高温对棉花生殖生长及其生理生化过程的影响
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摘要
高温逆境严重影响棉花的生殖生长及生理生化过程,特别棉花有性生殖过程对高温极为敏感,常导致棉花发育迟缓,花粉育性下降,蕾、铃脱落率增加,产量显著降低。随着全球气温升高,极端高温天气频繁出现,特别在长江、黄河流域超35℃的天气持续时间长,且正值棉花开花、结铃盛期,导致棉花产量和品质降低。因此,作者参阅有关文献综述了高温胁迫对棉花生殖生长及生理生化过程的影响,并指出了缓解棉花高温胁迫危害的对策,以期为选育耐高温棉花品种提供理论帮助。
引文
[1]John J Burke,Donald F Wanjura.Plant responses to temperature extremes[J].Physiology of cotton,2010(12):123-128.
[2]Remzi E,Sema B,Emine K,et al.The effects of high temperature stress on some agronomic characters in cotton[J].Pak.J.Bot.2017,49(2):503-508.
[3]邓茳明,熊格生,袁小玲,等.棉花不同耐高温品系的SOD、POD、CAT活性和MDA含量差异及其对盛花期高温胁迫的响应[J].棉花学报,2010,22(3):242-247.
[4]王苗苗.高温逆境对陆地棉雄蕊性生殖系统的影响[D].南京:南京农业大学,2009.
[5]Pettigrew W T.The effect of higher temperatures on cotton lint yield production and fiber quality[J].Crop Science.2008,48:278-285.
[6]Reddy V R,Reddy K R,Hodges H F.temperature effects on growth and development of cotton during the fruiting period[J].Agronomy Journal.1991,83:211-217.
[7]宋桂成,王苗苗,曾斌,等.高温对棉花生殖过程的影响[J].核农学报,2016,30(2):0404-0411.
[8]宋桂成,王苗苗,陈全战,等.陆地棉花器官耐高温性的评价指株研究[J].棉花学报.2015,27(6):495-505.
[9]蔡义东,袁小玲,邓茳明,等.基于花粉萌发与结铃性表现选育耐高温高产杂交棉[J].湖南农业大学学报(自然科学版),2010,36(2):119-122.
[10]夏广亮,张权,马志红.高温胁迫对植物花器官发育和生殖过程的影响[J].现代农业科学,2012,48(6):284-285.
[11]Liu Z,Yuan Y L,Liu S Q,et al.Screening for high temperature tolerant cotton cultivars by Testing in vitro Pollen germination,Pollen tube growth and boll retention[J].J Integ Plant Bio,2006,48(6):706-714.
[12]王苗苗,唐灿明.高温胁迫后的棉花花粉活力测定方法[J].江苏农业科学,2010,26(2):236-239.
[13]于艳杰,吴李君,吴跃进,等.陆地棉花粉粒萌发和花粉管生长特性[J].自然科学进展,2007,17(9):1299-1303.
[14]Burke J,Jeff V,Melvin J O.In vitro analysis of cotton pollen germination[J].Agron J,2004,96:359-368.
[15]Kakani V G,Reddy K R,Koti S,et al.Differences in vitro pollen germination and pollen tub growth of cotton cultivars in response to high temperature[J].Ann Bot,2005,96:59-67.
[16]郑冬官,方其英,蔡永立.高温对棉花花粉生活力的影响[J].棉花学报,1995,7(1):31-32.
[17]Song G C,Chen Q Z,Tang C M.The effects of high-temperature stress on the germination of pollen grains of upland cotton during square development[J].Euphytica,2014,200(2):175-186.
[18]Song G C,Wang M M,Zeng B,et al.Anther response to high-temperature stress during development and pollen thermo tolerance heterosis as revealed by pollen tube growth and in vitro pollen vigor analysis in upland cotton[J].Planta,2015,241(5):1271-1285.
[19]叶发林.棉花耐热种质资源的筛选与鉴定[D].合肥:安徽农业大学,2015.
[20]Akhtar N G,Abbas K,Hussain N,et al.Impact of heat induced sterility on some genotypes of upland cotton under field conditions[J].Int.J.Agric.Appl.Sci,2013,5:2-4.
