[1]孙备,李建东,王国骄,等.一年生野生大豆(Glycine soja)生理生态学和种群生态学研究进展[J].大豆科学,2008,27(04):687-692.[doi:10.11861/j.issn.1000-9841.2008.04.0687]
 SUN Bei,LI Jian-dong,WANG Guo-jiao,et al.Research Progress on Physiological Ecology and Population Ecology of Annual Wild Soybean(Glycine soja)[J].Soybean Science,2008,27(04):687-692.[doi:10.11861/j.issn.1000-9841.2008.04.0687]
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一年生野生大豆(Glycine soja)生理生态学和种群生态学研究进展

《大豆科学》[ISSN:1000-9841/CN:23-1227/S] 卷: 第27卷 期数: 2008年04期 页码: 687-692 栏目: 出版日期: 2008-08-25
Title:
Research Progress on Physiological Ecology and Population Ecology of Annual Wild Soybean(Glycine soja)
文章编号:
1000-9841(2008)04-0687-06
作者:
孙备李建东王国骄徐亮薛静韦岩
沈阳农业大学农学院,辽宁 沈阳 110161
Author(s):
SUN BeiLI Jian-dongWANG Guo-jiaoXU LiangXUE JingWEI Yan
Shenyang Agricultural University,Shenyang 100161,Liaoning,China
关键词:
野生大豆生理生态学种群生态学
Keywords:
Wild soybeanPhysiological ecologyPopulation ecology
分类号:
S565.1
DOI:
10.11861/j.issn.1000-9841.2008.04.0687
文献标志码:
A
摘要:
野生大豆(Glycine soja Sieb.et Zucc.)是栽培大豆(G.max)的近源祖先种,为栽培大豆的遗传育种和种质改良提供了巨大的基因库。生态学研究是生物多样性保护和利用的基础,对野生大豆生理生态学的研究表明野生大豆属短日照、喜温、喜湿的植物,对土壤要求比较宽,具有一定的耐盐性;而野生大豆种群生态学的研究以种群遗传特征为主,已从种群分布、种子雨和种子库、种群动态、遗传分化以及种群的演化等方面开展了研究。但现在关于野生大豆对极端环境的适应、种群动态的研究以及野生大豆群落生态学的研究相对较少。因此,开展野生大豆生态学尤其是种群生态学和群落生态学的研究对野生大豆资源的保护具有十分重要的意义。
Abstract:
Annual wild soybean(Glycine soja Sieb.et Zucc.) was ancestor of soybean(G.max),and offers gene pool of breeding and improvement of soybean.Protection and utilization of biodiversity of annual wild soybean would be on the base of studies on its ecology.The studies on physiological ecology showed that annual wild soybean was a short-day,thermophilous and hygrophilous plant and could adapt to a variety of soil.Researches on population ecology of wild soybean included the distribution of population,seed rain and seed pool,dynamic of population,genetic differentiation and population evolvement.But studies on adaptation to stress environments,population dynamics and community ecology were few.Therefore,it was important to conduct researches on population and community ecology of annual wild soybean for its protection.

参考文献/References:

[1]庄炳昌.中国野生大豆生物学研究[M].北京:科学出版社,1999.(Zhuang B C.Biology study on wild soybean in China[M].Beijing:Science Press,1999.)

