,4,5,6. In a stepwise process, helping behavior is motivated by incest avoidance and kin selection once group living is established1. However, recent studies have revealed a large variation in helping behavior which conflicts with our fundamental understanding of this breeding system. For instance, recent molecular studies on the western bluebird revealed that this species tolerates non-kin help. Not only does this bird disperse from the natal territory, but it is also inclined to help at the nest by a factor other then kin-selection. As these divergent cooperative breeders increase in prominence, it raises doubt as to whether the initial assumptions in the fundamental theory of CB are properly founded. The purpose of this study is to reevaluate these fundamental assumptions in a traditional kin-based species, the Brown-headed Nuthatch. The primary objective of this study is thorough social and genetic characterization of a traditional cooperative breeder to evaluate assumptions in helping behavior. The second objective of the study is to manipulate dispersal behavior and evaluate the effects on CB frequency. The Study System. The Brown-headed Nuthatch (BHNU) provides an ideal study system to investigate cooperative breeding. They are small, ten-gram cavity-nesting birds found in mature pine forests of the Southeastern US and Bahamas12. Small territory sizes (~200m)12 make them particularly easy to study. Characterization of cooperative breeding systems requires thorough knowledge of family groups, and in the field this requires extensive nest searching and monitoring. High population densities in small areas are therefore advantageous; not only is there a manageable area for fieldwork but still a useful sample size. Many of the most well studied North American cooperative breeders such as the Red-cockaded Woodpecker 13 and the Acorn Woodpecker 14 have considerably larger territories, generally at least ten times the size of those of BHNU. The cooperative breeding behavior of BHNU has only been preliminarily evaluated. The majority of work has been social characterization via field observations concentrated on a north Florida population at Tall Timbers Research Station (TTRS; 30.66 N, 84.22 W). Based on limited field data, the species appears to be a kin-based helping system with 30% of the family groups cooperating12,16. Males remain on the natal territory as expected in a traditional system and are active in nesting care by provisioning nestlings with food (although other duties are suspected)12,16. Understanding social helper duties is important for evaluating the cost and benefits influencing helping behavior; however, social characterization may not reflect the underlying genetic motivations of CB. Much of the controversy about the fundamental concepts of CB stems from recent molecular studies that are beginning to uncover sneaky helping behavior. Of most importance is revealing helper reproductive contributions that may be hard to detect socially. In particular, BHNU have some odd behavior that may result in discordant genetic and social characterization. A high frequency of incest has been reported in the TTRS population12,16 (although it has not been confirmed genetically) and contradicts a primary assumption that kin-based helpers are nonbreeding1. Additional data needs to be collected on paternity to reveal the possibility of helper contributions to extra-pair fertilization and effective population size. Genetic assessment of helper reproductive contributions will be essential for reevaluating theory on CB behavior. For this particular study two populations along the Florida-Georgia border will be investigated. One is the TTRS population and the second is the Wade Track population (WT; 30.45 N, 84.00 W) that has not been monitored previously. These populations were selected because: 1) they control for interspecific life-history characteristics such as a long life expectancy and limited dispersal capabilities thought to encourage CB; and 2) they are in close proximity to each other which controls for geographic and genetic variation. Previous multi-population studies do not control for these factors making it difficult to draw strong comparative conclucsions2,6,7. Understanding intraspecific variation is critical for resolving broad evolutionary patterns. In addition, preliminary research has identified a possible mechanism for delayed dispersal at TTRS. In this population, predation at the nest during