果树耐高温研究进展
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摘要
适宜的环境温度是果树正常生长发育的必要条件,但近年来随着全球气候变暖,夏季极端高温天气频繁出现,持续时间较长,对果树的生长和危害严重。本综述概括总结了高温胁迫对果树生长发育的影响,从细胞解剖结构、细胞膜系统、活性氧清除系统、渗透调节和光合作用5个方面分析果树对高温胁迫的生理生化响应,总结了果树响应高温胁迫的分子机制和信号转导,并对今后果树的高温胁迫研究作出了展望,旨在为进一步开展本领域研究提供参考。
Suitable environmental temperature is necessary for the normal growth and development of fruit trees,but in recent years, with the warming of global climate, the extremely hot weather appears frequently in summer and lasts for a long time, which seriously affects the growth and yield of fruit trees. This paper reviewed the effect of high temperature stress on growth and development of fruit trees. The physiological and biochemical responses of fruit trees to high temperature stress were discussed from cellular anatomic structure, cell membrane system,active oxygen scavenging system, osmotic adjustment and photosynthesis, respectively. This paper also summarized the molecular mechanism and signal transduction of fruit trees responding to high temperature stress, and the future research on high temperature stress of fruit trees was prospected in order to provide references for further research in this field.
Suitable environmental temperature is necessary for the normal growth and development of fruit trees,but in recent years, with the warming of global climate, the extremely hot weather appears frequently in summer and lasts for a long time, which seriously affects the growth and yield of fruit trees. This paper reviewed the effect of high temperature stress on growth and development of fruit trees. The physiological and biochemical responses of fruit trees to high temperature stress were discussed from cellular anatomic structure, cell membrane system,active oxygen scavenging system, osmotic adjustment and photosynthesis, respectively. This paper also summarized the molecular mechanism and signal transduction of fruit trees responding to high temperature stress, and the future research on high temperature stress of fruit trees was prospected in order to provide references for further research in this field.
引文
Abass M.,and Rajashekar C.B.,1993,Abscisic acid accumulation in leaves and cultured cells during heat acclimation in grapes,HortScience,28(1):50-52
Almeselmani M.,Deshmukh P.S.,Sairam R.K.,Kushwaha S.R.and Singh T.P.,2006,Protective role of antioxidant enzymes under high temperature stress,Plant Sci.,171(3):382-388
Andronis E.A.,and Roubelakis-Angelakis K.A.,2010,Short-term salinity stress in tobacco plants leads to the onset of animal-like PCD hallmarks in planta in contrast to long-term stress,Planta,231(2):437-448
Banti V.,Mafessoni F.,Loreti E.,Alp i A.,and Perata P.,2010The heat-inducible transcription factor Hsf A2 enhances anoxia tolerance in Arabidopsis,Plant Physiol.,152(3):1471-1483
Berry J.,and Bjorkman O.,1980,Photosynthetic response and adaptation to temperature in higher plants,Ann.Rev.Plan Physiol.,31(1):491-543
Braam J.,1992,Regulated expression of the calmodulin related TCH genes in cultured Arabidopsis cells:Induction by calcium and heat shock,Proc.Natl.Acad.Sci.USA,89(8):3213-3216
Bush D.S.,1995,Calcium regulation in plant cells and its role in signaling,Annu.Rev.Plant.Physiol.Plant Mol.Biol.,4695-122
Can V.,Luo C.,Dong L.,Liu Z.L.,and He X.H.,2014,Cloning and expression analysis of a small heat shock protein gene(MiHSP17.6)from Mangifera indica,Yuanyi Xue bao(Acta Horticulturae Sinica),41(12):2383-2392(Can V.,罗聪,董龙,刘召亮,何新华,2014,杧果低分子量热激蛋白基因MiHSP17.6的克隆及表达分析,园艺学报,41(12):2383-2392)
Caprio J.M.,and Quamme H.A.,2002,Weather conditions associated with grape production in the Okanagan Valley of British Columbia and potential impact of climate change,Can.J.Plant Sci.,82(4):755-763
Chen L.S.,and Liu X.H.,1997,Effect of high temperature stress on cell membrane permeability and photosynthetic pigment in leaves of peach and pomelo,Wuhan Zhiwuxue Yanjiu(Journal of Wuhan Botanical Research),15(3):233-237(陈立松,刘星辉,1997,高温胁迫对桃和柚细胞膜透性和光合色素的影响,武汉植物学研究,15(3):233-237)
Chen S.T.,and Guo F.Q.,2013,Heat stress tolerance and signaling in plants,Zhongguo Kexue Shengming Kexue(Scientia Sinica Vitae),43(12):1072-1081(陈思婷,郭房庆,2013,植物耐热性及热激信号转导机制研究进展,中国科学:生命科学,43(12):1072-1081)
Chen T.H.H.,and Murata N.,2002,Enhancement of tolerance of abiotic stress by metabolic engineering of betaines and other compatible solutes,Curr.Opin.Plant Biol.,5:250-257
Du G.D.,Lv D.G.,Zhao L.,Wang S.S.,and Cai Q.,2011,Effects of high temperature on leaf photosynthetic characteristics and photosystemⅡphotochemical activity of kernel-used apricot,Yingyong Shengtai Xuebao(Chinese Journal of Applied Ecology),22(3):701-706(杜国栋,吕德国,赵玲,王素素,蔡倩,2011,高温对仁用杏光合特性及PSⅡ光化学活性的影响,应用生态学报,22(3):701-706)
Dylewski D.P.,Singh N.K,and Cherry J.H.,1991,Effects of heat shock and thermoadaptation on the ultrastructure of cowpea(Vigna unguiculata)cells,Protoplasma,163(2-3):125-135
Giorno F.,Guerriero G.,Baric S.,and Mariani C.,2012,Heat shock transcriptional factors in Malus domestica:identification,classification and expression analysis,BMC Genomics,13(1):639
