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豆类研究荧光文献集
1. 于海秋, 彭新湘, 严小龙, 曹敏建, 2006. 缺磷对不同磷效率基因型大豆光合日变化的影响. 沈阳农业大学
学报 36: 519-522.
2. Milivojevic DB, Nikolic BR, Drinic G, 2006. Effects of arsenic on phosphorus content in different
organs and chlorophyll fluorescence in primary leaves of soybean Biologia Plantarum 50:
149-151.
3. Lizana C, Wentworth M, Martinez JP, Villegas D, Meneses R, Murchie EH, Pastenes C, Lercari
B, Vernieri P, Horton P, Pinto M, 2006. Differential adaptation of two varieties of common bean
to abiotic stress: I. Effects of drought on yield and photosynthesis. Journal of Experimental
Botany 57: 685-697.
4. Borisjuk L, Nguyen TH, Neuberger T, Rutten T, Tschiersch H, Claus B, Feussner I, Webb AG,
Jakob P, Weber H, Wobus U, Rolletschek H, 2005. Gradients of lipid storage, photosynthesis and
plastid differentiation in developing soybean seeds. New Phytologist 163: 761-776.
5. Aldea M, Hamilton JG, Resti JP, Zangerl AR, Berenbaum MR, Delucia EH, 2005. Indirect effects
of insect herbivory on leaf gas exchange in soybean. Plant, Cell and Environment 28: 402-411.
6. Zlatev ZS, Yordanov IT, 2004. Effects of soil drought on photosynthesis and chlorophyll
fluorescence in bean plants. Bulg. J. Plant Physiol. 30: 3-18.
7. Verdoy D, Lucas MM, Manrique E, Covarrubias AA, de Felipe MR, Pueyo JJ, 2004. Differential
organ-specific response to salt stress and water deficit in nodulated bean (Phaseolus vulgaris).
Plant Cell and Environment 27: 757-767.
8. June T, Evans JR, Farquhar GD, 2004. A simple new equation for the reversible temperature
dependence of photosynthetic electron transport: a study on soybean leaf. Functional Plant
Biology 31: 275-283.
9. 苏吉虎, 沈允钢, 2003. 大豆叶片状态转换过程中跨膜质子动力势的变化. 科学通报 48: 694-698.
10. Iriti M, Faoro F, 2003. Does benzothiadiazole-induced resistance increase fitness cost in
bean? Journal of Plant Pathology 85: 265-270.
11. Pätsikkä E, Kairavuo M, eren F, Aro E-M, Tyystjärvi E, 2002. Excess copper predisposes
photosystem II to photoinhibition in vivo by outcompeting iron and causing decrease in leaf
chlorophyll. Plant Physiology 129: 1359-1367.
12. 李卫华, 卢庆陶, 郝乃斌, 戈巧英, 张其德, 蒋高明, 杜维广, 匡廷云, 2000. 大豆 C4 途径与光系统Ⅱ光
化学功能的相互关系. 植物学报 42: 689-692.
13. 徐志防, 罗广华, 王爱国, 陈贻竹, 郭俊彦, 1999. 强光及活性氧对大豆光合作用的影响. 植物学报 41:
862-866.
14. 洪涛, 许大全, 1999. 珊瑚树和大豆叶片叶绿素荧光的非光化学猝灭. 植物生理学报 25: 15-21.
15. Pastenes C, Horton P, 1999. Resistance of photosynthesis to high temperature in two bean
varieties (Phaseolus vulgaris L.). Photosynthesis Research 62: 197-203.
16. Logan BA, Monson RK, 1999. Thermotolerance of leaf discs from four isoprene-emitting
species is not enhanced by exposure to exogenous isoprene. Plant Physiology 1999: 821-825.
17. Hong S-S, Xu D-Q, 1999. Light-induced increase in initial chlorophyll fluorescence Fo level
and the reversible inactivation of PS II reaction centers in soybean leaves Photosynthesis
Research 61: 269-280.
18. Pätsikkä E, Aro E-M, Tyystjärvi E, 1998. Increase in the quantum yield of photoinhibition
contributes to copper toxicity in vivo. Plant Physiology 117: 619-627.
19. Kao W-Y, Tsai T-T, 1998. Tropic leaf movements, photosynthetic gas exchange, leaf δ13C
and chlorophyll a fluorescence of three soybean species in response to water availability. Plant
Cell and Environment 21: 1055-1062.
20. Geiken B, MasojÍdek J, Rizzuto M, Pompili ML, Giardi MT, 1998. Incorporation of
[35S]methionine in higher plants reveals that stimulation of the D1 reaction centre II protein
turnover accompanies tolerance to heavy metal stress. Plant Cell and Environment 21:
1265-1273.
21. Hong S-S, Xu D-Q, 1997. Difference in response of chlorophyll fluorescence parameters to
strong light between wheat and soybean leaves. Chinese Science Bulletin 42: 684-689.
22. Pastenesz C, Horton P, 1996. Effect of high temperature on photosynthesis in beans. I.
Oxygen evolution and chlorophyll fluorescence. Plant Physiology 112: 1245-1251.
23. Pastenes C, Horton P, 1996. Effect of high temperature on photosynthesis in beans. I.
Oxygen evolution and chlorophyll fluorescence. Plant Physiology 112: 1245-1251.
24. Peterson RB, Aylor DE, 1995. Chlorophyll fluorescence induction in leaves of Phaseolus
vulgaris infected with bean rust (Uromyces appendiculatus). Plant Physiology 108: 163-171.