[1]赵雁,车伟光,毕玉芬.“德钦”紫花苜蓿苗期耐热性综合评价[J].北方园艺,2015,39(20):69-73.[doi:10.11937/bfyy.201520018]
　ZHAO Yan,CHE Weiguang,BI Yufen.Thermotolerance Comprehensive Evaluation of Medicago sativa L.‘Deqin’ on Seedling Stage[J].Northern Horticulture,2015,39(20):69-73.[doi:10.11937/bfyy.201520018]

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“德钦”紫花苜蓿苗期耐热性综合评价

《北方园艺》[ISSN:1001-0009/CN:23-1247/S] 卷: 第39卷期数: 2015年20 页码: 69-73 栏目: 出版日期: 2015-10-30

Title:: Thermotolerance Comprehensive Evaluation of Medicago sativa L.‘Deqin’ on Seedling Stage

作者:: 赵雁1; 车伟光1; 毕玉芬2; （1.云南农业大学园林园艺学院，云南昆明 650201；2.云南农业大学动物科学与技术学院，云南昆明 650201）

Author(s):: ZHAO Yan1; CHE Weiguang1; BI Yufen2; (1.College of Landscape and Horticulture，Yunnan Agricultural University，Kunming，Yunnan 650201；2.College of Animal Science and Technology，Yunnan Agricultural University，Kunming，Yunnan 650201)

关键词:: “德钦”紫花苜蓿; 秋眠级; 苗期; 耐热性; 评价

Keywords:: Medicago sativa L.‘Deqin’; fall dormancy rate; seedling stage; thermotolerance; comprehensive evaluation

DOI:: 10.11937/bfyy.201520018

文献标志码:: A

摘要:: 以“阿尔冈金”（低秋眠级，2）、“赛迪10” （高秋眠级，9）和“德钦” （低秋眠级，1.2）为试材，采用了30℃/35℃（夜温/昼温）长期高温处理方法，研究了高温胁迫对“德钦”苗期的光化学效率、相对电导率、丙二醛含量、相对含水量、细胞质和细胞膜蛋白质的影响，以探明云南野生栽培品种“德钦”紫花苜蓿苗期的耐热性。结果表明：3个紫花苜蓿品种苗期的耐热性强弱为：“赛迪10”（1.00）>“德钦”（0.47）>“阿尔冈金”（0.06）。“赛迪10”为耐热性强的品种；“德钦”耐热性中等；“阿尔冈金”为耐热性弱的品种。苗期“德钦”的耐热性强于“阿尔冈金”，弱于“赛迪10”。“德钦”的耐热性可能与其高温胁迫下维持细胞膜的完整性和叶片持水能力强有关，也与其机体对膜蛋白质的保护有关。

Abstract:: To investigate the thermotolerance of ‘Deqin’ (low fall dormancy rate，1.2) on seedling stage，this experiment was carried out with three alfalfa cultivars,‘Algonquin’ (low fall dormancy rate，2)，‘Sardi 10’ (high fall dormancy rate，9) and ‘Deqin’，by comparing the changes of Fv/Fm，EL，MDA，RWC，cytoplasmic protein and membrane protein among their leaves under heat stress (35℃/30℃，day/night).The experiment results showed that the thermotolerance rank of these three cultivars was ‘Sardi 10’ (1.00)>‘Deqin’(0.47)>‘Algonquin’(0.06).‘Sardi 10’ was thermotolerant，‘Algonquin’ was thermosensitive and ‘Deqin’ was mediate.The specific heat tolerance reason of ‘Deqin’ might be related to its maintaining the membrane integrity，holding water in leaves and protecting membrane protein.

参考文献/References:

[1]BERRY J,BJRKMAN O.Photosynthetic response and adaptation to temperature in higher plants[J].Annual Review Plant Physiology,1980,31:491-543.

[2]MURAKAMI Y,TSUYAMA M,KOBAYASHI Y,et al.Triennio fatty acids and plant tolerance of high temperature[J].Science,2000,287(5452):476-479.

[3]WISE R R,OLSON A J,SCHRADER S M.Electron transport is the functional limitation of photosynthesis in field-grown Pima cotton plants at high temperature[J].Plant,Cell and Environment,2004,27(6):717-724.

[4]李宁毅,韩晓芳,宋妍.高温胁迫下不同浓度烯效唑对百日草幼苗光合作用和叶绿素荧光参数的影响[J].吉林农业大学学报,2012,34(1):5-10.

[5]PENFIELD S.Temperature perception and signal transduction in plants[J].New Phytologist,2008,179(3):615-628.

[6]DIMASCIO J,DANNEBERGER K.Heat shock protein synthesis in turfgrass[J].USGA Green Section Record,1990,7:13-15.

[7]AL-KHATIB K,PAULSEN G M.Mode of high temperature injury to wheat during grain development[J].Physiologia Plantarum,1984,61(3):363-368.

[8]UEDA T,SEO S,OHASHI Y,et al.Circadian and senescence-enhanced expression of a tobacco cysteine protease gene[J].Plant Molecular Biology,2000,44(5):649-657.

[9]AHN Y J,CLAUSSEN K,ZIMMERMAN J L.Genotypic differences in the heat-shock response and thermotolerance in four potato cultivars[J].Plant Science,2004,166(4)：901-911.

[10]MAHMOOD T,SAFDER W,ABBASI B H,et al.An overview on the small heat shock proteins[J].African Journal of Biotechnology,2010,9(7):927-949.

[11]LOPONEN J,MIKOLA M,KATINA M,et al.Degradation of HMW glutenins during wheat sourdough fermentations[J].Cereal Chemistry,2004,81(1):87-93.