Guo Y.P.,Zhou H.F.,Zeng G.H.,and Zhang L.C.,2003,Effects of high temperature stress on net photosynthetic rate and photosystemⅡactivity in citrus,Yingyong Shengtai Xuebao(Chinese Journal of Applied Ecology),14(6):867-870(郭延平,周慧芬,曾光辉,张良诚,2003,高温胁迫对柑橘光合速率和光系统Ⅱ活性的影响,应用生态学报,14(6):867-870)
Han C.,Xie W.H.,Li J.G.,Qin Y.T.,Jiang M.B.,Liu S.Y.H.,and Wang X.K.,2015,Gene expression profile of haloxylon branch under the stresses of drought and heat in summer season,Jiyinzuxue Yu Yingyong Shengwuxue(Genomics and Applied Biology),34(3):607-614(韩超,谢文华,李建贵,秦韵婷,蒋劢博,刘隋赟昊,王宪奎,2015,夏季高温干旱逆境下梭梭枝条中转录组表达谱分析,基因组学与应用生物学,34(3):607-614)
Howarth C.J.,and Ougham H.J.,1993,Gene expression under temperature stress,New Phytol.,125(1):1-26
Hu A.S.,Jiang B.F.,Guan Y.L.,Mou L.H.,and Li H.F.,1993Characteristics of flower and fruit drop of satsuma mandarin under high temperature stress,Yuanyi Xuebao(Acta Horticulturae Sinica),20(1):91-92(胡安生,蒋斌芳,管彦良,牟莉桦,李惠丰,1993,高温胁迫下温州蜜柑落花落果的特点,园艺学报,20(1):91-92)
Hu Y.,Han Y.T.,Wei W.,Li Y.J.,Zhang K.,Gao Y.R.,Zhao FL.,and Feng J.Y.,2015,identification,Isolation,and expression analysis of heat shock transcription factors in the diploid woodland strawberry Fragaria vesca,Front.Plan Sci.,6:736
Hu Y.,Han Y.T.,Zhang K.,Zhao F.L.,Li Y.J.,Zheng Y.,Wang Y.J.,and Wen Y.Q.,2016,Identification and expression analysis of heat shock transcription factors in the wild Chinese grapevine(Vitis pseudoreticulata),Plant Physiol.Biochem.,99:1-10
Ji W.W.,Qiu C.H.,Jiao Y.,Guo Y.P.,and Teng Y.W.,2012,Effects of high temperature and strong light on photosynthesis D1 protein,and the Deg1 protease in pear(Pyrus pyrifolia)leaves,Guoshu Xuebao(Journal of Fruit Science),29(5)794-799(计玮玮,邱翠花,焦云,郭延平,滕元文,2012,高温强光胁迫对砂梨叶片光合作用、D1蛋白和Deg1蛋白酶的影响,果树学报,29(5):794-799)
Jin J.,Lu X.Y.,and Wang Y.,2014,Advances in the studies on salt tolerance of fruit trees,Yuanyi Xuebao(Acta Horticulturae Sinica),41(9):1761-1776(靳娟,鲁晓燕,王依,2014果树耐盐性研究进展,园艺学报,41(9):1761-1776)
Kang X.L.,Wang G.P.,Hu W.,and Yu S.L.,2006,Analysis of Correlative location between chloroplast and mitochondria of mesophyll cell in grape plants under high temperature stress,Xibei Nongye Xuebao(Acta Agriculturae Boreali-occidentalis Sinica),15(2):120-123(康喜亮,王果平,胡伟,郁松林,2006,高温逆境下葡萄叶肉细胞叶绿体与线粒体位置相关性分析,西北农业学报,15(2):120-123)
Kawano T.,Sahashi N.,Takahashi K.,Uozumi N.,and Muto S.1998,Salicylic acid induces extracellular superoxide generation followed by an increase in cytosolic calcium ion in tobacco suspension culture:the earliest events in salicylic acid signal transduction,Plant Cell Physiol.,39(7):721-730
Klein J.D.,and Ferguson I.B.,1987,Effect of high temperature on calcium uptake by suspension cultured pear fruit cells Plant Physiol.,84(1):153-156
Kobayashi M.,Katoh H.,Takayanagi T.,and Suzuki S.,2010Characterization of thermotolerance-related genes in grapevine(Vitis vinifera),J.Plant Physiol.,167(10):812-819
Kregel K.C.,2002,Invited review:heat shock proteins:modifying factors in physiological stress responses and acquired thermotolerance,J.Appl.Physiol.,92(5):2177-2186
Li B.,Liu H.T.,Sun D.Y.,and Zhou R.G.,2002,Signal transduction mechanism of plant heat shock response,Zhiwu Shengli Yu Fenzi Shengwuxue Xuebao(Journal of Plant Physiology And Molecular Biology),28(1):1-10(李冰,刘宏涛,孙大业,周人纲,2002,植物热激反应的信号转导机理,植物生理与分子生物学学报,28(1):1-10)
Li Y.,Li L.,Chen X.D.,Ye B.X.,and Gao D.S.,2011,Effects of high temperature on the anther and pollen development of sweet cherry in solar greenhouse,Yuanyi Xuebao(Acta Horticulturae Sinica),38(6):1029-1036(李燕,李玲,陈修德,叶宝兴,高东升,2011,高温对设施甜樱桃花药发育和花粉粒形成的影响,园艺学报,38(6):1029-1036)
Lin Q.,Jiang Q.,Lin J.Y.,Wang D.L.,Li S.J,Liu C.R.,Sun C.D.,and Chen K.S.,2015,Heat shock transcription factors expression during fruit development and under hot air stress in Ponkan(Citrus reticulata Blanco cv.Ponkan)fruit,Gene,559(2):129-136
Liu D.F.,Zhang D.,Liu G.Q.,Hussain S.,and Teng Y.W.,2013,Influence of heat stress on leaf ultrastructure,photosynthetic performance,and ascorbate peroxidase gene expression of two pear cultivars(Pyrus pyrifolia),J.Zhejiang Univ.Sci.,14(12):1070-1083
Liu H.C.,and Charng Y.Y.,2012,Acquired thermotolerance independent of heat shock factor A1(HsfA1),the master regulator of the heat stress response,Plant Signal.Behav.,7(5):547-550
Liu Y.P.,Huang W.D.,and Zhang J.H.,2005,Effect of calcium-calmodulin on the thermtolerance induced by salicylic acid in young grape seedlings and associated with antioxidant system,Yuanyi Xuebao(Acta Horticulturae Sinica),32(3):381-386(刘悦萍,黄卫东,张俊环,2005,钙-钙调素对水杨酸诱导葡萄幼苗耐热性的影响及与抗氧化的关系,园艺学报,32(3):381-386)
Liu Y.P.,Huang W.D.,and Zhang J.H.,2006,Effect of heat acclimation and SA pretreat on the ultrastructure of mesophyll cell in grape plants under heat shock,Yuanyi Xuebao(Acta Horticulturae Sinica),33(3):491-495(刘悦萍,黄卫东,张俊环,2006,高温锻炼和水杨酸预处理对热激下葡萄叶肉细胞超微结构的影响,园艺学报,33(3):491-495)
Long S.P.,Humphries S.,and Falkowski P.G.,1994,Photoinhibi tion of photosynthesis in nature,Ann.Rev.Plant Biol.,45(1):633-662
Luo H.B.,Ma L.,Duan W.,Li S.H.,and Wang L.J.,2010,Influence of heat stress on photosynthesis in Vitis vinifera L.cv.cabernet sauvignon,Zhongguo Nongye Kexue(Scientia A-gricultura Sinica),43(13):2744-2750(罗海波,马苓,段伟,李绍华,王利军,2010,高温胁迫对‘赤霞珠’葡萄光合作用的影响,中国农业科学,43(13):2744-2750)