[21]Cottee N S,Tan D K Y,Bange M P,et al.Multi-level determination of heat tolerance in cotton(Gossypium hirsutum L.)under field conditions[J].Crop Sci,2010,50:2553-2564.
[22]Farooq J,Khalid M,Muhammad W A,et al.High temperature stress in cotton Gossypium hirsutum L[J].ELBA Bioflux,2015,7(1):34-44.
[23]李敏,马均,王贺正,等.水稻开花期高温肋迫条件下生理生化特性的变化及其与品种耐热性的关系[J].杂交水稻,2007,22(6):62-66.
[24]Timothy A and Michael A.Challenges and perspectives on improving heat and drought stress resilience in cotton[J].The Journal of Cotton Science,2014,18:393-409.
[25]Ding Y H,Ma Y,Liu N,et al.micro RNAs involved in auxin signalling modulate male sterility under high-temperature stress in cotton(Gossypium hirsutum)[J].The Plant Journal,2017,91:977-994.
[26]袁小玲,熊格生,邓茳明,等.三个不同耐高温棉花基因型主茎叶的生理生化特征[J].棉花学报,2009,21(6):492-496.
[27]杨威,朱建强,吴启侠,等.花铃期短期渍水和高温对棉花叶片光合特性、膜脂过氧化代谢及产量的影响[J].棉花学报,2016,28(5):504-512.
[28]Almese L M,Deshmukh P S,Sairam R K,et al.Protective role of antioxidant enzymes under high temperature stress[J].Plant Science,2006,171:382-388.
[29]刘萍,郭文善,浦汉春,等.灌浆期高温对小麦剑叶抗氧化酶及膜脂过氧化的影响[J].中国农业科学,2005,38(12):2403-2407.
[30]方丽平,汪瑞清,杨国正.热激处理对棉花耐逆性的影响[J].棉花学报,2009,21(1):46-50.
[31]童昌华,李三玉.温州蜜柑异常高温骨灰盒内源IAA和ABA含量的变化[J].园艺学进展,1994:389-391.
[32]李文丹,雒珺瑜,张帅,等.高温胁迫对棉花内源激素的影响[J].中国棉花,2016,43(6):14-16.
[33]李静,崔继哲,弭晓菊.生长素与植物逆境胁迫关系的研究进展[J].生物技术通报,2012(6):13-17.
[34]Tang R S,Zheng J C,Jin Z Q,et al.Possible correlation between high temperatureinduced floret sterility and endogenous levels of IAA,Gas and ABA in rice(Oryza sativa L.)[J].Plant Growth Regulation,2008,54(1):37-43.
[35]杨立飞,张玉华,缪旻珉,等.高温胁迫对黄瓜授粉后雌花中Ca2+分布、ABA及蛋白质合成的影响[J].西北植物学报,2006,26(2):234-240.
[36]杨长琴.转Bt基因棉杀虫蛋白表达和氮代谢特性及其受高温影响的研究[D].扬州:扬州大学,2003.
[37]刘少卿.不同棉花种质资源耐热性鉴定及热激效应分析[D].北京:中国农业科学院,2011.
[38]陈德华,杨长琴,陈源,等.高温胁迫对Bt棉叶片杀虫蛋白表达量和氮代谢影响的研究[J].棉花学报,2003,15(5):288-292.
[39]李雪梅,李玥莹,马莲菊,等.逆境胁迫下水稻蛋白质组学研究进展[J].沈阳师范大学学报(自然科学版),2009(3):115-162.
[40]宋桂成.陆地棉雄蕊耐热性及耐热相关基因克隆与功能研究[D].南京:南京农业大学,2014.
[41]葛晓阳.陆地棉热激蛋白基因s HSP7和s HSP8克隆及功能分析[D].南京:南京农业大学,2012.
[42]Singh R P,Prasad P V,Sunita V K,et al.Influence of high temperature and breeding for heat tolerance in cotton:a review[J].Advance in Agronomy,2007,93:315-385.
[43]贺彭毅.不同耐高温棉花叶片光合作用特性研究[D].长沙:湖南农业大学,2011.
[44]Zhang G L,Chen L Y,Zhang S T,et al.Effects of high temperature on physiological and biochemical characteristics in flag leaf of rice during heading and flowering period[J].Scientia Agriculture Sinica.2007,40(7):1345-1352.
