SUN Hui-min,ZHAO Tuan-jie,GAI Jun-yi.Evaluation and Identification of Elite Germplasm with Submergence Tolerance at Seedling Stage of Soybean Cultivars Released in Asia[J].Soybean Science,2010,29(01):1-6,17.[doi:10.11861/j.issn.1000-9841.2010.01.0001]
亚洲地区大豆育成品种幼苗期耐淹性鉴定和优选
- Title:
- Evaluation and Identification of Elite Germplasm with Submergence Tolerance at Seedling Stage of Soybean Cultivars Released in Asia
- 文章编号:
- 1000-9841(2010)01-0001-06
- Keywords:
- Soybean; Released cultivar; Asia; Submergence tolerance; Genetic variation
- 分类号:
- S565.1
- 文献标志码:
- A
- 摘要:
- 以亚洲大豆育成品种为对象,评价其幼苗期耐淹性,揭示其遗传变异特点,从而为耐涝育种提供种质基础。采用我国黄淮、南方及亚洲其它15国的350份大豆育成品种,以相对死苗率为主要鉴定指标,结合叶片相对失绿率与相对萎蔫率,在苗期进行大豆耐淹性盆栽鉴定。结果表明:以相对死苗率为主的指标体系可以有效鉴定大豆品种的苗期耐涝性。亚洲品种群体存在丰富的耐淹性遗传变异,相对死苗率变幅为4.8%~212.0%。中国黄淮、中国南方、东亚、东南亚和南亚5个区域的品种均呈现中间多、两头少的单峰态分布,遗传变异系数均高于21.24%,耐淹性变异丰富,尤其中国黄淮地区覆盖了全群体相对死苗率变幅。各地区均存在耐淹品种,山东、江苏相对较多;从5个区域中依次优选出7、4、1、1、2,共15份耐淹性种质;系谱追踪发现莒选23、南农493-1、黔豆2号的耐淹性可能传递给后代;4份国外耐淹性品种兼具有抗病性可作为亲本拓宽中国耐涝育种的种质基础。
- Abstract:
- Flooding is one of the most frequent climate disasters in eastern and southern Asia.Development of cultivars tolerant to submergence is an effective way to avoid the threat of flooding to soybean production.The objectives of the present study were to evaluate the submergence tolerance of young seedlings of released cultivar populations from different Asian regions,to reveal their genetic variation,and to identify elite germplasm with submergence tolerance for breeding purpose.The 350 released cultivars from Huang Huai valleys and Southern China,as well as other 15 Asian countries were sampled and tested in pot experiment at young seedling stage under artificial flooding condition.The relative death rate was used as major indicator with relative yellowing rate and relative withering rate as reference indicators.The results showed that the indicator system was effective in evaluating the submergence tolerance at young seedling stage of soybean.There existed great genetic variation of submergence tolerance in the Asian soybean cultivar population with relative death rate varying from 4.8% to 212.0%.In each eco-region,i.e.Huang-Huai valleys,Southern China,East Asia,Southeast Asia and South Asia,the relative death rate of the cultivars distributed as a similar single peak curve with genetic coefficient of variation more than 21.24%,especially in Huang-Huai valleys with its range covering the whole population.There exist elite tolerant materials in each eco-region,especially in Shandong and Jiangsu Provinces,and seven,four,one,one and two in a total of 15 most tolerant materials were selected from the respective eco-regions.Among them,some selected tolerant cultivars have their tolerance inherited from the tolerant parents,Juxuan 23,Nannong 493-1,Qiandou No.2,after tracing their pedigree;the four selected exotic tolerant cultivars are characterized with resistance to some diseases,therefore,could be used as elite parents for broadening genetic bases in breeding for submergence tolerance in China.