Luo H.B.,Ma L.,Xi H.F.,Duan W.,Li S.H.,Loescher W.,Wang F.J.,and Wang L.J.,2011,Photosynthetic responses to hea treatments at different temperatures and following recovery in grapevine(Vitis amurensis L.)leaves,PLoS One,6(8):e23033
Ma Y.H.,Ma F.W.,Zhang J.K.,Li M.J.,Wang Y.H.,and Liang D.,2008,Effects of high temperature on activities and gene expression of enzymes involved in ascorbate-glutathione cycle in apple leaves,Plant Sci.,175(6):761-766
Matés J.M.,Pérez-Gómez C.,De Castro I.N.,Asenjo M.,and Márquez J.,2002,Glutathione and its relationship with intracellular redox status,oxidative stress and cell proliferation death,Int.J.Biochem.Cell Biol.,34(5):439-458
Miller G.,Shulaev V.,and Mittler R.,2008,Reactive oxygen signaling and abiotic stress,Physiol.Plant.,133(3):481-489
Mittler R.,2002,Oxidative stress,antioxidants and stress tolerance,Trends Plant Sci.,7(9):405-410
Murata N.,Takahashi S.,Nishiyama Y.,and Allakhverdiev S.I.2007,Photoinhibition of photosystem II under environmental stress,Biochim.Biophys.Acta,1767(6):414-421
Ou Z.L.,Cao F.L.,and Zheng J.,2008,The changes of physiobiochemistry and morphological characteristics of Ginkgo biloba L.subjected to high temperature stress,Nanjing Linye Daxue Xuebao(Journal of Nanjing Forestry University),32(3):31-34(欧祖兰,曹福亮,郑军,2008,高温胁迫下银杏形态及生理生化指标的变化,南京林业大学学报,32(3):31-34)
Pareek A.,Singla S.L.,and Grover A.,1997,Short-term salinity and high temperature stress-associated ultrastructural alterations in young leaf cells of Oryza sativa L.,Ann.Bot.,80(5):629-639
Peng S.B.,Zhu Z.G.,Zhao K.,Shi J.L.,Yang Y.Z.,He M.Y.,and Wang Y.J.,2013,A novel heat shock transcription factor VpHsf1,from Chinese wild Vitis pseudoreticulata is involved in biotic and abiotic stresses,Plant Mol.Biol.Rep.31(1):240-247
Qiao X.,Li M.,Li L.T.,Yin H.,Wu J.Y.,and Zhang S.L.,2015Genome-wide identification and comparative analysis of the heat shock transcription factor family in Chinese white pear(Pyrus bretschneideri)and five other Rosaceae species,BMCPlant Biol.,15(1):12
Qiu C.H.,Ji W.W.,and Guo Y.P.,2011,Effects of high temperature and strong light on chlorophyll fluorescence,the D1protein,and Deg1 protease in Satsuma mandarin,and the protective role of salicylic acid,Shengtai Xuebao(Acta E-cologia Sinica),31(13):3802-3810(邱翠花,计玮玮,郭延平,2011,高温强光对温州蜜柑叶绿素荧光、D1蛋白和Deg1蛋白酶的影响及SA效应,生态学报,31(13):3802-3810)
Ristic Z.,and Cass D.D.,1992,Chloroplast structure after water and high-temperature stress in two lines of maize that differ in endogenous levels of abscisic acid,Int.J.Plant Sci.,153(2):186-196
Scharf K.D.,Rose S.,Zott W.,Schoffl F.,and Nover L.,1990,Three tomato genes code for heat stress transcription factors with a region of remarkable homology to the DNA-binding domain of the yeast HSF,EMBO J.,9(13):4495-4501
Shigeoka S.,Ishikawa T.,Tamoi M.,Miyagawa Y.,Takeda T.,Yabuta Y.,and Yoshimura K.,2002,Regulation and function of ascorbate peroxidase isoenzymes,J.Exp.Bot.,53(372):1305-1319
Smirnoff N.,1993,The role of active oxygen in the response of plants to water deficit and desiccation,New Phytol.,125:27-58
Sun F.,Xia X.L.,and Yin W.L.,2009,The mutual regulations between ABA and calcium signal transduction pathways under abiotia stress,Jiyinzuxue Yu Yingyong Shengwuxue(Genomics and Applied Biology),28(2):391-397(孙芳,夏新莉,尹伟伦,2009,逆境胁迫下ABA与钙信号转导途径之间的相互调控机制,基因组学与应用生物学,28(2):391-397)
Sun J.L.,2015,Study of exogenous salicylic acid on physiological characteristics and the nature of protein kinase of grape young plants under high temperature stress,Thesis for M.S.,Shihezi University,Supervisor:Yu S.L.,pp.11(孙军利,2015,外源水杨酸对高温胁迫下葡萄幼苗生理特性的影响及诱导的蛋白激酶性质研究,硕士学位论文,石河子大学,导师:郁松林,pp.11)
Sun J.L.,Zhao B.L.,and Yu S.L.,2014a,Study of exogenous salicylic acid(SA)on the heat tolerance in grape seedlings under high temperature stress,Shuitu Baochi Xuebao(Journal of Soil and Water Conservation),28(3):290-294(孙军利,赵宝龙,郁松林,2014a,外源水杨酸(SA)对高温胁迫下葡萄幼苗耐热性诱导研究,水土保持学报,28(3):290-294)
Sun J.L.,Zhao B.L.,and Yu S.L.,2014b,Effect of exogenous salicylic acid on antioxidant enzymes activities and antioxidants contents in grape seedlings under high temperature stress,Zhiwu Shengli Xuebao(Plant Physiology Journal),50(7):1014-1018(孙军利,赵宝龙,郁松林,2014b,外源水杨酸对高温胁迫下葡萄几种抗氧化酶活性和抗氧化物含量的影响,植物生理学报,50(7):1014-1018)
Sung D.Y.,Kaplan F.,Lee K.J.,and Guy C.L.,2003,Acquired tolerance to temperature extremes,Trends Plant Sci.,8(4):179-187
Swindell W.R.,Huebner M.,and Weber A.P.,2007,Transcriptional profiling of Arabidopsis heat shock proteins and transcription factors reveals extensive overlap between heat and non-heat stress response pathways,BMC Genomics,8:125
Tang Z.Y.,Lv M.,Zhang X.,Xu H.X.,and Zhang H.L.,2006High temperature physical coercion to several indicators of the impact of grape leaves,Shihezi Daxue Xuebao(Journa of Shihezi University),24(2):198-200(汤照云,吕明,张霞徐海霞,张慧莉,2006,高温胁迫对葡萄叶片三项生理指标的影响,石河子大学学报,24(2):198-200)
Tarora K.,Tamaki M.,Shudo A.,Urasaki N.,Matsumura H.,and Adaniya S.,2010,Cloning of a heat stress transcription factor,CphsfB1,that is constitutively expressed in radicles and is heat-inducible in the leaves of Carica papaya,Plant Cel Tiss.Org.,102(1):69-77
