SUN Dong-feng,KANG Yu-fan.Advances in Studies of Pod-Shattering of Soybean[J].Soybean Science,2011,30(06):1030-1034.[doi:10.11861/j.issn.1000-9841.2011.06.1030]
大豆炸荚性研究进展
- Title:
- Advances in Studies of Pod-Shattering of Soybean
- 文章编号:
- 1000-9841(2011)06-1030-05
- Keywords:
- Soybean; Pod-shattering; Observation methods; Resistant pod-shattering genes; Reduction measures
- 分类号:
- S565.1
- 文献标志码:
- A
- 摘要:
- 炸荚是大豆的一种自然属性,在作为芽用的小粒大豆中炸荚现象尤为普遍。炸荚严重影响大豆的收获与产量。该文在剖析大豆荚的形态微观组织结构特征的基础上,分析了环境因素的影响、大豆炸荚的类型及其观测方法,对大豆抗炸荚基因的分子标记技术和炸荚的农艺减损措施等研究现状进行阐述,并从生理生化机制、农艺性状与炸荚的相关性和转基因技术等方面展望了大豆炸荚性的研究前景,为进一步研究大豆炸荚性提供理论借鉴与技术参考。
- Abstract:
- Pod-shattering is a natural character of soybean,and it is more general in pellet soybean for sprout.Pod-shattering of soybean has a great negative influence on harvest and yield.The study advances of microscopic anatomy and morphology characters,types of pod-shattering,observation methods,molecular marker technology of resistant pod-shattering genes,reduction measures on pod-shattering traits of soybean were elaborated in this paper,and prospected the study on pod-shattering fromphysiological and biological mechanisms,associated with agronomic traits and transgenic technology.
参考文献/References:
[1]Philbrook B,Oplinger E S.Soybean field losses as influenced by harvest delays[J].Agronomy Journal,1989,81:251-258. [2]张跃进,马赛斐,高启云,等.黄淮流域主栽大豆品种炸荚性研究[J].河南农业科学,2006(6):56-60.(Zhang Y J,Ma S F,Gao Q Y,et al.Study on the pod—shattering of main soybean varieties of Huanghuai area[J].Henan Agriculture Science,2006(6):56-60.) [3]王荣昌,张春文.大豆野生资源在育种中的应用[J].世界农业,1986(2):18-19.(Wang R C,Zhang C W.The application in breeding of wild soybean[J].World Agriculture,1986(2):18-19.) [4]林红,来永才,齐宁,等.大豆种间杂交新品种龙小粒豆一号的选育[J].中国油料作物学报,2003,25(4):44-45.(Lin H,Lai Y C,Qi N,et al.Breeding of Longxiaolidou No.1,a new soybean variety from inter-specific crossing[J].Chinese Journal of Oil Crop Sciences,2003,25(4):44-45.) [5]王志新,郭泰,吴秀红,等.高产优质耐密植栽培特用小粒大豆品种合农58号的选育[J].中国种业,2010(6):55-56.(Wang Z X,Guo T,Wu X H,et al.Breeding of Henong No.58,a specific pellet soybean variety with high-yield and high-quality and close planting[J].China Seed Industry,2010(6):55-56.) [6]董钻.大豆产量生理[M].北京:中国农业出版社,2000:17-18.(Dong Z.Soybean yield physiology[M].Beijing:Agriculture Press,2000:17-18.) [7]王连铮,郭庆元.现代中国大豆[M].北京:金盾出版社,2007:199-200.(Wang L Z,Guo Q Y.Modern Chinese soybean[M].Beijing:Jindun Press,2007:199-200.) [8]罗汝叶,巩鹏涛.植物落粒性状研究进展[J].豆科基因组学与遗传学,2011,2(1):1-13.(Luo R Y,Gong P T.The study advances of shattering traits of plants[J].Legume Genomics and Genetics,2011,2(1):1-13.) [9]Tiwari S P,Bhatia V S.Characters of pod anatomy associated with resistance to pod-shattering in soybean[J].Annals of Botany,1995,76:483-485. [10]Caviness C E.Heritability of pod dehiscence and its association with some agronomic charaters in soybeans[J].Crop Science,1969,9:207-209. [11]Bailey M A,Mian M A R,Carter T E,et al.Pod dehiscence of soybean:identification of quantitative trait loci[J].The Journal of Heredity,1997,88(2):152-154. [12]Jutamas R,Teruhisa U.Pod dehiscence in soybean:Assessing methods and varietal difference[J].Plant Prod Science,2006,9(4):373-382. [13]Tsuchiya T.Physiological and genetic analysis of pod shattering in soybean[J].Japan Agricultural Research Quarterly,1987,21:166-175. [14]Agrawal A P,Salimath P M,Patil S A.Assessment of variability for some plant and pod characters in soybean over seasons[J].National Journal of Plant Improvement,2002,4(2):13-16. [15]彭玉华,袁建中,杨国保.黄淮流域大豆炸荚性初步分析[J].大豆科学 1991,10(4):285-230.(Peng Y H,Yuan J Z,Yang G B.Preliminary analysis of on the pod-shattering of main soybean varieties of Huanghuai area[J].Soybean Science,1991,10(4):285-230.) [16]马赛斐,南翠梅,张凤彩,等.