incubation and brooding is creating a male biased adult sex skew resulting from lower female survival. This shortage of females limits breeding opportunities and may be constraining the population such that group living is established. Therefore, mate availability, an ecological constraint, is the proposed mechanism for delayed dispersal. Interestingly, preliminary genetic data suggest that there may be a sex skew in offspring production such that more females are produced then males. There are three main hypotheses which account for mechanisms delaying dispersal. The predominant explanation is the ecological constraint hypothesis proposed by Emlen in 19828, that suggests ecological factors such as mate shortage, habitat saturation, or unstable environments restrict breeding opportunities and lead to delayed dispersal. This hypothesis is controversial because it neglects to address how species under similar ecological constraints can be noncooperators. The broad constraints hypothesis, summarized by Hatchwell9, integrates the ecological constraint and a life-history hypothesis summarized by Russell 198910. It suggests that in addition to ecological constraints, factors such as long life expectancy and restricted dispersal capabilities result in delayed dispersal. It is important to note that not all cooperative breeders exhibit these characters4. A final hypothesis, the benefits-of-philopatry, incorporates assessment of the costs and benefits of staying at home rather then just evaluating the cost of leaving in dispersal decisions11. This study will directly test the ecological constraints hypothesis. Project Description. Objective One: Characterization of the Brown-headed Nuthatch breeding system Social and genetic characterization of both populations Field Methods: Nest searching is required to associate adults with particular nest sites and to determine the breeding status (helper, breeder, nonbreeder). Nests will be monitored to document social helper duties at the nest and to establish territory size and quality. Adult birds will be mist-netted prior to the breeding season as well as target netted at nest sites during active nesting. All captured adults will be fitted with leg bands for identification, standard morphological characters will be measured, and either feather or blood samples (depending on the condition and age of the bird) will be taken for DNA extraction. Nestlings will be sampled for DNA (blood or feather) as soon as possible and fitted with an aluminum ID band. Molecular Methods: All molecular procedures will be conducted in Dr. Rebecca Kimball’s lab at the University of Florida. To start, genomic DNA will be extracted from all field samples using the PUREGENE® DNA Purification Kit. Fifteen microsatellite markers will be PCR amplified from each individual bird. Haas et al. (in review)16 developed five markers and ten are currently under optimization. Genotyping of the amplified loci will be conducted on an ABI PrismTM 3100-Avant genetic analyzer. The resulting allelic data will be analyzed in the program GeneMarker® v.1.5. The program GenePat v4.1 will be used to assess paternity, the central component of the genetic characterization. Subsequent analyses to estimate the frequency of inbreeding, frequency of extra-pair fertilization, dispersal distance, effective population size, and sex skews will be analyzed according to the methods of Seddon et al 18. The sex of each individual is determined using the molecular sexing method described by Fridolfsson and Ellegren19. This study will be done in collaboration with James Cox, research biologist at TTRS. He has provided DNA samples from the 2006 and 2007 breeding season which are currently being analyzed in the Kimball lab12. Four undergraduate researchers have been involved in sex identification and assistance with microsatellite optimization. Haas et al. (in review) 16 collected preliminary data on the genetic structure of the TTRS population. To test the assumption that this study controls for large genetic differences between the two populations, the degree of gene flow between TTRS and the WT will be assessed as in Hass et al16. Earlier study of gene flow between TTRS and the Pebble Hill population16 suggests that genetic differences between the TTRS and the WT will be minor. Objective 2: Manipulation of dispersal behavior The goal of this manipulation is to directly test the ecological constraints hypothesis for delayed dispersal and