Tian W.J.,Yin X.R.,Li X.,and Chen K.S.,2017,Regulation of stress responses by heat stress transcription factors(Hsfs)in plants,Yuanyi Xuebao(Acta Horticulturae Sinica),44(1):179-192(田尉婧,殷学仁,李鲜,陈昆松,2017,热激转录因子调控植物逆境响应研究进展,园艺学报,44(1):179-192)
Vierling E.,1991,The roles of heat shock proteins in plants Ann.Rev.Plant Biol.,42(1):579-620
Walbot V.,2011,How plants cope with temperature stress,BMCBiology,9(1):79
Wang J.,Ou Y.,Wu Z.,Dai Z.L.,and Liu S.W.,2011,Effects of high temperature stress on physiological indicators,early defoliation of early maturing pear,Xinan Nongye Xuebao(Southwest China Journal of Agricultural Sciences),24(2)546-551(王进,欧毅,武峥,代正林,刘圣维,2011,高温胁迫对早熟梨生理效应和早期落叶的影响,西南农业学报24(2):546-551)
Wang L.J.,and Huang W.D.,2000,Heat stress and its signa transduction,Zhiwuxue Tongbao(Chinese Bulletin of Botany),17(2):114-120(王利军,黄卫东,2000,高温胁迫及其信号转导,植物学通报,17(2):114-120)
Wang L.J.,and Li S.H.,2006,Salicylic acid-induced heat or cold tolerance in relation to Ca2+homeostasis and antioxidant systems in young grape plants,Plant Sci.,170(4):685-694
Wang L.J.,Fan L.,Loescher W.,Duan W.,Liu G.J.,Cheng J.S.and Li S.H.,2010,Salicylic acid alleviates decreases in photosynthesis under heat stress and accelerates recovery in grapevine leaves,BMC Plant Biol.,10(1):34
Wang L.J.,Huang W.D.,Li J.Y.,Liu Y.F.,and Shi Y.L.,2004a Peroxidation of membrane lipid and Ca2+homeostasis in grape mesophyll cells during the process of cross-adaptation to temperature stresses,Plan Sci.,167:71-77
Wang L.J.,Huang W.D.,Liu J.C.,and Zhan J.C.,2005,Changes in salicylic acid and abscisic acid during heat acclimation and their effect on thermotolerance of grape plants,Russian J.Plant Physiol.,52(4):572-583
Wang Q.Z.,Liu Q.,Gao Y.N.,and Liu X.,2017,Reviews on the mechanisms of the response to salinity-alkalinity stress in plants,Shengtai Xuebao(Acta Ecologica Sinica),37(16):5565-5577(王佺珍,刘倩,高娅妮,柳旭,2017,植物对盐碱胁迫的响应机制研究进展,生态学报,37(16):5565-5577)
Wang T.,Tian X.Y.,Xie Y.F.,and Zhang W.X.,2013,Research advance on heat-stress tolerance in plants,Yunnan Nongye Daxue Xuebao(Journal of Yunnan Agricultural University),28(5):719-726(王涛,田雪瑶,谢寅峰,张往祥,2013,植物耐热性研究进展,云南农业大学学报,28(5):719-726)
Wang W.X.,Vinocur B.,Shoseyov O.,and Altman A.,2004b,Role of plant heat-shock proteins and molecular chaperones in the abiotic stress response,Trends Plant Sci.,9(5):244-252
Wei L.Y.,Mo L.,Zeng D.J.,and Yuan W.Y.,2008,The diurnal changes in leaf gas exchange of Actinidia chinensis cv.Guihaia 4,Xibei Nongye Xuebao(Acta Agriculturae Boreali-Occidentalis Sinica),17(6):107-112(韦兰英,莫凌,曾丹娟,袁维园,2008,桂北地区中华猕猴桃光合作用的日变化特征,西北农业学报,17(6):107-112)
Wen P.F.,Chen J.Y.,Wan S.B.,Kong W.F.,Zhang P.,Wang W.,and Huang W.D.,2008,Salicylic acid activates phenylalanine ammonia-lyase in grape berry in response to high temperature stress,Plant Growth Regu.,55(1):1-10
Wu Y.Y.,2001,Influence of high temperature stress on the growth and development of fujiminori grape variety,Guoshu Xuebao(Journal of Fruit Science),18(5):280-283(吴月燕,2001,高温胁迫对藤稔葡萄生长结果的影响,果树学报,18(5):280-283)
Xu C.S.,and Xu A.H.,2014,Effects of high temperature on germination and growth of apple pollen in style,Zhiwu Shengli Xuebao(Plant Physiology Journal),50(1):51-55(徐臣善,徐爱红,2014,高温对苹果花粉在花柱内萌发和生长的影响,植物生理学报,50(1):51-55)
Xu Q.,Paulsen,A.Q.,Guikema J.A.,and Paulsen G.M.,1995,Functional and ultrastructural injury to photosynthesis in wheat by high temperature during maturation,Environ.Exp.Bot.,35(1):43-54
Yang G.Y.,Jia C.X.,Sun Y.D.,Li M.,and Zhai M.Z.,2015,Jrs HSP17.3 cloning from Juglans regia and its expression in response to temperature stresses,Xibei Zhiwu Xuebao(Acta Botanica Boreali-Occidentalia Sinica),35(9):1752-1756(杨桂燕,贾彩霞,孙宇栋,李鸣,翟梅枝,2015,核桃JrsH-SP17.3基因克隆及温度胁迫响应模式分析,西北植物学报,35(9):1752-1756)
Ye X.Y.,Ma F.W.,Wang S.C.,and Liang D.,2004,Physiological effects of kiwifruit lamina under high temperature stress,Xibei Nonglin Keji Daxue Xuebao(Journal of Northwest Aand F University(Natural Science Edition)),32(12):33-37(耶兴元,马锋旺,王顺才,梁冬,2004,高温胁迫对猕猴桃幼苗叶片某些生理效应的影响,西北农林科技大学学报(自然科学版),32(12):33-37)
Ye Z.W.,Du J.H.,Su M.S.,Li L.L.,and Zhang S.L.,2010,Effects of high temperature on the microsporogenesis and pollen development of peach,Yuanyi Xuebao(Acta Horticulturae Sinica),37(3):355-362(叶正文,杜纪红,苏明申李六林,张绍铃,2010,高温对桃花粉发育及小孢子产生的影响,园艺学报,37(3):355-362)
Yin Y.Q.,Hu J.B.,and Deng M.J.,2007,Latest development of antioxidant system and responses to stress in plant leaves Zhongguo Nongxue Tongbao(Chinese Agricultural Science Bulletin),23(1):105-110(尹永强,胡建斌,邓明军,2007植物叶片抗氧化系统及其对逆境胁迫的响应研究进展中国农学通报,23(1):105-110)
You C.,Shen H.,Guo S.R.,and Sun J.,2016,Physiological characteristics of nectarine seedlings under high temperature stress,Zhongguo Nongxue Tongbao(Chinese Agricultural Science Bulletin),32(10):79-84(尤超,沈虹,郭世荣,孙锦2016,高温逆境胁迫对油桃生理特征影响的研究,中国农学通报,32(10):79-84)
Zhang J.,Liu B.B.,Li J.B.,Zhang L.,Wang Y.,Zheng H.Q.,Lu M.Z.,and Chen J.,2015,Hsf and Hsp gene families in populus:genome-wide identification,organization and correlated expression during development and in stress responses BMC Genomics,16(1):181
Zhang R.J.,Li Y.,Yu X.M.,Lou Y.S.,Xu W.P.,Zhang C.X.Zhao L.P.,and Wang S.P.,2015,Effects of heat stress and exogenous brassinolide on photosynthesis of leaves and berry quality of'Kyoho'grapevine,Guoshu Xuebao(Journal of Fruit Science),32(4):590-596(张睿佳,李瑛,虞秀明,娄玉穗,许文平,张才喜,赵丽萍,王世平,2015,高温胁迫与外源油菜素内酯对‘巨峰’葡萄叶片光合生理和果实品质的影响,果树学报,32(4):590-596)
