[1]Lobell D B, Asner G P, Climate and management contributions to recent trends in U.S. agricultural yields [J]. Science, 2003,299 (5609): 1032
[2]Root T L, Price J T, Hall K R,et al. Fingerprints of global warming on wild animals and plants
  [J]. Nature,2003, 421 (6918): 57-60
[3]Berry J, Bjorkman O. Photosynthetic response and adaptation to temperature in higher plants [J]. Plant Physiol, 1980, 31 (1): 491-543
[4]Kobza J, Edwards G E. Influences of leaf temperature on photosynthetic carbon metabolism in
  wheat[J]. Plant Physiol, 1987, 83 (1): 69-74
[5]Strasser R J, Tsimill-Michael M, Srivastava. Analysis of the chlorophyll a fluorescence transient In: Papageorgiou G and Govindjee (eds)[M]. Advances in Photosynthesis and Respiration Netherlands: KAP Press, 2004, 12: 1-47
[6]Lee H Y, Hong Y N, Chow W S. Photo inactivation of photo systemⅡcomplexes and
  photoprotection by non-functional neighbors in Capsicum annum’s L. leaves [J]. Planta, 2001, 212 (2-3): 332-342
[7]李鹏民,高辉远, Strasser R J. 快速叶绿素荧光诱导动力学分析在光合作用研究中的应用
 [J]. 植物生理与分子生物学学报（Li Peng-Min, Gao Hui-Yuan, Strasser R J. Application of
  the fast chlorophyll fluorescence induction dynamics analysis in photosynthesis study [J]. J
  Plant Physiol Mol Biol), 2005, 31 (6): 559-566
[8]JohnsonM P, Goral T K, Duffy C D ,et al.Photo protective energy dissipation involves the
  reorganization of photo system II light-harvesting complexes in the grana membranes of
  spinach chloroplasts[J]. Plant Cell, 2011, 23 (4): 1468-1479
[9]Deming-Adams B. Carotenoids and photo protection in plains：A role for the xanthophylls
  zeaxanthin [J]. Biochim Biophys Acta,1990, 1020 (1): 1-24
[10]Gilmore A M, Yamamoto H Y. Zeaxanthin Format on and energy dependent on1~ogeseenee
  quenching in pea chloroplasts under artificially—mediated linear and cyclic electric transport [J]. Plant Physiol, 1991, 96 (2): 635-643
[11]Yamamoto H Y, Kamite I. The effects of dithiothreitol on violaxanthin de-epoxidation and absorbance changes in the 500-nm region[J].Biochim Biophys Acta, 1972, 267 (3): 538-543
[12]Horton P, Ruban A V. Regulation of PSⅡ[J]. Photosynth Res, 1992, 34 (3): 375-385
[13]Gruszecki W I, Strzalka K. Does the xanthophyll cycle take part in the regulation of the thylakoid membrane [J]. Biochim Biophys Acta,1991, 1060 (3): 310-314
[14]Havaux M, Gruszecki W I. Heat-and light- induced chlorophyll a fluorescence changes in
  potato leaves containing high or low levels of the carotenoid zeaxanthin：lndications of a regulatory effect of zeaxanthin on thylakoid mem-brane fluidity [J]. Photochem Photobiol, 1993, 58 (4): 607-614
[15]Yin Y, Li S, Liao W,  et al. Photosystem II photochemistry, photo inhibition, and the xanthophyll cycle in heat-stressed rice leaves [J]. J Plant Physiol, 2010, 167 (12): 959-966
[16]Zhang R, Sharkey T D. Photosynthetic electron transport and proton flux under moderate heat
  stress[J]. Photosynth Res, 2009, 100 (1): 29-43
[17]Bukhov N G, Wiese C, Neimanis S, et al. Heat sensitivity of chloroplasts and leaves: leakage
  of protons from thylakoids and reversible activation of cyclic electron transport[J]. Photosynth Res, 1999, 59 (1): 81-93
[18]DalCorso G, Pesaresi P, Masiero S, et al. A complex containing PGRL1 and PGR5 Is involved
  in the switch between linear and cyclic electron flow in Arabidopsis[J].Cell,2008,132(2): 273-285
[19]Detelin S, Valentina P, Iliya D D. Screening for heat tolerance in common bean (Phaseolus
  vulgaris L.) lines and cultivars using JIP-test [J].Sci Hortic (Amsterdam), 2011, 128 (1) : 1-6
[20]Demmig-Adams B, AdamsIII W W. Photoprotection and other responses of plants to high
  light stress [J]. Annu Rev Plant Physiol Plant Mol Biol, 1992, 43 (1) : 599-626
[21]Yokthongwattana K, Chrost B, Behrman S, et al. Photosystem II damage and repair cycle in
  the green alga Dunaliella salina: Involvement of a chloroplast-localized HSP70 [J]. Plant Cell Physiol, 2001, 42 (12): 1389-1397
[22]Baena-Gonza´lez E, Aro E M. Biogenesis assembly and turnover of photosystem II units [J].