to evaluate the subsequent effects of this manipulation on the frequency of CB. Experimental design at TTRS: The ecological constraint of this population is sex skew favoring males;12 therefore, males will be removed from pair bonds. The number of males removed will depend on the frequency of cooperative breeders but should provide the opportunity for all helpers to disperse. Removals will be controlled for territory quality and proximity to cooperative groups taking into consideration average male dispersal distance. Also removals will be conducted as soon as possible following pair formation to control for nest site availability. It is important to control for both territory quality and nest site availability because these have been identified as potential ecological constraints among other cooperative breeders. The methodology for removals will be similar to that of Pruett-Jones and Lewis20, a study on superb fairy-wrens. Translocated males will be held for three weeks in aviaries at the University of Florida before release into a neighboring population. This should maximize the time for helpers to fill territory vacancies while minimizing the effects of captivity on translocated males. There is a possibility that the translocated males will return to their original territories upon release from captivity however, this will not affect the initial measure on dispersal behavior. In the fairy-wren study, vacancies were filled within a day or two of the initial removals20. Female condition will not be affected by male removals. The results of this manipulation will be statistically analyzed by a t-test or an ANCOVA analysis Predictions: 1) If fewer cooperative groups are found as expected from a release on dispersal restrictions, this study provides support that dispersal behavior does influence CB. Furthermore, it provides strong support that ecological constraints drive delayed dispersal. Although this study does not directly test the broad constraints hypothesis, it cannot be ruled out based on this result. In further experiments, it will be important to evaluate this hypothesis in BHNU populations influenced by an ecological constraint other then sex skew. 2) If no change or an increase in the number of cooperators are found and therefore no change or an increase in the frequency of delayed dispersal is observed then, this study provides strong evidence against the influence of ecological factors on delayed dispersal. Some other non-ecological factor may be influencing delayed dispersal but the effects of delayed dispersal on CB behavior remain unresolved. Estimated Timeline: Preliminary Data: Genetic characterization of TTRS- 2006/2007/2008 Year one: Complete collection at TTRS and begin WT collection Year two: Manipulation at TTRS, continue collection at WT Year three: Post hoc collection at TTRS, final collection at WT Conclusion. This project will contribute to a fundamental understanding of CB in several ways. First, manipulation of delayed dispersal and examination of the effects on CB levels directly test assumptions of the evolutionary influence of delayed dispersal on CB behavior. Second, a thorough social and genetic characterization of the kin-based cooperative breeder BHNU, allows reevaluation of assumptions regarding the evolutionary origin and maintenance of helping behavior in this species. Also, comparisons between the two populations provide initial estimates of intraspecific variation that are essential for isolating broader evolutionary patterns. Understanding the evolutionary context of cooperative breeding is important because helping behavior contradicts current evolutionary theory in which organisms intrinsically behave as to increase their personal fitness. Additional Significance. Many cooperative breeders are characterized by limited dispersal capabilities and habitat specialization12,16,21 and both qualities exaggerate sensitivity to habitat destruction21. If a general mechanism for delayed dispersal is identified, it could potentially lend contributions to management across a wide variety of cooperative breeders. Specifically, if dispersal can be increased, effective population size can be increased as well. In addition, this study has important conservation implications for the Brown-headed Nuthatch. This species is experiencing range contraction and steady population declines throughout its natural habitat12,16. In fact, a small Bahamian population is nearly extinct12. Data from