参考文献/References:
[1]Sullivan M,VanToai T,Fausey N,et al.Evaluated on-farm flooding impacts on soybean[J].Crop Science,2001,41:93-100. [2]倪君蒂,李振国.淹水对大豆生长的影响[J].大豆科学,2000,19(1):42-48.(Ni J D,Li Z G.Effect of flooding on growth of soybean seedlings[J].Soybean Science,2000,19(1):42-48.) [3]Scott H D,Angulo J D,Wood L S,et al.Influence of temporary flooding at three growth stages on soybean growth on a clayey soil[J].Plant Nutrition,1990,13:1045-1071. [4]Hou F F,Thseng F S.Studies on the flooding tolerance of soybean seed:varietal differences[J].Euphytica,1991,57:169-173. [5]Matthew S,VanToai T T,Fausey N,et al.Evaluation on-farm flooding impacts on soybean[J].Crop Science,2000,41:93-100. [6]VanToai T T,Beuerlin J E,Schmitthenner A F,et al.Genetic variability for flooding tolerance in soybeans[J].Crop Science,1994,34:112-1115. [7]王芳,赵团结,盖钧镒.大豆野生与栽培资源苗期耐淹性的鉴定、生态区特征和优异种质发掘[J].大豆科学,2007,26(6):828-834.(Wang F,Zhao T J,Gai J Y.Evaluation,eco-region characterization and elite germplasm identification of submergence tolerance at seeding stage in wild and cultivated soybeans[J].Soybean Science,2007,26(6):828-834.) [8]Cornelious B,Chen P,Chen Y,et al.Identification of QTLs underlying water-logging tolerance in soybean[J].Molecular Breeding,2005,16:103-112. [9]Githiri S M,Watanabe S,Harada K,et al.QTL analysis of flooding tolerance in soybean at an early vegetative growth stage[J].Plant Breeding,2006,125:613-618. [10]王芳,赵团结,喻德跃,等.大豆苗期耐淹性的遗传与QTL分析[J].作物学报,2008,34(5):748-753.(Wang F,Zhao T J,Yu D Y,et al.Inheritance and QTL analysis of submergence tolerance at seedling stage in soybean [Glycine max(L.) Merr.][J].Acta Agronomica Sinica,2008,34(5):748-753.) [11]张军,赵团结,盖钧镒.亚洲大豆栽培品种遗传多样性、特异性和群体分化研究[J].中国农业科学,2008,41(11):3511-3520.(Zhang J,Zhao T J,Gai J Y.Genetic diversity,specificity and population differentiation of soybean cultivars in Asia[J].Scientia Agricultura Sinica,2008,41(11):3511-3520.) [12]盖钧镒.试验统计方法[M].北京:中国农业出版社,2000.(Gai J Y.Methods of experimental statistics[M].Beijing:China Agriculture Press,2000.) [13]孔繁玲.植物数量遗传学[M].北京:中国农业大学出版社,2006.(Kong F L.Quantitative genetics in plant[M].Beijing:China Agriculture University Press,2006.) [14]Valliyodan B,Nguyen H T.Genomics of abiotic stress in soybean[M]//G.Stacey.Genetics and Genomics of Soybean,Springer Science Business Media,LLC 2008,352-354. [15]张秀荣,冯祥运,肖唐华.国家芝麻种质资源耐渍性鉴定研究[J].作物杂志,1992(3):20-21.(Zhang X R,Feng X Y,Xiao T H.Identification of waterlogging tolerance in national sesame germplasm[J].Plant Journal,1992(3):20-21.) [16]周广生,梅芳竹,周竹青,等.小麦不同品种耐湿性生理指标综合评价及其预测[J].中国农业科学,2003,36(11):1378-1382.(Zhou G S,Mei F Z,Zhou Z Q,et al.Comprehensive evaluation and forecast on physiological indices of waterlogging resistance of different wheat varieties[J].Scientia Agricultura Sinica,2003,36(11):1378-1382.) [17]王军,周美学,许如根,等.大麦耐湿性鉴定指标和评价方法研究[J].中国农业科学,2007,40(10):2145-2152.(Wang J,Zhou M X,Xu R G,et al.Studies on selecting indices and evaluation methods for barley’s(Hordeum vulgare?L.)waterlogging tolerance[J].Scientia Agricultura Sinica,2007,40(10):2145-2152.) [18]Helms T C,Werk B J,Nelson B D,et al.Soybean tolerance to water-saturated soil and role of resistance to Phytophthora sojae[J].Crop Science,2007,47:2295-2302 [19]Jackson M B.Ethylene-promoted elongation:an adaptation to submergence stress[J].Annals of Botany,2008,101:229-248. [20]Das K K,Panda D,Sarkar R K,et al.Submergence tolerance in relation to variable floodwater conditions in rice[J].Environmental and Experimental Botany,2009,66:425-434.
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备注/Memo
基金项目:国家重点基础研究发展计划资助项目(2006CB101708,2009 CB118404,2010CB125906);国家高技术研究发展计划资助项目(2006AA100104);国家科技支撑计划资助项目(2006BAD13B05-7);国家自然科学基金资助项目(32671266);教育部高等学校创新引智计划资助项目(B08025);农业部公益性行业专项资助项目(200803060)。