Zhang Y.,Mian M.R.,Chekhovskiy K.,So S.,Kupfer D.,Lai H.,and Roe B.A.,2005,Differential gene expression in Festuca under heat stress conditions,J.Exp.Bot.,56(413):897-907
Zhao L.Y.,Deng X.P.,and Shan L.,2005,The response mechanism of active oxygen species removing system to drought stress,Xibei Zhiwu Xuebao(Acta Botanica Boreali-Occidentalia Sinica),25(2):413-418(赵丽英,邓西平,山仑,2005,活性氧清除系统对干旱胁迫的响应机制,西北植物学报,25(2):413-418)
Zhou B.Y.,Chen H.B.,Xiang C.H.,Liu W.Q.,Li N.,Hu Z.X.,Huang X.M.,and Zhang S.,2010,Flowering of'Sanyuehong'litchi with treatments of different temperature regimes,Yuanyi Xuebao(Acta Horticulturae Sinica),37(7):1041-1046(周碧燕,陈厚彬,向炽华,刘伟强,李宁,胡志群,黄旭明,张思,2010,‘三月红’荔枝不同温度处理的成花效应,园艺学报,37(7):1041-1046)
Zou J.,Chen X.B.,Liu A.L.,Gao G.F.,and Zhu M.L.,2007,Plant heat shock proteins and crop abiotic stress tolerance improvement,Zhiwu Shenglixue Tongxun(Plant Physiology Communication),43(5):981-985(邹杰,陈信波,刘爱玲,高国赋,朱木兰,2007,植物热激蛋白与作物非生物抗逆性的改良,植物生理学通讯,43(5):981-985)
Almeselmani M.,Deshmukh P.S.,Sairam R.K.,Kushwaha S.R.and Singh T.P.,2006,Protective role of antioxidant enzymes under high temperature stress,Plant Sci.,171(3):382-388
Andronis E.A.,and Roubelakis-Angelakis K.A.,2010,Short-term salinity stress in tobacco plants leads to the onset of animal-like PCD hallmarks in planta in contrast to long-term stress,Planta,231(2):437-448
Banti V.,Mafessoni F.,Loreti E.,Alp i A.,and Perata P.,2010The heat-inducible transcription factor Hsf A2 enhances anoxia tolerance in Arabidopsis,Plant Physiol.,152(3):1471-1483
Berry J.,and Bjorkman O.,1980,Photosynthetic response and adaptation to temperature in higher plants,Ann.Rev.Plan Physiol.,31(1):491-543
Braam J.,1992,Regulated expression of the calmodulin related TCH genes in cultured Arabidopsis cells:Induction by calcium and heat shock,Proc.Natl.Acad.Sci.USA,89(8):3213-3216
Bush D.S.,1995,Calcium regulation in plant cells and its role in signaling,Annu.Rev.Plant.Physiol.Plant Mol.Biol.,4695-122
Can V.,Luo C.,Dong L.,Liu Z.L.,and He X.H.,2014,Cloning and expression analysis of a small heat shock protein gene(MiHSP17.6)from Mangifera indica,Yuanyi Xue bao(Acta Horticulturae Sinica),41(12):2383-2392(Can V.,罗聪,董龙,刘召亮,何新华,2014,杧果低分子量热激蛋白基因MiHSP17.6的克隆及表达分析,园艺学报,41(12):2383-2392)
Caprio J.M.,and Quamme H.A.,2002,Weather conditions associated with grape production in the Okanagan Valley of British Columbia and potential impact of climate change,Can.J.Plant Sci.,82(4):755-763
Chen L.S.,and Liu X.H.,1997,Effect of high temperature stress on cell membrane permeability and photosynthetic pigment in leaves of peach and pomelo,Wuhan Zhiwuxue Yanjiu(Journal of Wuhan Botanical Research),15(3):233-237(陈立松,刘星辉,1997,高温胁迫对桃和柚细胞膜透性和光合色素的影响,武汉植物学研究,15(3):233-237)
Chen S.T.,and Guo F.Q.,2013,Heat stress tolerance and signaling in plants,Zhongguo Kexue Shengming Kexue(Scientia Sinica Vitae),43(12):1072-1081(陈思婷,郭房庆,2013,植物耐热性及热激信号转导机制研究进展,中国科学:生命科学,43(12):1072-1081)
Chen T.H.H.,and Murata N.,2002,Enhancement of tolerance of abiotic stress by metabolic engineering of betaines and other compatible solutes,Curr.Opin.Plant Biol.,5:250-257
Du G.D.,Lv D.G.,Zhao L.,Wang S.S.,and Cai Q.,2011,Effects of high temperature on leaf photosynthetic characteristics and photosystemⅡphotochemical activity of kernel-used apricot,Yingyong Shengtai Xuebao(Chinese Journal of Applied Ecology),22(3):701-706(杜国栋,吕德国,赵玲,王素素,蔡倩,2011,高温对仁用杏光合特性及PSⅡ光化学活性的影响,应用生态学报,22(3):701-706)
Dylewski D.P.,Singh N.K,and Cherry J.H.,1991,Effects of heat shock and thermoadaptation on the ultrastructure of cowpea(Vigna unguiculata)cells,Protoplasma,163(2-3):125-135
Giorno F.,Guerriero G.,Baric S.,and Mariani C.,2012,Heat shock transcriptional factors in Malus domestica:identification,classification and expression analysis,BMC Genomics,13(1):639
Guo Y.P.,Zhou H.F.,Zeng G.H.,and Zhang L.C.,2003,Effects of high temperature stress on net photosynthetic rate and photosystemⅡactivity in citrus,Yingyong Shengtai Xuebao(Chinese Journal of Applied Ecology),14(6):867-870(郭延平,周慧芬,曾光辉,张良诚,2003,高温胁迫对柑橘光合速率和光系统Ⅱ活性的影响,应用生态学报,14(6):867-870)
Han C.,Xie W.H.,Li J.G.,Qin Y.T.,Jiang M.B.,Liu S.Y.H.,and Wang X.K.,2015,Gene expression profile of haloxylon branch under the stresses of drought and heat in summer season,Jiyinzuxue Yu Yingyong Shengwuxue(Genomics and Applied Biology),34(3):607-614(韩超,谢文华,李建贵,秦韵婷,蒋劢博,刘隋赟昊,王宪奎,2015,夏季高温干旱逆境下梭梭枝条中转录组表达谱分析,基因组学与应用生物学,34(3):607-614)
Howarth C.J.,and Ougham H.J.,1993,Gene expression under temperature stress,New Phytol.,125(1):1-26
Hu A.S.,Jiang B.F.,Guan Y.L.,Mou L.H.,and Li H.F.,1993Characteristics of flower and fruit drop of satsuma mandarin under high temperature stress,Yuanyi Xuebao(Acta Horticulturae Sinica),20(1):91-92(胡安生,蒋斌芳,管彦良,牟莉桦,李惠丰,1993,高温胁迫下温州蜜柑落花落果的特点,园艺学报,20(1):91-92)
Hu Y.,Han Y.T.,Wei W.,Li Y.J.,Zhang K.,Gao Y.R.,Zhao FL.,and Feng J.Y.,2015,identification,Isolation,and expression analysis of heat shock transcription factors in the diploid woodland strawberry Fragaria vesca,Front.Plan Sci.,6:736