黄淮流域主栽大豆品种炸荚性研究初报[J].河南农业科学,2006(2):21-23.(Ma S F,Nan C M,Zhang F C,et al.Study on the pod-shattering of main soybean varieties of Huanghuai area[J].Henan Agriculture Science,2006(2):21-23.) [17]Caviness C E.Effects of relative humidity on pod dehiscence in soybeans[J].Crop Science,1965,5:511-513. [18]Tiwari S P,Bhatnagar P S.Consistent resistance for pod-shattering in soybean[J].Tropical Agriculture,1993,68:102-103. [19]Tsuchiya T,Sunada K.Shattering of pods in soybean breeding.I.Relations between degree of shattering and moisture content in pods[J].Bull.Hokkaido Pref.Agr.Exp.1977,37:17-24. [20]Davies G C,Bruce D M.Fracture mechanics of oilseed rape pods[J].Journal of Materials Science,1997,32:5895-5899. [21]Bailey M A R,Mian T E,Carter D A,et al.Pod dehiscence of soybean:Identification of quantitative trait loci[J].Journal of Heredity,1997,88:152-154.〖HJ2mm〗 [22]Saxe L A,Clark C,Lin S F,et al.Mapping the pod-shattering trait in soybean[J].Soybean Genetics Newsletter,1996,23:250-253. [23]Masaya S,Kaien F,Yumi N,et al.Fine mapping and development of DNA markers for the qPDH1 locus associated with pod dehiscence in soybean[J].Molecular Breeding,1996,25(3):407-418. [24]Funatsuki H,Ishimoto M,Tsuji H,et al.Simple sequence repeat markers linked to a major QTL controlling pod shattering in Soybean[J].Plant breeding,2006,125:195-197. [25]Funatsuki H,Hajika M,Hagihara S.Confirmation of the location and the effects of a major QTL controlling pod dehiscence,qPDH1,in soybean[J].Breeding Science,2008,58:63-69. [26]Funatsuki H,Hajika M,Hagihara S,et al.A major QTL,qPDH1,is commonly involved in shattering resistance of soybean cultivars[J].Breeding Science,2009,59:435-440. [27]胡立成.日本北海道大豆抗裂荚性育种[J].世界农业,1991(1):21-22.(Hu L C.Breeding of resistant pod-shattering soybean in Hokkaido,Japan[J].World Agriculture,1991(1):21-22.) [28]Agrawal A P,Salimath P M,Patil S A.Inheritance of pod shattering in soybean[J].Indian Journal of Genetics and Plant Breeding,2003,63(3):265-266. [29]刘忠堂.秋季大豆收获和土壤耕作技术要点[J].大豆通报,2006(5):33-34.(Liu Z T.Key points for soybean harvest and soil tillage in autumn[J].Soybean Bulletin,2006(5):33-34.) [30]胡军,刘广伟,杨秀英.减少大豆收获损失的措施[J].农机使用与维修,2006(4):88-89.(Hu J,Liu G W,Yang X Y.Measures of reducing soybean yield loss at havest[J].Farm Machinery Using & Maintenance,2006(4):88-89.) [31]Bauer F C,Gonzatti G C.Moisture effects on the mechanized soybean[Glycine max(L.)Merril]harvest losses[J].Acta Scientiarum-Agronomy,2007,29:503-506. [32]Kitano J,Tachibana N,Yokoyama Y,et al.Varietal differences in proper time of combine harvesting judging from the moisture content of soybean(Glycine max) stems and a simple method for its measurement[J].Bulletin of the Agricultural Research Division Mie Prefectural Science and Technology Promotion Center,2002,3:25-32. [33]徐金彪,张成.浅谈如何减少大豆联合收获损失[J].农机使用与维修,2010(1):62-63.(Xu J B,Zhang C.Measures to reduce the loss of soybean combine harvest[J].Farm Machinery Using & Maintenance,2010(1):62-63.) [34]陆海霞.大豆联合收获机械的研究[J].农村牧区机械化,2009(2):3-5.(Lu H X.Study of soybean combine harvest machinery[J].Mechanization of Rural and Pastoral Areas,2009(2):3-5.) [35]Gulluoglu L,Arioglu H,Arslan M.Effects of some plant growth regulators and nutrient complexes on pod shattering and yield losses of soybean under hot and dry conditions[J].Asian Journal of Plant Sciences,2006,5(2):368-372. [36]Thurling N.Application of the ideotype concept in breeding for higher yield in oilseed brassica[J].Field Crops Research,199l,26:201-219.
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备注/Memo
基金项目:国家食用豆现代产业技术体系建设专项资金资助(nycytx-18)。