this project is intended for application towards informed conservation strategies. Beside the identification of dispersal mechanisms, breeding characteristics such as average dispersal distance, territory size, and the frequency of inbreeding and extra-pair fertilization can be utilized in management schemes of north Florida and south Georgia populations and at minimum can serve as a reference for management of populations over the entire range. Also, the microsatellite markers developed for this project are applicable in the study of any Brown-headed Nuthatch population (possibly close relatives too) and will be accessible in GenBank. Aside from the obvious conservation importance, as stated previously, this study species is uniquely conducive to controlled yet natural experiments and should be encouraged for further study both manipulative and comparative in manner. Broader Impacts. This study involves intensive field and laboratory work and requires the assistance of multiple undergraduate researchers. Technicians will learn field skills such as nest searching, mist-netting, and bird handling. In the lab, technicians will assist with all stages of genotyping such as DNA extractions, PCR, and subsequent analyses. Dedicated technicians will be encouraged to assist with publications and poster presentations. As mentioned earlier, four undergraduates are already involved in the project and have performed all sex determining PCR analyses and have assisted with microsatellite primer optimization. In addition to providing mentoring to young scientist, this project also provides opportunity for outreach to the general public. TTRS has an annual open-house aimed to stimulate interest in science and environmental awareness. This is a perfect opportunity to engage the public about my specific research and will also provide a glimpse into the scientific process as they can monitor the progress of the project year to year, starting with the project design through the final analyses. The target audience of my presentation will be children and teenagers who usually have minor, if any involvement in the scientific community. Also, a webpage detailing project progress and notes will be linked to the TTRS website which can reach beyond just the local community. This webpage will hopefully foster communication and data sharing between other nuthatch studies and even among other cooperative breeding studies as well. Finally, this project will facilitate interactions between the University of Florida and Tall Timbers Research Station. TTRS has a rich history of fire ecology, game management, and forestry research and manages over 100,000 acres of land. This institution may prove a valuable resource to the university as a potential field station and data supply. Literature Cited 1. Dickinson JL and Hatchwell BJ (2004) Fitness consequences of helping. In Koenig WD, Dickinson JL [eds.], Ecology and evolution of cooperative breeding birds. Cambridge University Press. 2. Hatchwell BJ (2007) Avian Reproduction: Role of Ecology in the Evolution of Cooperative Breeding. Current Biology, 17 (19): 845-847 3.Ligon JD and Burt DB (2004) Evolutionary Origins. In Koenig WD, Dickinson JL [eds.], Ecology and evolution of cooperative breeding birds. Cambridge University Press. 4. Ekman J, Hatchwell BJ, Dickinson JL, Griesser M (2004) Delayed Dispersal. In Koenig WD, Dickinson JL [eds.], Ecology and evolution of cooperative breeding birds. Cambridge University Press. 5. Koenig WD, Pitelka FA, Carmne WJ, Mumme RL, Stanback MT (1992) The Evolution of Delayed Dispersal in Cooperative Breeders. The Quarterly Review of Biology. 67 (2): 111-150. 6. Baglione, V, Marcos JM, Canesrari D, Griesser M, Andreotti G, Bardini C, and Boglani G (2005) Does year-round territoriality rather then habitat saturation explain delayed natal dispersal and cooperative breeding in the carrion crow? Journal of Animal Ecology 75: 842-851 7. Doerr ED and Doerr VJ (2006) Compartive demography of treecreepers: evaluating hypotheses for the evolution and maintenance of cooperative breeding. Animal Behavior 72: 147-159 8. Emlen ST (1982) The evolution of helping. I. An ecological constraints model. American Naturalist, 119; 29-39. 9. Russell EM (1989) Cooperative breeding: a Gondwanan perspective. Emu, 89: 61-62. 10. Hatchwell BJ, Komdeur J (2000) Ecological constraints, life history traits and the evolution of cooperative breeding. Animal Behaviour, 59:1079-1086. 