[45]Bibi A D,Oosterhuis D M and Gonias E.D.Photosynthesis,quantum yield of photosystem II and membrane leakage as affected by high temperatures in cotton genotypes[J].J Cotton Sci,2008,12:150-159..
[46]邓茳明.棉花对高温逆境耐性的生理生化基础研究[D].长沙:湖南农业大学,2010.
[2]Remzi E,Sema B,Emine K,et al.The effects of high temperature stress on some agronomic characters in cotton[J].Pak.J.Bot.2017,49(2):503-508.
[3]邓茳明,熊格生,袁小玲,等.棉花不同耐高温品系的SOD、POD、CAT活性和MDA含量差异及其对盛花期高温胁迫的响应[J].棉花学报,2010,22(3):242-247.
[4]王苗苗.高温逆境对陆地棉雄蕊性生殖系统的影响[D].南京:南京农业大学,2009.
[5]Pettigrew W T.The effect of higher temperatures on cotton lint yield production and fiber quality[J].Crop Science.2008,48:278-285.
[6]Reddy V R,Reddy K R,Hodges H F.temperature effects on growth and development of cotton during the fruiting period[J].Agronomy Journal.1991,83:211-217.
[7]宋桂成,王苗苗,曾斌,等.高温对棉花生殖过程的影响[J].核农学报,2016,30(2):0404-0411.
[8]宋桂成,王苗苗,陈全战,等.陆地棉花器官耐高温性的评价指株研究[J].棉花学报.2015,27(6):495-505.
[9]蔡义东,袁小玲,邓茳明,等.基于花粉萌发与结铃性表现选育耐高温高产杂交棉[J].湖南农业大学学报(自然科学版),2010,36(2):119-122.
[10]夏广亮,张权,马志红.高温胁迫对植物花器官发育和生殖过程的影响[J].现代农业科学,2012,48(6):284-285.
[11]Liu Z,Yuan Y L,Liu S Q,et al.Screening for high temperature tolerant cotton cultivars by Testing in vitro Pollen germination,Pollen tube growth and boll retention[J].J Integ Plant Bio,2006,48(6):706-714.
[12]王苗苗,唐灿明.高温胁迫后的棉花花粉活力测定方法[J].江苏农业科学,2010,26(2):236-239.
[13]于艳杰,吴李君,吴跃进,等.陆地棉花粉粒萌发和花粉管生长特性[J].自然科学进展,2007,17(9):1299-1303.
[14]Burke J,Jeff V,Melvin J O.In vitro analysis of cotton pollen germination[J].Agron J,2004,96:359-368.
[15]Kakani V G,Reddy K R,Koti S,et al.Differences in vitro pollen germination and pollen tub growth of cotton cultivars in response to high temperature[J].Ann Bot,2005,96:59-67.
[16]郑冬官,方其英,蔡永立.高温对棉花花粉生活力的影响[J].棉花学报,1995,7(1):31-32.
[17]Song G C,Chen Q Z,Tang C M.The effects of high-temperature stress on the germination of pollen grains of upland cotton during square development[J].Euphytica,2014,200(2):175-186.
[18]Song G C,Wang M M,Zeng B,et al.Anther response to high-temperature stress during development and pollen thermo tolerance heterosis as revealed by pollen tube growth and in vitro pollen vigor analysis in upland cotton[J].Planta,2015,241(5):1271-1285.
[19]叶发林.棉花耐热种质资源的筛选与鉴定[D].合肥:安徽农业大学,2015.
[20]Akhtar N G,Abbas K,Hussain N,et al.Impact of heat induced sterility on some genotypes of upland cotton under field conditions[J].Int.J.Agric.Appl.Sci,2013,5:2-4.
[21]Cottee N S,Tan D K Y,Bange M P,et al.Multi-level determination of heat tolerance in cotton(Gossypium hirsutum L.)under field conditions[J].Crop Sci,2010,50:2553-2564.
[22]Farooq J,Khalid M,Muhammad W A,et al.High temperature stress in cotton Gossypium hirsutum L[J].ELBA Bioflux,2015,7(1):34-44.
