Bj rkman O,Demming-Adams B.Regulation of photosynthetic light energy capture,conversion,and dissipation in leaves of higher plants[C].Berlin:Springer,1994:17-47.
[2]
Osmond C B,Grace S C.Perspective on photoinhibition and photorespiration in the field:Quintessential inefficiencies of the light and dark reactions of photosynthesis[J].Journal of Experimental Botany,1995,46:1351-1362.
[3]
Aronn D I.Copper enzymes in isolated chloroplasts polyphenoloxidase in Bera Vulgaris[J].Plant Physiol,1949,24:1-15.
[4]
Cao J,Govindjee.Chlorophyll a fluorescence transient as indicator of active and inactive photosystem Ⅱ in thylakoid membranes[J].Biochimica at Biophysica Acta,1990,1015:180-188.
[5]
Strasser B J,Strasser R J.Measuring fast fluorescence transients to address environmental questions:The JIP test[C].Kluwer Academic,Dordrecht.1997:977-980.
[6]
Demming-Adams B,Adams W W Ⅲ,Baker D H,et al.Using chlorophyll fluorescence to assess the fraction of absorbed light allocated to thermal dissipation of excess excitation[J].Physiologia Plantarum,1996,98:253-264.
[7]
Krall J P,Edward G E.Relationship between photosystemⅡ activity and CO2?fixation in leaves[J].Physiologia Plantarum,1992,86:180-187.
[8]
Epron D,Godard D,Cornic G,et al.Limitation of net CO2?assimilation rate by internal resistance to CO2 transfer in the leaves of two tree species (Fagus sylvatica L.andCastanea sativa Mill.)[J].Plant,Cell and Environment,1995,18:43-51.
[9]
gren E.Prediction of photoinhibition of photosystems from measurements of fluorescence quenching components[J].Planta,1991,184:538-544.
[10]
Strasser B J.Donor side capacity of photosystemⅡprobed by chlorophyll a fluorescence transients[J].Photosynthesis Research,1997,52:147-155.
[11]
Krüger G H J,Tsimilli-Michael M,Strasser R J.Light stress provokes plastic and elastic modification in structure and function of photosystem Ⅱin camellia leaves[J].Physiologia Plantarum,1997,101:265-277
[12]
Deming-Adams B,Adams W W,Hebber U,et al.Inhibition of zeaxanthin formation and of rapid changes in radiationless energy dissipation by DTT in Spinach leaves and chloroplast[J].Plant Physiology,1990,92:293-301.
[13]
Jiang C D,Gao H Y,Zou Q.Enhanced thermal energy dissipation depending on xanthophyll cycle and D1 protein turnover in iron-deficient maize leaves exposed to high light[J].Photosynthetica,2001,39 (2):269-274.
[14]
姜闯道,高辉远,邹琦.缺铁大豆叶片激发能耗散的增加[J].植物生理与分子生物学学报,2002,28(2):127-132.(Jiang C D,Gao H Y,Zou Q.Increase in excitation energy dissipation by iron deficiency in soybean leaves[J].Journal of Plant Physiology and Molecular Biology,2002,28(2):127-132.)?
[15]
Viktor R T,Ilona M,Szilvia V,et al.Effects of the available nitrogen on the photosynthetic activity and xanthophyll cycle pool of maize in field[J].Journal of Plant Physiology,2002,159(6):627-634.
[16]
Masaharu C K,Kouki H,Tadaki H.Photoinactivation and recovery of photosystem II in Chenopodium album leaves grown at different levels of irradiance and nitrogen availability[J].Functional Plant Biology,2002,29(7):787-795.