  Philos Trans R Soc Lond B Biol Sci,2002, 357 (1426): 1451-1460
[23]Mulo P, Sirpio S, Suorsa M, et al. Auxiliary proteins involved in the assembly and sustenance
  of photosystem II [J]. Photosynth Res, 2008, 98 (1-3): 489-501
[24]Schroda M, Vallon O, Wollman F A, et al. A chloroplast-targeted heat shock protein 70
  (HSP70) contributes to the photoprotection and repair of photosystem II during and after
  photoinhibition [J]. Plant Cell, 1999, 11 (6): 1165-1178
[25]Keren N, Ohkawa H, Welsh E A, et al. Psb29, a conserved 22-kD protein, functions in the
 biogenesis of photosystem II complexes in Synechocystis and Arabidopsis [J]. Plant Cell, 2005,
 17 (10): 2768-2781
[26]Peng L, Ma J, Chi W, et al. LOW PSII ACCUMULATION1 is involved in efficient assembly
  of photosystem II in Arabidopsis thaliana [J]. Plant Cell, 2006, 18 (4): 955-969
[27]Chen K, Holmström M, Raksajit W, et al. Small chloroplast-targeted DnaJ proteins are
  involved in optimization of photosynthetic reactions in Arabidopsis thaliana[J].BMC Plant Biol,
  2010, 10 (1): 43
[28]Lu Y, Hall D A, Last R L. A small zinc Finger thylakoid protein plays a role in maintenance of
 photosystem II in Arabidopsis thaliana [J].Plant Cell, 2011, 23 (5): 1861-1875
[29]De Maio A. Heat shock proteins: Facts, thoughts, and dreams [J]. Shock, 1999,11(1): 1-12
[30]Su P, H Li H M. Arabidopsis Stromal 70-kD heat shock proteins are essential for plant
  development and important for thermo-tolerance of germinating seeds [J]. Plant Physiol,
  2008, 146 (3): 1231-1241
[31]Schnell D J, Kessler F, Blobel G. Isolation of components of the chloroplast protein import
  machinery[J]. Science, 1994, 266 (5187): 1007-1012
[32]Kourtz L, Ko K. The early stage of chloroplast protein import involves Com70 [J]. J Biol
  Chem, 1997, 272 (5): 2808-2813
[33]Tsugeki R, Nishimura M. Interaction of homologues of Hsp70 and Cpn60 with ferredoxin-
   NADP1 reductase upon its import into chloroplasts[J]. FEBS Lett, 1993, 320 (3):198-202
[34]Madueño F, Napier J A, Gray J C. Newly imported Rieske iron–sulfur protein associates with
  both Cpn60 and Hsp70 in the chloroplast stroma [J]. Plant Cell, 1993, 5 (12):1865-1876
[35]Schuster G, Even D, Kloppstech K, et al. Evidence for protection by heat-shock proteins against photoinhibition during heat-shock [J]. EMBO J, 1988, 7 (1): 1-6
[36]Michael S, Olivier V, Francis-André W, et al. A chloroplast-targeted heat shock protein 70
  (HSP70) contributes to the photo protection and repair of photosystem II during and after photo inhibition[J]. Plant Cell, 1999, 11 (6): 1165-1178
[37]Uzunova A N, Popova L P. Effect of salicylic acid on leaf anatomy and chloroplast ultrastructure of barley plants [J]. Photosynthetica, 2000, 38 (2): 243-250
[38]Fariduddin Q, Hayat S, Ahmad A. Salicylic acid influences net photosynthetic rate, carboxylation efficiency, nitrate reductase activity and seed yield in Brassica juncea[J]. Photosynthetica, 2003, 41 (2): 281-284
[39]Srivastava M K, Dwivedi U N. Delayed ripening of banana fruit by salicylic acid [J]. Plant Sci,  2000, 158 (1-2) : 87-96
[40]Morris K, Mackerness S A, Page T, et al. Salicylic acid has a role in regulating gene expression during leaf senescence [J]. Plant J, 2000, 23 (5): 677-685
[41]Hayat S, Fariduddin Q, Ali B, et al. Effect of salicylic acid on growth and enzyme activities of
   wheat seedlings[J]. Acta Agron Hun, 2005, 53 (4): 433-437
[42] 马培芳,杨亚军,赵会杰. 水杨酸对高温强光下小麦抗氧化及光合作用的影响[J].河南农
业科学 (Ma Pei-Fang,Yang Ya-Jun, Zhao Hui-Jie. Effects of salicylic acid on antioxidant
metabolism and Photosynthesis of Wheat Leaves under Heat and Irradiance Stress [J]. J Henan
Agric Sci), 2009, (4): 26-29
[43]Apel K, Hirt H. Reactive oxygen species: metabolism, oxidative stress, and signal transduction[J]. Annu Rev Plant Biol, 2004, 55: 373-399
[44]Larkindale J, Knight M R. Protection against heat stress-induced oxidative damage in Arabidopsis involves calcium, abscisic acid, ethylene, and salicylic acid [J]. Plant Physiol, 2002, 128 (2): 682-695
[45] Takahashi S , Nakamura T, Sakamizu M, et al. Repair machinery of symbiotic photosynthesis
  as the primary target of heat stress for reef-building corals[J]. Plant Cell Physiol, 2004,45(2):
  251-255
[46]Lv W, Lin B, Zhang M, et al. Proline accumulation is inhibitory to Arabidopsisseedlings during heat stress [J].Plant Physiol, 2011, 156 (4): 1921-1933
[47]Mano J, Ushimaru T, Asada K. Ascorbate in thylakoid lumen as an endogenous electron donor
  to photosystem II: protection of thylakoids from photoinhibition and regeneration of ascorbate in stroma by dehydroascorbate reductase [J]. Photosynth Res, 1997, 53 (2-3): 197-204
[48]Szilvia Z T, Vale´ria N, Jos T P, et al. The physiological role of ascorbate as photosystem II
  electron donor: Protection against photoinactivation in heat-stressed leaves [J].Plant Physiol, 2011, 156 (1): 382–392