11. Stacey PB, Ligon JD (1991) The benefits-of-philopatry hypothesis for the evolution of cooperative breeding: variation in territory quality and group size effects. American Naturalist, 137, 831-846. 12. Cox JA, Slater GL (2007) Cooperative breeding in the Brown-headed Nuthatch. The Wilson Journal of Ornithology, 119:1-8. 13.Walters JR, Copeyon CK, and Carter JH (1992) Test of the ecological basis of cooperative breeding in red-cockaded woodpeckers. Auk, 109, 90–97. 14. MacRoberts MH and MacRoberts BR (1976) Social organization and behavior of the acorn woodpecker in central coastal California. Ornithological Monographs,21 15. Komdeur J (1992) Importance of habitat saturation and territory quality for evolution of cooperative breeding in Seychelles warbler. Nature, 358: 493–495. 16. Haas SE, Cox JA, Kimball RT, and Smith JV. Spatial genetic structure in the cooperative-breeding Brown-headed Nuthatch (Sitta pusilla). In review 17. West DC, Doyle TW, Tharp ML, Beauchamp JJ, Platt WJ, and Downing, DJ (1993) Recent growth increases in old-growth longleaf pine. Canadian Journal of Forest Research 23: 846-853. 18. Seddon N, Amos W, Adcock G, Johnson K, Krasijeveld F, Kraddijeveld-Smit JL, Senapathi GD, Mulder RA, Tobias JA (2005) Mating system, philopatry, and patterns of kinship in the cooperatively breeding subdesert mesit Monias benschi. Molecular Ecology, 14:11 3573-3583 19. Fridolfsson AK, Ellegren H (1999) A simple and universal method for molecularsexing of non-ratite birds. Journal of Avian Biology, 30, 116-121. 20. Pruett-Jones SG and Lewis MJ (1990) Sex ratio and habitat limitation promote delayed dispersal in superb fairy-wrens. Nature, 348: 541-542 21. Walters JR, Cooper CB, Daniels SJ, Pasinelli G, Schiegg K(1994) Conservation Biology. In Koenig WD, Dickinson JL [eds.], Ecology and evolution of cooperative breeding birds. Cambridge University Press. Biographical Sketch. Jordan Victoria Smith Educational background University of Florida University of Florida Zoology/Microbiology Zoology B.S., 2006 Master’s degree, in progress Appointments 2004-08: Molecular Lab Technician, Dr. Kimball and Dr.. Braun, Univ of Florida Spring 2008: Teaching Assistant, General Biology Laboratory One, Univ of Florida Fall 2007: Teaching Assistant, General Biology Laboratory One, Univ of Florida Spring 2007: Teaching Assistant, General Biology Laboratory One, Univ of Florida Summer 2007: Avian Field Technician (Venezuela), Dr. Thomas Martin Univ of Montana Winter 2006: Avian Surveyor (St. John U.S.V.I.) Dr. David Steadmen, Univ of Florida Fall 2006: Avian Surveyor (Elgin Air Force Base) Dr. Richard Fischer, US Army, ERDC Summer 2006: Avian Surveyor (AZ, NM U.S.A) Univ of North Carolina, Chapel Hill Summer 2005: Avian Field Technician (AZ U.S.A) Dr. Thomas Martin, Univ of Montana Summer 2004: Avian Field Technician (AZ U.S.A) Dr. Thomas Martin, Univ of Montana Synergistic Activities (i) Undergraduate Mentor: Working in the Kimball and Braun lab involves extensive interaction will undergraduates. Interactions include teaching of molecular protocols and procedures and assistance with skill development in touchy lab techniques. (ii) Citizen Scientist Outreach: While working on a project in Venezuela, I participated in community outreach by encouraging local college students to visit our study site in Yacambu to learn about science and field biology in particular. In addition, I was involved in teaching mistnetting technique and bird identification to a local birding club. Also, children often visited the park on school field trips and the field crew was involved in short introductions to who scientist are, and what a scientist does as part of the curriculum of their visit. (iii) National Audubon’s Society: I am a volunteer participant in seasonal bird counts Collaborators James Cox, Tall Timbers Research Station Sarah Haas, University of Florida Master’s Advisor Edward Braun, University of Florida FOR NSF USE ONLY 5 4 SUMMARY PROPOSAL BUDGET ORGANIZATION University of Florida PROPOSAL NO. DURATION (MONTHS) (Year 1) Proposed PRINCIPAL INVESTIGATOR/PROJECT DIRECTOR Granted AWARD NO. Rebecca Kimball A. SENIOR PERSONNEL: PI/PD, Co-PIs, Faculty and Other Senior Associates NSF-Funded List each separately with name and title. (A.7. Show number in brackets) 1. 2. 3. Person-months CAL ACAD SUMR Jordan Smith James Cox Funds Funds Requested By Granted by NSF Proposer (If Different) $ $ $ $ 4. 5. 