Hu Y.,Han Y.T.,Zhang K.,Zhao F.L.,Li Y.J.,Zheng Y.,Wang Y.J.,and Wen Y.Q.,2016,Identification and expression analysis of heat shock transcription factors in the wild Chinese grapevine(Vitis pseudoreticulata),Plant Physiol.Biochem.,99:1-10
Ji W.W.,Qiu C.H.,Jiao Y.,Guo Y.P.,and Teng Y.W.,2012,Effects of high temperature and strong light on photosynthesis D1 protein,and the Deg1 protease in pear(Pyrus pyrifolia)leaves,Guoshu Xuebao(Journal of Fruit Science),29(5)794-799(计玮玮,邱翠花,焦云,郭延平,滕元文,2012,高温强光胁迫对砂梨叶片光合作用、D1蛋白和Deg1蛋白酶的影响,果树学报,29(5):794-799)
Jin J.,Lu X.Y.,and Wang Y.,2014,Advances in the studies on salt tolerance of fruit trees,Yuanyi Xuebao(Acta Horticulturae Sinica),41(9):1761-1776(靳娟,鲁晓燕,王依,2014果树耐盐性研究进展,园艺学报,41(9):1761-1776)
Kang X.L.,Wang G.P.,Hu W.,and Yu S.L.,2006,Analysis of Correlative location between chloroplast and mitochondria of mesophyll cell in grape plants under high temperature stress,Xibei Nongye Xuebao(Acta Agriculturae Boreali-occidentalis Sinica),15(2):120-123(康喜亮,王果平,胡伟,郁松林,2006,高温逆境下葡萄叶肉细胞叶绿体与线粒体位置相关性分析,西北农业学报,15(2):120-123)
Kawano T.,Sahashi N.,Takahashi K.,Uozumi N.,and Muto S.1998,Salicylic acid induces extracellular superoxide generation followed by an increase in cytosolic calcium ion in tobacco suspension culture:the earliest events in salicylic acid signal transduction,Plant Cell Physiol.,39(7):721-730
Klein J.D.,and Ferguson I.B.,1987,Effect of high temperature on calcium uptake by suspension cultured pear fruit cells Plant Physiol.,84(1):153-156
Kobayashi M.,Katoh H.,Takayanagi T.,and Suzuki S.,2010Characterization of thermotolerance-related genes in grapevine(Vitis vinifera),J.Plant Physiol.,167(10):812-819
Kregel K.C.,2002,Invited review:heat shock proteins:modifying factors in physiological stress responses and acquired thermotolerance,J.Appl.Physiol.,92(5):2177-2186
Li B.,Liu H.T.,Sun D.Y.,and Zhou R.G.,2002,Signal transduction mechanism of plant heat shock response,Zhiwu Shengli Yu Fenzi Shengwuxue Xuebao(Journal of Plant Physiology And Molecular Biology),28(1):1-10(李冰,刘宏涛,孙大业,周人纲,2002,植物热激反应的信号转导机理,植物生理与分子生物学学报,28(1):1-10)
Li Y.,Li L.,Chen X.D.,Ye B.X.,and Gao D.S.,2011,Effects of high temperature on the anther and pollen development of sweet cherry in solar greenhouse,Yuanyi Xuebao(Acta Horticulturae Sinica),38(6):1029-1036(李燕,李玲,陈修德,叶宝兴,高东升,2011,高温对设施甜樱桃花药发育和花粉粒形成的影响,园艺学报,38(6):1029-1036)
Lin Q.,Jiang Q.,Lin J.Y.,Wang D.L.,Li S.J,Liu C.R.,Sun C.D.,and Chen K.S.,2015,Heat shock transcription factors expression during fruit development and under hot air stress in Ponkan(Citrus reticulata Blanco cv.Ponkan)fruit,Gene,559(2):129-136
Liu D.F.,Zhang D.,Liu G.Q.,Hussain S.,and Teng Y.W.,2013,Influence of heat stress on leaf ultrastructure,photosynthetic performance,and ascorbate peroxidase gene expression of two pear cultivars(Pyrus pyrifolia),J.Zhejiang Univ.Sci.,14(12):1070-1083
Liu H.C.,and Charng Y.Y.,2012,Acquired thermotolerance independent of heat shock factor A1(HsfA1),the master regulator of the heat stress response,Plant Signal.Behav.,7(5):547-550
Liu Y.P.,Huang W.D.,and Zhang J.H.,2005,Effect of calcium-calmodulin on the thermtolerance induced by salicylic acid in young grape seedlings and associated with antioxidant system,Yuanyi Xuebao(Acta Horticulturae Sinica),32(3):381-386(刘悦萍,黄卫东,张俊环,2005,钙-钙调素对水杨酸诱导葡萄幼苗耐热性的影响及与抗氧化的关系,园艺学报,32(3):381-386)
Liu Y.P.,Huang W.D.,and Zhang J.H.,2006,Effect of heat acclimation and SA pretreat on the ultrastructure of mesophyll cell in grape plants under heat shock,Yuanyi Xuebao(Acta Horticulturae Sinica),33(3):491-495(刘悦萍,黄卫东,张俊环,2006,高温锻炼和水杨酸预处理对热激下葡萄叶肉细胞超微结构的影响,园艺学报,33(3):491-495)
Long S.P.,Humphries S.,and Falkowski P.G.,1994,Photoinhibi tion of photosynthesis in nature,Ann.Rev.Plant Biol.,45(1):633-662
Luo H.B.,Ma L.,Duan W.,Li S.H.,and Wang L.J.,2010,Influence of heat stress on photosynthesis in Vitis vinifera L.cv.cabernet sauvignon,Zhongguo Nongye Kexue(Scientia A-gricultura Sinica),43(13):2744-2750(罗海波,马苓,段伟,李绍华,王利军,2010,高温胁迫对‘赤霞珠’葡萄光合作用的影响,中国农业科学,43(13):2744-2750)
Luo H.B.,Ma L.,Xi H.F.,Duan W.,Li S.H.,Loescher W.,Wang F.J.,and Wang L.J.,2011,Photosynthetic responses to hea treatments at different temperatures and following recovery in grapevine(Vitis amurensis L.)leaves,PLoS One,6(8):e23033
Ma Y.H.,Ma F.W.,Zhang J.K.,Li M.J.,Wang Y.H.,and Liang D.,2008,Effects of high temperature on activities and gene expression of enzymes involved in ascorbate-glutathione cycle in apple leaves,Plant Sci.,175(6):761-766
Matés J.M.,Pérez-Gómez C.,De Castro I.N.,Asenjo M.,and Márquez J.,2002,Glutathione and its relationship with intracellular redox status,oxidative stress and cell proliferation death,Int.J.Biochem.Cell Biol.,34(5):439-458
Miller G.,Shulaev V.,and Mittler R.,2008,Reactive oxygen signaling and abiotic stress,Physiol.Plant.,133(3):481-489
Mittler R.,2002,Oxidative stress,antioxidants and stress tolerance,Trends Plant Sci.,7(9):405-410
Murata N.,Takahashi S.,Nishiyama Y.,and Allakhverdiev S.I.2007,Photoinhibition of photosystem II under environmental stress,Biochim.Biophys.Acta,1767(6):414-421