[12]GULEN H,ERIS A.Effect of heat stress on peroxidase activity and total protein content in strawberry plants[J].Plant Science,2004,166(3):739-774.

[13]KOCHHAR S,KOCHHAR V K.Expression of antioxidant enzymes and heat shock proteins in relation to combined stress of cadmium and heat in Vigna mungo seedlings[J].Plant Science,2005,168(4):921-929.

[14]ROUSCH J M,BINGHAM S E,SOMMERFELD M R.Protein expression during heat stress in thermo-intolerant and thermo-tolerant diatoms[J].Journal of Experimental Marine Biology and Ecology,2004,306(5):231-243.

[15]周人纲,樊志和,李晓芝,等.高温锻炼对小麦细胞膜热稳定性的影响[J].华北农学报,1993,8(3):33-37.

[16]吴国胜,曹婉虹,王永健,等.细胞膜热稳定性及保护酶和大白菜耐热性的关系[J].园艺学报,1995,22(4):353-358.

[17]毕玉芬,车伟光,顾垒.德钦地区野生紫花苜蓿群落多样性特征及其来源分析[J].草地学报,2007,15(4):306-311.

[18]赵雁,毕玉芬,车伟光,等.高温胁迫下紫花苜蓿品种胞质蛋白质变化的比较[J].中国草地学报,2013,35(4):13-18.

[19]WARNER M E,FITT W K,SCHMIDT G W.The effects of elevated temperature on the photosynthetic efficiency of zooxanthellae in hospite from four different species of reef coral：a novel approach[J].Plant,Cell and Environment,1996,19(3):291-299.

[20]DACOSTA M,WANG Z L,HUANG B R.Physiological adaptation of kentucky bluegrass to localized soil drying[J].Crop Science,2004,44(4):1307-1314.

[21]HEATH R L,PACKER L.Photoperoxidation in isolated chloroplasts:I.Kinetics and stoichiometry of fatty acid peroxidation[J].Archives of Biochemistry and Biophysics,1968,125:189-198.

[22]BARRS H D,WEATHERLEY P E.A re-examination of the relative turgidity technique for estimating water deficit in leaves[J].Australian Journal of Biological Sciences,1962,15(3):413-428.

[23]SHIMONI Y,BLECHEL A E,ANDERSON O D.A recombinant protein of two high molecular weight glutenins alters gluten polymer formation in transgenic wheat[J].The Journal of Biological Chemistry,1997,272:15488-15495.

[24]HE Y L,HUANG B R.Protein changes during heat stress in three Kentucky bluegrass cultivars differing in heat tolerance[J].Crop Science,2007,47(6):2513-2520.

[25]BRADFORD M M.A rapid and sensitive method for the quantification of microgram quantities protein using the principle of protein-dye binding[J].Analyt Biochemistry,1976,72:248-254.

[26]张鹤山,刘洋,蔡化,等.温度胁迫下黑麦种子萌发特征及耐热性研究[J].湖北农业科学,2009,48(1):135-138.

[27]LEVITT J.Responses of plants to environmental stresses[C]//Mudd J B，Kozlowski T T.Volume II.Water,radiation，salt，and other stresses.New York:Academic Press,1980.

[28]胡永红,蒋昌华,秦俊,等.高温对月季部分形态、生理指标的影响研究[J].种子,2007,26(10):71-73.

[29]JIANG Y W,HUANG B R.Drought and heat stress injury to two cool-season turfgrasses in relation to antioxidant metabolism and lipid peroxidation [J].Crop Science,2001,41:436.

[30]LEHMAN V G,ENGELKE M C.Heritability of creeping bentgrass shoot water content under soil dehydration and elevated temperature[J].Crop Science,1993,33:1061-1066.

[31]MARTINEAN J R,SPECHT J E.Temperature tolerance in soybean[J].Crop Science,1979,19:75-81.

[32]SAIRAM R K,TYAGI A.Physiology and molecular biology of salinity stress tolerance in plants[J].Current Science,2004,86(3):407-421.

[33]李敏,王维华,王然,等.高温胁迫对菠菜叶片保护酶活性和膜透性的影响[J].园艺学报,2004(1):99-100.

[34]袁媛,唐东芹,史益敏.小苍兰幼苗对高温胁迫的生理响应[J].上海交通大学学报(农业科学版),2011,29(5):30-36.

[35]刘奕清,陈泽雄,杨婉晴.高温和干旱胁迫对巨尾桉幼苗生理特征的影响[J].园艺学报,2008,35(5):761-764.

[36]叶陈亮,柯玉陈,陈伟.大白菜耐热性的生理研究-叶片水分和蛋白质代谢与耐热性[J].福建农业大学学报,1996(25):490-493.

[37]周人纲,樊志和,李晓芝.热锻炼对小麦叶片细胞膜及有关酶活性的影响[J].作物学报,1995,21(5):568-572.

[38]卢欣石,申玉龙.苜蓿秋眠性的研究与利用[J].国外畜牧业-草原与牧草,1991(4):1-4.

[39]卢欣石,王铁梅.中国苜蓿92个地方品种资源秋眠性评定[C]//第二届中国苜蓿发展大会.北京:中国草业学会,2003.

备注/Memo

第一作者简介：赵雁（1974-），女，博士，副教授，研究方向为牧草种质资源与育种。E-mail：744234036@qq.com.责任作者：毕玉芬（1960-），女，博士，教授，研究方向为牧草种质资源与育种。E-mail：biyufenynnd@sina.com.基金项目：国家自然科学基金资助项目（31160480）。

更新日期/Last Update: 2015-11-19