6. ( ) OTHERS (LIST INDIVIDUALLY ON BUDGET EXPLANATION PAGE) 7. ( 3 ) TOTAL SENIOR PERSONNEL (1-6) B. OTHER PERSONNEL (SHOW NUMBERS IN BRACKETS) 1. ( ) POSTDOCTORAL ASSOCIATES 2. ( ) OTHER PROFESSIONALS (TECHNICIAN, PROGRAMMER, ETC.) 3. ( ) GRADUATE STUDENTS 4. ( 4 ) UNDERGRADUATE STUDENTS 5. ( ) SECRETARIAL - CLERICAL (IF CHARGED DIRECTLY) 6. ( ) OTHER TOTAL SALARIES AND WAGES (A + B) C. FRINGE BENEFITS (IF CHARGED AS DIRECT COSTS) TOTAL SALARIES, WAGES AND FRINGE BENEFITS (A + B + C) D. EQUIPMENT (LIST ITEM AND DOLLAR AMOUNT FOR EACH ITEM EXCEEDING $5,000.) TOTAL EQUIPMENT $ 5190 E. TRAVEL 1. DOMESTIC (INCL. CANADA, MEXICO AND U.S. POSSESSIONS) 2. FOREIGN F. PARTICIPANT SUPPORT 1. STIPENDS $ 2. TRAVEL 3. SUBSISTENCE 4. OTHER TOTAL NUMBER OF PARTICIPANTS ( ) COSTS G. OTHER DIRECT COSTS $ 10,600 1. MATERIALS AND SUPPLIES 2. PUBLICATION/DOCUMENTATION/DISSEMINATION 3. CONSULTANT SERVICES 4. COMPUTER SERVICES 5. SUBAWARDS TOTAL PARTICIPANT 6. OTHER TOTAL OTHER DIRECT COSTS H. TOTAL DIRECT COSTS (A THROUGH G) $15,790 I. INDIRECT COSTS (F&A) (SPECIFY RATE AND BASE) TOTAL INDIRECT COSTS (F&A) J. TOTAL DIRECT AND INDIRECT COSTS (H + I) $15,790 K. RESIDUAL FUNDS (IF FOR FURTHER SUPPORT OF CURRENT PROJECT SEE GPG II.D.7.j.) L. AMOUNT OF THIS REQUEST (J) OR (J MINUS K) M. COST SHARING: PROPOSED LEVEL $ PI/PD TYPED NAME AND SIGNATURE* AGREED LEVEL IF DIFFERENT: $ DATE FOR NSF USE ONLY ORG. REP. TYPED NAME & SIGNATURE* DATE NSF Form 1030 (10/99) Supersedes All Previous Editions *SIGNATURES REQUIRED ONLY FOR REVISED BUDGET (GPG III.C) INDIRECT COST RATE VERIFICATION Date Checked Date of Rate Sheet Initials-ORG FOR NSF USE ONLY 5 4 SUMMARY PROPOSAL BUDGET ORGANIZATION University of Florida PROPOSAL NO. DURATION (MONTHS) (Year 2) Proposed PRINCIPAL INVESTIGATOR/PROJECT DIRECTOR Granted AWARD NO. Rebecca Kimball A. SENIOR PERSONNEL: PI/PD, Co-PIs, Faculty and Other Senior Associates NSF-Funded List each separately with name and title. (A.7. Show number in brackets) 1. 2. 3. Person-months CAL ACAD SUMR Jordan Smith James Cox Funds Funds Requested By Granted by NSF Proposer (If Different) $ $ $ $ 4. 5. 6. ( ) OTHERS (LIST INDIVIDUALLY ON BUDGET EXPLANATION PAGE) 7. ( 3 ) TOTAL SENIOR PERSONNEL (1-6) B. OTHER PERSONNEL (SHOW NUMBERS IN BRACKETS) 1. ( ) POSTDOCTORAL ASSOCIATES 2. ( ) OTHER PROFESSIONALS (TECHNICIAN, PROGRAMMER, ETC.) 3. ( ) GRADUATE STUDENTS 4. ( 4 ) UNDERGRADUATE STUDENTS 5. ( ) SECRETARIAL - CLERICAL (IF CHARGED DIRECTLY) 6. ( ) OTHER TOTAL SALARIES AND WAGES (A + B) C. FRINGE BENEFITS (IF CHARGED AS DIRECT COSTS) TOTAL SALARIES, WAGES AND FRINGE BENEFITS (A + B + C) D. EQUIPMENT (LIST ITEM AND DOLLAR AMOUNT FOR EACH ITEM EXCEEDING $5,000.) TOTAL EQUIPMENT E. TRAVEL 1. DOMESTIC (INCL. CANADA, MEXICO AND U.S. POSSESSIONS) 2. FOREIGN F. PARTICIPANT SUPPORT 1. STIPENDS $ 2. TRAVEL 3. SUBSISTENCE 4. OTHER TOTAL NUMBER OF PARTICIPANTS ( ) COSTS G. OTHER DIRECT COSTS $ 6590 1. MATERIALS AND SUPPLIES 2. PUBLICATION/DOCUMENTATION/DISSEMINATION 3. CONSULTANT SERVICES 4. COMPUTER SERVICES 5. SUBAWARDS TOTAL PARTICIPANT 6. OTHER TOTAL OTHER DIRECT COSTS H. TOTAL DIRECT COSTS (A THROUGH G) $6590 I. INDIRECT COSTS (F&A) (SPECIFY RATE AND BASE) TOTAL INDIRECT COSTS (F&A) J. TOTAL DIRECT AND INDIRECT COSTS (H + I) $6590 K. RESIDUAL FUNDS (IF FOR FURTHER SUPPORT OF CURRENT PROJECT SEE GPG II.D.7.j.) L. AMOUNT OF THIS REQUEST (J) OR (J MINUS K) M. COST SHARING: PROPOSED LEVEL $ PI/PD TYPED NAME AND SIGNATURE* AGREED LEVEL IF DIFFERENT: $ DATE FOR NSF USE ONLY ORG. REP. TYPED NAME & SIGNATURE* DATE NSF Form 1030 (10/99) Supersedes All Previous Editions *SIGNATURES REQUIRED ONLY FOR REVISED BUDGET (GPG III.C) INDIRECT COST RATE VERIFICATION Date Checked Date of Rate Sheet Initials-ORG FOR NSF USE ONLY 5 4 SUMMARY PROPOSAL BUDGET ORGANIZATION University of Florida PROPOSAL NO. DURATION (MONTHS) (Year 3) Proposed PRINCIPAL INVESTIGATOR/PROJECT DIRECTOR Granted AWARD NO. Rebecca Kimball A. SENIOR PERSONNEL: PI/PD, Co-PIs, Faculty and Other Senior Associates NSF-Funded List each separately with name and title. (A.7. Show number in brackets) 1. Person-months CAL ACAD SUMR Jordan Smith 2. James 3. Funds Funds Requested By Granted by NSF Proposer (If Different) $ $ $ $ Cox 4. 5. 