Ou Z.L.,Cao F.L.,and Zheng J.,2008,The changes of physiobiochemistry and morphological characteristics of Ginkgo biloba L.subjected to high temperature stress,Nanjing Linye Daxue Xuebao(Journal of Nanjing Forestry University),32(3):31-34(欧祖兰,曹福亮,郑军,2008,高温胁迫下银杏形态及生理生化指标的变化,南京林业大学学报,32(3):31-34)
Pareek A.,Singla S.L.,and Grover A.,1997,Short-term salinity and high temperature stress-associated ultrastructural alterations in young leaf cells of Oryza sativa L.,Ann.Bot.,80(5):629-639
Peng S.B.,Zhu Z.G.,Zhao K.,Shi J.L.,Yang Y.Z.,He M.Y.,and Wang Y.J.,2013,A novel heat shock transcription factor VpHsf1,from Chinese wild Vitis pseudoreticulata is involved in biotic and abiotic stresses,Plant Mol.Biol.Rep.31(1):240-247
Qiao X.,Li M.,Li L.T.,Yin H.,Wu J.Y.,and Zhang S.L.,2015Genome-wide identification and comparative analysis of the heat shock transcription factor family in Chinese white pear(Pyrus bretschneideri)and five other Rosaceae species,BMCPlant Biol.,15(1):12
Qiu C.H.,Ji W.W.,and Guo Y.P.,2011,Effects of high temperature and strong light on chlorophyll fluorescence,the D1protein,and Deg1 protease in Satsuma mandarin,and the protective role of salicylic acid,Shengtai Xuebao(Acta E-cologia Sinica),31(13):3802-3810(邱翠花,计玮玮,郭延平,2011,高温强光对温州蜜柑叶绿素荧光、D1蛋白和Deg1蛋白酶的影响及SA效应,生态学报,31(13):3802-3810)
Ristic Z.,and Cass D.D.,1992,Chloroplast structure after water and high-temperature stress in two lines of maize that differ in endogenous levels of abscisic acid,Int.J.Plant Sci.,153(2):186-196
Scharf K.D.,Rose S.,Zott W.,Schoffl F.,and Nover L.,1990,Three tomato genes code for heat stress transcription factors with a region of remarkable homology to the DNA-binding domain of the yeast HSF,EMBO J.,9(13):4495-4501
Shigeoka S.,Ishikawa T.,Tamoi M.,Miyagawa Y.,Takeda T.,Yabuta Y.,and Yoshimura K.,2002,Regulation and function of ascorbate peroxidase isoenzymes,J.Exp.Bot.,53(372):1305-1319
Smirnoff N.,1993,The role of active oxygen in the response of plants to water deficit and desiccation,New Phytol.,125:27-58
Sun F.,Xia X.L.,and Yin W.L.,2009,The mutual regulations between ABA and calcium signal transduction pathways under abiotia stress,Jiyinzuxue Yu Yingyong Shengwuxue(Genomics and Applied Biology),28(2):391-397(孙芳,夏新莉,尹伟伦,2009,逆境胁迫下ABA与钙信号转导途径之间的相互调控机制,基因组学与应用生物学,28(2):391-397)
Sun J.L.,2015,Study of exogenous salicylic acid on physiological characteristics and the nature of protein kinase of grape young plants under high temperature stress,Thesis for M.S.,Shihezi University,Supervisor:Yu S.L.,pp.11(孙军利,2015,外源水杨酸对高温胁迫下葡萄幼苗生理特性的影响及诱导的蛋白激酶性质研究,硕士学位论文,石河子大学,导师:郁松林,pp.11)
Sun J.L.,Zhao B.L.,and Yu S.L.,2014a,Study of exogenous salicylic acid(SA)on the heat tolerance in grape seedlings under high temperature stress,Shuitu Baochi Xuebao(Journal of Soil and Water Conservation),28(3):290-294(孙军利,赵宝龙,郁松林,2014a,外源水杨酸(SA)对高温胁迫下葡萄幼苗耐热性诱导研究,水土保持学报,28(3):290-294)
Sun J.L.,Zhao B.L.,and Yu S.L.,2014b,Effect of exogenous salicylic acid on antioxidant enzymes activities and antioxidants contents in grape seedlings under high temperature stress,Zhiwu Shengli Xuebao(Plant Physiology Journal),50(7):1014-1018(孙军利,赵宝龙,郁松林,2014b,外源水杨酸对高温胁迫下葡萄几种抗氧化酶活性和抗氧化物含量的影响,植物生理学报,50(7):1014-1018)
Sung D.Y.,Kaplan F.,Lee K.J.,and Guy C.L.,2003,Acquired tolerance to temperature extremes,Trends Plant Sci.,8(4):179-187
Swindell W.R.,Huebner M.,and Weber A.P.,2007,Transcriptional profiling of Arabidopsis heat shock proteins and transcription factors reveals extensive overlap between heat and non-heat stress response pathways,BMC Genomics,8:125
Tang Z.Y.,Lv M.,Zhang X.,Xu H.X.,and Zhang H.L.,2006High temperature physical coercion to several indicators of the impact of grape leaves,Shihezi Daxue Xuebao(Journa of Shihezi University),24(2):198-200(汤照云,吕明,张霞徐海霞,张慧莉,2006,高温胁迫对葡萄叶片三项生理指标的影响,石河子大学学报,24(2):198-200)
Tarora K.,Tamaki M.,Shudo A.,Urasaki N.,Matsumura H.,and Adaniya S.,2010,Cloning of a heat stress transcription factor,CphsfB1,that is constitutively expressed in radicles and is heat-inducible in the leaves of Carica papaya,Plant Cel Tiss.Org.,102(1):69-77
Tian W.J.,Yin X.R.,Li X.,and Chen K.S.,2017,Regulation of stress responses by heat stress transcription factors(Hsfs)in plants,Yuanyi Xuebao(Acta Horticulturae Sinica),44(1):179-192(田尉婧,殷学仁,李鲜,陈昆松,2017,热激转录因子调控植物逆境响应研究进展,园艺学报,44(1):179-192)
Vierling E.,1991,The roles of heat shock proteins in plants Ann.Rev.Plant Biol.,42(1):579-620
Walbot V.,2011,How plants cope with temperature stress,BMCBiology,9(1):79
Wang J.,Ou Y.,Wu Z.,Dai Z.L.,and Liu S.W.,2011,Effects of high temperature stress on physiological indicators,early defoliation of early maturing pear,Xinan Nongye Xuebao(Southwest China Journal of Agricultural Sciences),24(2)546-551(王进,欧毅,武峥,代正林,刘圣维,2011,高温胁迫对早熟梨生理效应和早期落叶的影响,西南农业学报24(2):546-551)
Wang L.J.,and Huang W.D.,2000,Heat stress and its signa transduction,Zhiwuxue Tongbao(Chinese Bulletin of Botany),17(2):114-120(王利军,黄卫东,2000,高温胁迫及其信号转导,植物学通报,17(2):114-120)
Wang L.J.,and Li S.H.,2006,Salicylic acid-induced heat or cold tolerance in relation to Ca2+homeostasis and antioxidant systems in young grape plants,Plant Sci.,170(4):685-694
Wang L.J.,Fan L.,Loescher W.,Duan W.,Liu G.J.,Cheng J.S.and Li S.H.,2010,Salicylic acid alleviates decreases in photosynthesis under heat stress and accelerates recovery in grapevine leaves,BMC Plant Biol.,10(1):34