[23]李敏,马均,王贺正,等.水稻开花期高温肋迫条件下生理生化特性的变化及其与品种耐热性的关系[J].杂交水稻,2007,22(6):62-66.
[24]Timothy A and Michael A.Challenges and perspectives on improving heat and drought stress resilience in cotton[J].The Journal of Cotton Science,2014,18:393-409.
[25]Ding Y H,Ma Y,Liu N,et al.micro RNAs involved in auxin signalling modulate male sterility under high-temperature stress in cotton(Gossypium hirsutum)[J].The Plant Journal,2017,91:977-994.
[26]袁小玲,熊格生,邓茳明,等.三个不同耐高温棉花基因型主茎叶的生理生化特征[J].棉花学报,2009,21(6):492-496.
[27]杨威,朱建强,吴启侠,等.花铃期短期渍水和高温对棉花叶片光合特性、膜脂过氧化代谢及产量的影响[J].棉花学报,2016,28(5):504-512.
[28]Almese L M,Deshmukh P S,Sairam R K,et al.Protective role of antioxidant enzymes under high temperature stress[J].Plant Science,2006,171:382-388.
[29]刘萍,郭文善,浦汉春,等.灌浆期高温对小麦剑叶抗氧化酶及膜脂过氧化的影响[J].中国农业科学,2005,38(12):2403-2407.
[30]方丽平,汪瑞清,杨国正.热激处理对棉花耐逆性的影响[J].棉花学报,2009,21(1):46-50.
[31]童昌华,李三玉.温州蜜柑异常高温骨灰盒内源IAA和ABA含量的变化[J].园艺学进展,1994:389-391.
[32]李文丹,雒珺瑜,张帅,等.高温胁迫对棉花内源激素的影响[J].中国棉花,2016,43(6):14-16.
[33]李静,崔继哲,弭晓菊.生长素与植物逆境胁迫关系的研究进展[J].生物技术通报,2012(6):13-17.
[34]Tang R S,Zheng J C,Jin Z Q,et al.Possible correlation between high temperatureinduced floret sterility and endogenous levels of IAA,Gas and ABA in rice(Oryza sativa L.)[J].Plant Growth Regulation,2008,54(1):37-43.
[35]杨立飞,张玉华,缪旻珉,等.高温胁迫对黄瓜授粉后雌花中Ca2+分布、ABA及蛋白质合成的影响[J].西北植物学报,2006,26(2):234-240.
[36]杨长琴.转Bt基因棉杀虫蛋白表达和氮代谢特性及其受高温影响的研究[D].扬州:扬州大学,2003.
[37]刘少卿.不同棉花种质资源耐热性鉴定及热激效应分析[D].北京:中国农业科学院,2011.
[38]陈德华,杨长琴,陈源,等.高温胁迫对Bt棉叶片杀虫蛋白表达量和氮代谢影响的研究[J].棉花学报,2003,15(5):288-292.
[39]李雪梅,李玥莹,马莲菊,等.逆境胁迫下水稻蛋白质组学研究进展[J].沈阳师范大学学报(自然科学版),2009(3):115-162.
[40]宋桂成.陆地棉雄蕊耐热性及耐热相关基因克隆与功能研究[D].南京:南京农业大学,2014.
[41]葛晓阳.陆地棉热激蛋白基因s HSP7和s HSP8克隆及功能分析[D].南京:南京农业大学,2012.
[42]Singh R P,Prasad P V,Sunita V K,et al.Influence of high temperature and breeding for heat tolerance in cotton:a review[J].Advance in Agronomy,2007,93:315-385.
[43]贺彭毅.不同耐高温棉花叶片光合作用特性研究[D].长沙:湖南农业大学,2011.
[44]Zhang G L,Chen L Y,Zhang S T,et al.Effects of high temperature on physiological and biochemical characteristics in flag leaf of rice during heading and flowering period[J].Scientia Agriculture Sinica.2007,40(7):1345-1352.
[45]Bibi A D,Oosterhuis D M and Gonias E.D.Photosynthesis,quantum yield of photosystem II and membrane leakage as affected by high temperatures in cotton genotypes[J].J Cotton Sci,2008,12:150-159..
[46]邓茳明.棉花对高温逆境耐性的生理生化基础研究[D].长沙:湖南农业大学,2010.