6. ( ) OTHERS (LIST INDIVIDUALLY ON BUDGET EXPLANATION PAGE) 7. ( 3 ) TOTAL SENIOR PERSONNEL (1-6) B. OTHER PERSONNEL (SHOW NUMBERS IN BRACKETS) 1. ( ) POSTDOCTORAL ASSOCIATES 2. ( ) OTHER PROFESSIONALS (TECHNICIAN, PROGRAMMER, ETC.) 3. ( ) GRADUATE STUDENTS 4. ( 4 ) UNDERGRADUATE STUDENTS 5. ( ) SECRETARIAL - CLERICAL (IF CHARGED DIRECTLY) 6. ( ) OTHER TOTAL SALARIES AND WAGES (A + B) C. FRINGE BENEFITS (IF CHARGED AS DIRECT COSTS) TOTAL SALARIES, WAGES AND FRINGE BENEFITS (A + B + C) D. EQUIPMENT (LIST ITEM AND DOLLAR AMOUNT FOR EACH ITEM EXCEEDING $5,000.) TOTAL EQUIPMENT E. TRAVEL 1. DOMESTIC (INCL. CANADA, MEXICO AND U.S. POSSESSIONS) 2. FOREIGN F. PARTICIPANT SUPPORT 1. STIPENDS $ 2. TRAVEL 3. SUBSISTENCE 4. OTHER TOTAL NUMBER OF PARTICIPANTS ( ) COSTS G. OTHER DIRECT COSTS $ 6590 1. MATERIALS AND SUPPLIES 2. PUBLICATION/DOCUMENTATION/DISSEMINATION 3. CONSULTANT SERVICES 4. COMPUTER SERVICES 5. SUBAWARDS TOTAL PARTICIPANT 6. OTHER TOTAL OTHER DIRECT COSTS H. TOTAL DIRECT COSTS (A THROUGH G) $6590 I. INDIRECT COSTS (F&A) (SPECIFY RATE AND BASE) TOTAL INDIRECT COSTS (F&A) J. TOTAL DIRECT AND INDIRECT COSTS (H + I) $6590 K. RESIDUAL FUNDS (IF FOR FURTHER SUPPORT OF CURRENT PROJECT SEE GPG II.D.7.j.) L. AMOUNT OF THIS REQUEST (J) OR (J MINUS K) M. COST SHARING: PROPOSED LEVEL $ PI/PD TYPED NAME AND SIGNATURE* AGREED LEVEL IF DIFFERENT: $ DATE FOR NSF USE ONLY ORG. REP. TYPED NAME & SIGNATURE* DATE NSF Form 1030 (10/99) Supersedes All Previous Editions *SIGNATURES REQUIRED ONLY FOR REVISED BUDGET (GPG III.C) INDIRECT COST RATE VERIFICATION Date Checked Date of Rate Sheet Initials-ORG FOR NSF USE ONLY 5 4 SUMMARY PROPOSAL BUDGET ORGANIZATION University of Florida PROPOSAL NO. DURATION (MONTHS) (Total for 3 Years) Proposed PRINCIPAL INVESTIGATOR/PROJECT DIRECTOR Granted AWARD NO. Rebecca Kimball A. SENIOR PERSONNEL: PI/PD, Co-PIs, Faculty and Other Senior Associates NSF-Funded List each separately with name and title. (A.7. Show number in brackets) Person-months CAL ACAD SUMR 1. Jordan Smith 2. 3. Funds Funds Requested By Granted by NSF Proposer (If Different) $ $ $ $ James Cox 4. 5. 6. ( ) OTHERS (LIST INDIVIDUALLY ON BUDGET EXPLANATION PAGE) 7. ( 3 ) TOTAL SENIOR PERSONNEL (1-6) B. OTHER PERSONNEL (SHOW NUMBERS IN BRACKETS) 1. ( ) POSTDOCTORAL ASSOCIATES 2. ( ) OTHER PROFESSIONALS (TECHNICIAN, PROGRAMMER, ETC.) 3. ( ) GRADUATE STUDENTS 4. ( 4 ) UNDERGRADUATE STUDENTS 5. ( ) SECRETARIAL - CLERICAL (IF CHARGED DIRECTLY) 6. ( ) OTHER TOTAL SALARIES AND WAGES (A + B) C. FRINGE BENEFITS (IF CHARGED AS DIRECT COSTS) TOTAL SALARIES, WAGES AND FRINGE BENEFITS (A + B + C) D. EQUIPMENT (LIST ITEM AND DOLLAR AMOUNT FOR EACH ITEM EXCEEDING $5,000.) TOTAL EQUIPMENT $5190 E. TRAVEL 1. DOMESTIC (INCL. CANADA, MEXICO AND U.S. POSSESSIONS) 2. FOREIGN F. PARTICIPANT SUPPORT 1. STIPENDS $ 2. TRAVEL 3. SUBSISTENCE 4. OTHER TOTAL NUMBER OF PARTICIPANTS ( ) COSTS G. OTHER DIRECT COSTS $23,780 1. MATERIALS AND SUPPLIES 2. PUBLICATION/DOCUMENTATION/DISSEMINATION 3. CONSULTANT SERVICES 4. COMPUTER SERVICES 5. SUBAWARDS TOTAL PARTICIPANT 6. OTHER TOTAL OTHER DIRECT COSTS H. TOTAL DIRECT COSTS (A THROUGH G) $23,780 I. INDIRECT COSTS (F&A) (SPECIFY RATE AND BASE) TOTAL INDIRECT COSTS (F&A) J. TOTAL DIRECT AND INDIRECT COSTS (H + I) $28,970 K. RESIDUAL FUNDS (IF FOR FURTHER SUPPORT OF CURRENT PROJECT SEE GPG II.D.7.j.) L. AMOUNT OF THIS REQUEST (J) OR (J MINUS K) M. COST SHARING: PROPOSED LEVEL $ PI/PD TYPED NAME AND SIGNATURE* AGREED LEVEL IF DIFFERENT: $ DATE FOR NSF USE ONLY ORG. REP. TYPED NAME & SIGNATURE* DATE NSF Form 1030 (10/99) Supersedes All Previous Editions *SIGNATURES REQUIRED ONLY FOR REVISED BUDGET (GPG III.C) INDIRECT COST RATE VERIFICATION Date Checked Date of Rate Sheet Initials-ORG Budget Justification. Funding is estimated on calculations to sample forty territories at each field site. The number of adults to sustain forty active territories should flucuate around 100 (including helpers), and the average clutch size is 4.5 individuals with a maximum nestling number of 200. Genotyping cost: $16. 00 per individual -PCR cost: $1.00 per individual (Includes reagents, fluorescently labeled microsatellite primers, sexing primers, and gel electrophoresis) -Genotyping: $15.00 per individual (Includes cost for all fifteen microsatellites) Year 1 Single Cost Items 3-banding pliers ($20): Capillary tubes, coolers with ice packs: Two portable CD players with speakers: 3-Digital caliper ($140 ): 3- Digital and spring scales ($150): Mist-nets, poles, pole adaptors, rope: Aviary cost (food, individual cages, cleaning) PUREGENE® DNA Purification Kit ($500/250 samples): Sampling Cost Blood buffer: Color bands (0.25 each): Genotyping of remaining 2006, 2007, 2008 individuals: Genotyping 2009 TTRS: Genotyping 2009 WT: Total Year One: Year 2 Cost Blood