植物生态学报    2008 32 (3): 681-689   ISSN: 1005-264X  CN: 11-3397/Q  
土壤水分亏缺对陆地棉花铃期叶片光化学活性和激发能耗散的影响
张亚黎1, 罗宏海1, 张旺锋1,*(), 樊大勇2, 何在菊1, 白慧东1
1 石河子大学新疆兵团绿洲生态农业重点实验室,新疆石河子 832003
2 中国科学院植物研究所植被与环境变化国家重点实验室,北京 100093
收稿日期 2007-06-05  修回日期 null  网络版发布日期 2008-05-30
参考文献  
[1] Anderson JM, Park YI, Chow WS (1997). Photoinactivation and photoprotection of photosystem Ⅱ in nature. Physiologia Plantarum, 100,214-223.
[2] Badger MR (1985). Photosynthetic oxygen exchange. Annual Review of Plant Physiology, 36,27-53.
[3] Badger MR, Caemmerer S, Ruuska S, Nakano H (2000). Electron flow to oxygen in higher plants and algae: rates and control of direct photoreduction (Mehler reaction) and rubisco oxygenase. Biological Sciences, 355,1433-1446.
[4] Biehler K, Fock H (1996). Evidence for the contribution of the Mehler-peroxidase reaction in dissipating excess electrons in drought-stressed wheat. Plant Physiology, 112,265-272.
[5] Bilger W, Bj?rkman O (1990). Role of the xanthophyll cycle in photoprotection elucidated by measurements of light-induced absorbance changes, fluorescence and photosynthesis in leaves of Hedera canariensis. Photosynthesis Research, 25,173-185.
[6] Bj?rkman O, Demmig B (1987). 77 K among vascular plants of diverse origins. Planta, 170,489-504.
[7] Chaves MM (1991). Effects of water deficits on carbon assimilation. Journal of Experimental Botany, 42,1-16.
[8] Cornic G, Fresneau C (2002). Photosynthetic carbon reduction and carbon oxidation cycles are the main electron sinks for photosystem Ⅱ activity during a mild drought. Annals of Botany, 89,887-894.
[9] Demmig-Adams B, Adams WW Ⅲ, Baker DH, Logan BA, Bowling DR, Verhoeven AS (1996). Using chlorophyll fluorescence to assess the fraction of absorbed light allocated to thermal dissipation of excess excitation. Physiologia Plantarum, 98,253-264.
[10] Farage PK, Long SP (1991). The occurrence of photoinhibition in an over-wintering crop of oil-seed rape ( Brassica napus L.) and its correlation with changes in crop growth . Planta, 185,279-286.
[11] Flexas J, Bota J, Escalona MJ, Sampol B, Medrano H (2002). Effects of drought on photosynthesis in grapevines under field conditions: an evaluation of stomatal and mesophyll limitations. Functional Plant Biology, 29,461-471.
[12] Genty B, Briantais JM, Silva JBVD (1987). Effects of drought on primary photosynthetic processes of cotton leaves. Plant Physiology, 83,360-364.
[13] Genty B, Briantais JM, Baker NR (1989). The relationship between the quantum yield of photosynthetic electron transport and quenching of chlorophyll fluorescence. Biochimica et Biophysica Acta, 990,87-92.
[14] Guo LW (郭连旺), Xu DQ (许大全), Shen YG (沈允钢) (1994). The causes of midday decline of photosynthesis efficiency in cotton leaves under field conditions. Journal of Plant Physiology and Molecular Biology (植物生理与分子生物学学报), 20,360-366. (in Chinese with English abstract)
[15] Guo LW (郭连旺), Xu DQ (许大全), Shen YG(沈允钢) (1995). The relationship between photoinhibition and photorespiration of leaves in cotton. Chinese Science Bulletin (科学通报), 40,1885-1888. (in Chinese)
[16] Haupt-Herting S, Fock HP (2002). Oxygen exchange in relation to carbon assimilation in water-stressed leaves during photosynthesis. Annals of Botany, 89,851-859.
[17] Heber U, Walker D (1992). Concerning a dual functions of coupled cyclic electron transport in leaves. Plant Physiology, 100,1621-1626.
[18] Hsiao TC (1973). Plant responses to water stress. Annual Review of Plant Physiology, 24,519-570.
[19] Inamullah, Isoda A (2005). Adaptive responses of soybean and cotton to water stress. Ⅱ. Changes in CO 2 assimilation rate, chlorophyll fluorescence and photochemical reflectance index in relation to leaf temperature . Plant Production Science, 8,131-138.
[20] Jones RJ, Kildea T, Hoegh-Guldberg O (1999). PAM chlorophyll fluorometry: a new in situ technique for examine the effects of cyanide from cyanide fishing . Marine Pollution Bulletin, 20,864-874.
[21] Kitao M, Lei TT, Koike T, Tobita H, Maruyama Y (2003). Higher electron transport rate observed at low intercellular CO 2 concentration in long-term drought-acclimated leaves of Japanese mountain birch (Betula ermanii). Physiologia Plantarum, 18,406-413.