Wang L.J.,Huang W.D.,Li J.Y.,Liu Y.F.,and Shi Y.L.,2004a Peroxidation of membrane lipid and Ca2+homeostasis in grape mesophyll cells during the process of cross-adaptation to temperature stresses,Plan Sci.,167:71-77
Wang L.J.,Huang W.D.,Liu J.C.,and Zhan J.C.,2005,Changes in salicylic acid and abscisic acid during heat acclimation and their effect on thermotolerance of grape plants,Russian J.Plant Physiol.,52(4):572-583
Wang Q.Z.,Liu Q.,Gao Y.N.,and Liu X.,2017,Reviews on the mechanisms of the response to salinity-alkalinity stress in plants,Shengtai Xuebao(Acta Ecologica Sinica),37(16):5565-5577(王佺珍,刘倩,高娅妮,柳旭,2017,植物对盐碱胁迫的响应机制研究进展,生态学报,37(16):5565-5577)
Wang T.,Tian X.Y.,Xie Y.F.,and Zhang W.X.,2013,Research advance on heat-stress tolerance in plants,Yunnan Nongye Daxue Xuebao(Journal of Yunnan Agricultural University),28(5):719-726(王涛,田雪瑶,谢寅峰,张往祥,2013,植物耐热性研究进展,云南农业大学学报,28(5):719-726)
Wang W.X.,Vinocur B.,Shoseyov O.,and Altman A.,2004b,Role of plant heat-shock proteins and molecular chaperones in the abiotic stress response,Trends Plant Sci.,9(5):244-252
Wei L.Y.,Mo L.,Zeng D.J.,and Yuan W.Y.,2008,The diurnal changes in leaf gas exchange of Actinidia chinensis cv.Guihaia 4,Xibei Nongye Xuebao(Acta Agriculturae Boreali-Occidentalis Sinica),17(6):107-112(韦兰英,莫凌,曾丹娟,袁维园,2008,桂北地区中华猕猴桃光合作用的日变化特征,西北农业学报,17(6):107-112)
Wen P.F.,Chen J.Y.,Wan S.B.,Kong W.F.,Zhang P.,Wang W.,and Huang W.D.,2008,Salicylic acid activates phenylalanine ammonia-lyase in grape berry in response to high temperature stress,Plant Growth Regu.,55(1):1-10
Wu Y.Y.,2001,Influence of high temperature stress on the growth and development of fujiminori grape variety,Guoshu Xuebao(Journal of Fruit Science),18(5):280-283(吴月燕,2001,高温胁迫对藤稔葡萄生长结果的影响,果树学报,18(5):280-283)
Xu C.S.,and Xu A.H.,2014,Effects of high temperature on germination and growth of apple pollen in style,Zhiwu Shengli Xuebao(Plant Physiology Journal),50(1):51-55(徐臣善,徐爱红,2014,高温对苹果花粉在花柱内萌发和生长的影响,植物生理学报,50(1):51-55)
Xu Q.,Paulsen,A.Q.,Guikema J.A.,and Paulsen G.M.,1995,Functional and ultrastructural injury to photosynthesis in wheat by high temperature during maturation,Environ.Exp.Bot.,35(1):43-54
Yang G.Y.,Jia C.X.,Sun Y.D.,Li M.,and Zhai M.Z.,2015,Jrs HSP17.3 cloning from Juglans regia and its expression in response to temperature stresses,Xibei Zhiwu Xuebao(Acta Botanica Boreali-Occidentalia Sinica),35(9):1752-1756(杨桂燕,贾彩霞,孙宇栋,李鸣,翟梅枝,2015,核桃JrsH-SP17.3基因克隆及温度胁迫响应模式分析,西北植物学报,35(9):1752-1756)
Ye X.Y.,Ma F.W.,Wang S.C.,and Liang D.,2004,Physiological effects of kiwifruit lamina under high temperature stress,Xibei Nonglin Keji Daxue Xuebao(Journal of Northwest Aand F University(Natural Science Edition)),32(12):33-37(耶兴元,马锋旺,王顺才,梁冬,2004,高温胁迫对猕猴桃幼苗叶片某些生理效应的影响,西北农林科技大学学报(自然科学版),32(12):33-37)
Ye Z.W.,Du J.H.,Su M.S.,Li L.L.,and Zhang S.L.,2010,Effects of high temperature on the microsporogenesis and pollen development of peach,Yuanyi Xuebao(Acta Horticulturae Sinica),37(3):355-362(叶正文,杜纪红,苏明申李六林,张绍铃,2010,高温对桃花粉发育及小孢子产生的影响,园艺学报,37(3):355-362)
Yin Y.Q.,Hu J.B.,and Deng M.J.,2007,Latest development of antioxidant system and responses to stress in plant leaves Zhongguo Nongxue Tongbao(Chinese Agricultural Science Bulletin),23(1):105-110(尹永强,胡建斌,邓明军,2007植物叶片抗氧化系统及其对逆境胁迫的响应研究进展中国农学通报,23(1):105-110)
You C.,Shen H.,Guo S.R.,and Sun J.,2016,Physiological characteristics of nectarine seedlings under high temperature stress,Zhongguo Nongxue Tongbao(Chinese Agricultural Science Bulletin),32(10):79-84(尤超,沈虹,郭世荣,孙锦2016,高温逆境胁迫对油桃生理特征影响的研究,中国农学通报,32(10):79-84)
Zhang J.,Liu B.B.,Li J.B.,Zhang L.,Wang Y.,Zheng H.Q.,Lu M.Z.,and Chen J.,2015,Hsf and Hsp gene families in populus:genome-wide identification,organization and correlated expression during development and in stress responses BMC Genomics,16(1):181
Zhang R.J.,Li Y.,Yu X.M.,Lou Y.S.,Xu W.P.,Zhang C.X.Zhao L.P.,and Wang S.P.,2015,Effects of heat stress and exogenous brassinolide on photosynthesis of leaves and berry quality of'Kyoho'grapevine,Guoshu Xuebao(Journal of Fruit Science),32(4):590-596(张睿佳,李瑛,虞秀明,娄玉穗,许文平,张才喜,赵丽萍,王世平,2015,高温胁迫与外源油菜素内酯对‘巨峰’葡萄叶片光合生理和果实品质的影响,果树学报,32(4):590-596)
Zhang Y.,Mian M.R.,Chekhovskiy K.,So S.,Kupfer D.,Lai H.,and Roe B.A.,2005,Differential gene expression in Festuca under heat stress conditions,J.Exp.Bot.,56(413):897-907
Zhao L.Y.,Deng X.P.,and Shan L.,2005,The response mechanism of active oxygen species removing system to drought stress,Xibei Zhiwu Xuebao(Acta Botanica Boreali-Occidentalia Sinica),25(2):413-418(赵丽英,邓西平,山仑,2005,活性氧清除系统对干旱胁迫的响应机制,西北植物学报,25(2):413-418)
Zhou B.Y.,Chen H.B.,Xiang C.H.,Liu W.Q.,Li N.,Hu Z.X.,Huang X.M.,and Zhang S.,2010,Flowering of'Sanyuehong'litchi with treatments of different temperature regimes,Yuanyi Xuebao(Acta Horticulturae Sinica),37(7):1041-1046(周碧燕,陈厚彬,向炽华,刘伟强,李宁,胡志群,黄旭明,张思,2010,‘三月红’荔枝不同温度处理的成花效应,园艺学报,37(7):1041-1046)
Zou J.,Chen X.B.,Liu A.L.,Gao G.F.,and Zhu M.L.,2007,Plant heat shock proteins and crop abiotic stress tolerance improvement,Zhiwu Shenglixue Tongxun(Plant Physiology Communication),43(5):981-985(邹杰,陈信波,刘爱玲,高国赋,朱木兰,2007,植物热激蛋白与作物非生物抗逆性的改良,植物生理学通讯,43(5):981-985)