buffer: Color bands (0.25 each): Genotyping 2010 WT and TTRS: $60 $60 $100 $420 $450 $500 $600 $3000 $5,190 $50 $150 $2400 (150 individuals) $3200 (200 individuals) $4800 (300 individuals) $10,600 $15,790 $40 $150 $6400 (400 individuals) $6,590 Year 3 Cost Blood buffer: Color bands (0.25 each): Genotyping 2011 WT and TTRS: $40 $150 $6400 (400 individuals) $6,590 Three Year Total $28,970 Current and Pending Support (See GPG Section II.D.8 for guidance on information to include on this form.) The following information should be provided for each investigator and other senior personnel. Failure to provide this information may delay consideration of this proposal. Other agencies (including NSF) to which this proposal has been/will be submitted. Investigator: Support: Current Pending Submission Planned in Near Future *Transfer of Support Project/Proposal Title: NOTHING Source of Support: Total Award Amount: $ Total Award Period Covered: Location of Project: Person-Months Per Year Committed to the Project. Support: Current Pending Cal: Acad: Submission Planned in Near Future Sumr: *Transfer of Support Project/Proposal Title: Source of Support: Total Award Amount: $ Total Award Period Covered: Location of Project: Person-Months Per Year Committed to the Project. Support: Current Pending Cal: Acad: Submission Planned in Near Future Sumr: *Transfer of Support Project/Proposal Title: Source of Support: Total Award Amount: $ Total Award Period Covered: Location of Project: Person-Months Per Year Committed to the Project. Support: Current Pending Cal: Acad: Submission Planned in Near Future Sumr: *Transfer of Support Project/Proposal Title: Source of Support: Total Award Amount: $ Total Award Period Covered: Location of Project: Person-Months Per Year Committed to the Project. Support: Current Pending Cal: Acad: Submission Planned in Near Future Sumr: *Transfer of Support Project/Proposal Title: Source of Support: Total Award Amount: $ Total Award Period Covered: Location of Project: Person-Months Per Year Committed to the Project. Cal: Acad: Sumr: *If this project has previously been funded by another agency, please list and furnish information for immediately preceding funding period. NSF Form 1239 (10/99) 5 5 USE ADDITIONAL SHEETS AS NECESSARY FACILITIES, EQUIPMENT & OTHER RESOURCES FACILITIES: Identify the facilities to be used at each performance site listed and, as appropriate, indicate their capacities, pertinent capabilities, relative proximity, and extent of availability to the project. Use “Other” to describe the facilities at any other performance sites listed and at sites for field studies. Use additional pages if necessary. Laboratory: Kimball Braun Laboratory, Department of Zoology, University of Florida All molecular research will be conducted in this lab; it is fully equipped for ALL stages of genotyping including preparatory work such as DNA extractions through the final analyses. This lab is located in my home university and is support by two of my committee members. It is accessible as needed. Clinical: Animal: University of Florida Aviary: housing translocated birds Computer: Office: Other: Field Sites Tall Timbers Research Station :13093 Henry Beadel Drive Tallahassee, Fl 32312 Both sites are available as needed for sample collection, observation, and manipulation The sites are located approximately 165 miles Northwest of my home university MAJOR EQUIPMENT: List the most important items available for this project and, as appropriate, identify the location and pertinent capabilities of each. Thermocycler: necessary for PCR of microsatellite loci- Kimball Braun Laboratory ABI Prism TM 3100-Avant genetic analyzer: necessary for genotyping all individuals- Kimball Braun Laboratory GeneMarker V.1.5: necessary program for reading genotyping results- Kimball Braun Laboratory Mist-nets and poles: necessary for capture of birds- Kimball Braun Laboratory, Tall Timbers Research Station USGS/ color leg bands: critical for individual bird identification-Tall Timbers Research Station OTHER RESOURCES: Provide any information describing the other resources available for the project. Identify support services such as consultant, secretarial, machine shop, and electronics shop, and the extent to which they will be available for the project. Include an explanation of any consortium/contractual/subaward arrangements with other organizations. 5 6 NSF Form 1363 (10/99)
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