[22] Kitao M, Lei TT (2007). Circumvention of over-excitation of PSⅡ by maintaining electron transport rate in leaves of four cotton genotypes developed under long-term drought. Plant Biology, 9,69-76.
[23] Krause GH, Weis E (1991). Chlorophyll fluorescence and photosynthesis: the basics. Annual Review of Plant Physiology and Plant Molecular Biology, 42,301-313.
[24] Kuang TY (匡廷云), Lu CM (卢从明), Li LB (李良璧) (2004). Photosynthetic Efficiency of Crops and Its Regulations (作物光能利用效率与调控). Shandong Science and Technology Press, Ji'nan, 29-57. (in Chinese)
[25] Long SP, Humphries S, Falkowski PG (1994). Photoinhibition of photosynthesis in nature. Annual Review of Plant Physiology and Plant Molecular Biology, 45,633-662.
[26] Lu CM, Zhang JH (1999). Effects of water stress on photosystem Ⅱ photochemistry and its thermostability in wheat plants. Journal of Experimental Botany, 50,1199-1206.
[27] Mcminn A, Ryan K, Gademann R (2003). Diurnal changes in photosynthesis of Antarctic fast ice algal communities determined by pulse amplitude modulation fluorometry. Marine Biology, 143,359-367.
[28] Miller CS (1975). Short interval leaf movements of cotton. Plant Physiology, 55,562-566.
[29] gren E, Rosenqvist E (1992). On the significance of photoinhibition of photosynthesis in the field and its generality among species. Photosynthesis Research, 33,63-71.
[30] Park YI, Chow WS, Osmond CB, Anderson JM (1996). Electron transport to oxygen mitigates against the photoinactivation of photosystem Ⅱ in vivo. Photosynthesis Research, 50,23-32.
[31] Perry SW, Krieg DR, Hutmacher RB (1983). Photosynthetic rate control in cotton. Plant Physiology, 73,662-665.
[32] Scheuermann R, Biehler K, Stuhlfauth T, Fock HP (1991). Simultaneous gas exchange and fluorescence measurements indicate differences in response of sunflower, bean and maize to water stress. Photosynthesis Research, 27,189-197.
[33] Schreiber U, Bilger W, Neubauer C (1994). Chlorophyll fluorescence as a nonintrusive indicator for rapid assessment of in vivo photosynthesis . In: Schulze ED, Caldwell MM eds. Ecophysiology of Photosynthesis. Springer-Verlag, Berlin.
[34] Thanisawanyangkura S, Sinoquet H, Rivet P, Cretenet M, Jallas E (1997). Leaf orientation and sunlit leaf area distribution in cotton. Agricultural and Forest Meteorology, 86,1-15.
[35] Turner NC, Hearn AB, Begg JE, Constable GA (1986). Cotton ( Gossypium hirsutum L.): physiological and morphological response to water deficits and their relationship to yield . Field Crops Research, 14,153-170.
[36] Wang CY, Isoda A, Li ZY, Wang PW (2004). Transpiration and leaf movement of cotton cultivars grown in the field under arid conditions. Plant Production Science, 7,266-270.
[37] Williams WE, Gorton HL, Witiak SM (2003). Chloroplast movements in the field. Plant, Cell and Environment, 26,2005-2014.
[38] Xu DQ (许大全), Zhang YZ (张玉忠), Zhang RX (张荣铣) (1992). Photoinhibition of photosynthesis in plants. Plant Physiology Communications (植物生理学通讯), 28,237-243. (in Chinese)
[39] Yang L (杨玲), Wang ST (王韶唐) (1999). Adaxial and abaxial characters in relation to physiological significance of advanced paraheliotropic orientation of soybean leaflets. Acta Agronomica Sinica (作物学报), 25,86-91. (in Chinese with English abstract)
[40] Yu XG (俞希根), Sun JS (孙景生), Xiao JF (肖俊夫), Liu ZG (刘祖贵), Zhang JY (张寄阳) (1999). A study on drought indices and lower limit of suitable soil moisture of cotton. Acta Gossypii Sinica (棉花学报), 11,35-38. (in Chinese with English abstract)
[41] Zhao GD (赵广东), Liu SR (刘世荣), Ma QL(马全林) (2003). Ecophysiological responses of two xerophytes Atraphaxis frutescens and Elaeagnus angustifolia to the change of groundwater depth in arid area. Ⅰ. Changes in leaf nutrient, chlorophyll, soluble sugar and starch contents . Acta Phytoecologica Sinica (植物生态学报), 27,228-234. (in Chinese with English abstract)
[42] Zhang SR (张守仁), Gao RF (高荣孚) (2001). Light induces leaf orientation and chloroplast movements of hybrid poplar clones. Acta Ecologica Sinica (生态学报), 21,68-74. (in Chinese with English abstract)
[43] Zhang QD (张其德) (1985). Several methods for the determination of chlorophyll. Chinese Bulletin of Botany (植物学通报), 3,60-64. (in Chinese)
通讯作者: 张旺锋