[2]徐豹,陆琴华.大豆研究Ⅲ.野生大豆与栽培大豆光周期效应的比较研究[J].大豆科学,1988,7(4):270-275.(Xu B,Lu Q H.Soybean ecology study Ⅲ.Study on comparison the flowering critical photoperiod between wild soybeans and cultivate soybeans[J].Soybean Science,1988,7(4):270-275.)
[3]李福山,李向华.野生大豆在自然界中光温反应的规律[J].作物学报,2003,29(5):670-675.(Li F S,Li X H.Response regularity of wild soybean to photoperiod and temperature in natural environment[J].Acta Agronomica Sinica,2003,29(5):670-675.)
[4]胡志昂,王洪新,钟敏,等.野生大豆群体的遗传多样性 [M]//胡志昂,张亚平.中国动植物的遗传多样性.杭州:浙江科学技术出版社,1997.(Hu Z Y,Wang H X,Zhong M,et al.Genetic diversity of wild soybean[M]//Hu Z Y,Zhang Y P.Genetic diversity of animals and plants in China.Hangzhou:Zhejiang Science Press,1997.)
[5]徐豹,陆琴华.大豆研究Ⅳ.野生大豆控光和自然条件下开花临界光周期的研究[J].大豆科学,1991,10(2):85-92.(Xu B,Lu Q H.Soybean ecology study IV.Study on the flowering critical photoperiod of wild soybeans(G.soja) [J].Soybean Science,1991,10(2):85-92.)
[6]陆琴华,徐豹.大豆光周期感光部位的研究[J].吉林农业科学,1990(1):95-96.(Lu Q H,Xu B.Study on the flowering critical photoperiod sensitive tissue of soybean[J].Journal of Jilin Agricultural Science ,1990(1):95-96.)
[7]高红明,柏伟荣,包志峰,等.人为活动对野生大豆种群的影响[J].安徽农业科学,2006,34(18):4708-4709.(Gao H M,Bo W R,Bao Z F,et al.Preliminary investigation of the impact of human activities on population of wild soybean[J].Journal of Anhui Agricultural Science,2006,34(18):4708-4709.)
[8]庄炳昌,徐豹,陆琴华.大豆研究Ⅱ中国不同纬度不同进化类型大豆对昼夜温度反应的研究[J].大豆科学,1986,5(4):289-298.(Zhuang B C,Xu B,Lu Q H.Soybean ecology study IV.Study on day and night temperature reaction of different evolutionary types of soybean on different latitude in China[J].Soybean Science,1986,5(4):289-298.)
?[9]史宏,刘学义.野生大豆抗旱性鉴定及研究[J].大豆科学,2003,22(4):264-268.(Shi H,Liu X Y.Studies on the drought resistance of wild soybean germplasm[J].Soybean Science,2003,22(4):264-268.)
[10] Chen Y,Chen P,de los Reyes B G.Differential responses of the cultivated and wild species of soybean to dehydration stress [J].Crop Science,2006,46:2041-2046.
[11]杨晓英,章文华,王庆亚,等.江苏野生大豆耐盐性和离子在体内的分布及选择性运输[J].应用生态学报,2003,14(12):2237-2240.(Yang X Y,Zhang W H,Wang Q Y,et al.Salt tolerance of wild soybeans in Jiangsu and its relation with ionic distribution and selective transportation[J].Chinese Journal of Applied Ecology,2003,14(12):2237-2240.)
[12]陈宣钦,刘怀攀,罗庆云,等.耐盐性不同的野大豆种子和幼苗对等渗水分和NaCl胁迫的响应[J].南京农业大学学报,2006,29(4):28-32.(Chen X Q,Liu H P,Luo Q Y,et al.Responses of seed and seedling of Glycine soja with different salt tolerance to iso-osmotic water and NaCl stresses[J].Journal of Nanjing Agricultural University,2006,29(4):28-32.)
[13]於丙军,刘友良.盐胁迫对一年生盐生野大豆幼苗活性氧代谢的影响[J].西北植物学报,2003,23(1):18-22.(Yu B J,Liu Y L.Re-transportation of ions inGlycine soja and Glycine max seedlings under NaCl stress[J].Journal of Plant Physiology and Molecular Biology,2003,29(1):18-22.)[14]杨晓英,刘友良,罗庆云,等.盐胁迫下野生大豆叶片中Na+、Cl积累导致活性氧伤害[J].大豆科学,2003,22(2):83-87.(Yang X Y,Liu L Y,Luo Q Y,et al.Accumulation of Na+、Cl-in the leaves of wild soybean seedlings lead to the oxidative damage under salt stress[J].Soybean Science,2003,22(2):83-87.)
[15]於丙军,吉晓佳,刘俊,等.氯化钠胁迫下野生和栽培大豆幼苗体内多胺水平变化[J].应用生态学报,2004,15(7):1223-1226.(Yu B J,Ji X J,Liu J,et al.Changes of polyamines level in Glycine soja and Glycine max-seedlings under NaCI stress[J].Chinese Journal of Applied Ecology,2004,15(7):1223-1226.)
[16]Zhou S,Zhao K F.Discussion on the problem of salt gland of Glycine soja[J].Acta Botanica Sinica,2003,45(5):574-580.
[17]陆静玲,刘友良,胡波,等.中国野生大豆盐腺的发现[J].科学通报,1998,43(19):2074-2078.(Liu J L,Liu Y L,Hu B,et al.The discovery of salt gland of Chinese wild soybean[J].Chinese Science Bulletin,1998,43(19):2074~2078.)
[18]朱俊义,杨光宇,赵凤娟,等.野生大豆抗盐解剖结构研究[J].东北师范大学学报(自然科学版),2003,35(4):105-108.(Zhu J Y,Yang G Y,Zhao F J,et al.Study on salt-resistant structure of Glycine soja L[J].Journal of Northeast Normal University,2003,35(4):105-108.)
[19]徐豹,陆琴华,庄炳昌.世界野生大豆的生态型及其地理分布的研究[J].植物生态与地植物学学报,1989,13(2):114-120.(Xu B,Lu Q H,Zhuang B C.Analysis of ecology and their geographical distribution of wild soybean(G.Soja) in the world[J].Acta Phytoecologica Geobotanica Sinica,1989,13(2):114-120.)
[20]李军,郑师章,钱吉,等.野生大豆种子雨的研究[J].应用生态学报,1997,8(4):372-376.(Li J,Zheng S Z,Qian J,et al.Seed rain of Glycinc soja[J].Chinese Journal of Applied Ecology,1997,8(4):372-376.)
[21]李光发,黄文,曲刚,等.野生大豆籽粒吸水性的探讨[J].大豆科学,1994,13(4):376-379.(Li G F,Huang W,Qu G,et al.Discussion on seed superabsorbent of wild soybean[J].Soybean Science,1994,13(4):376-379.)
[22]乔亚科,李桂兰,王文颇,等.不同处理方法和贮藏时间对野生大豆种子萌发的影响[J].种子,2003,129(3):33-34.(Qiao Y K,Li G L,Wang W P,et al.Efleet of different treatment methods and storage period on the germination of wild soybean[J].Seed,2003,129(3):33-34.)
?[23]Chen Y,Nelson R.Variation in early plant height in wild soybean[J].Crop Science,2006,46:865-869.
[24]高新华,李宏元,郑师章,等.不同纬度来源的野生大豆拟种群动态参数及其生态意义[J].应用生态学报,1996,7(3):225-261.(Gao X H,Li H Y,Zheng S Z,et al.Parameters of metapopulation dynamics of wild soybean originated from different latitudes and their significance of ecological aduptation[J].Chinese Journal of Applied Ecology,1996,7(3):225-261.)
[25]赵丽梅,董英山,刘宝,等.中国一年生野生大豆(Glycine soja)核心资源构建[J].科学通报,2005,50(10):992-999.(Zhao L M,Dong Y S,Liu D,et al.Establishment of a core collection for the Chinese annual wild soybean (Glycine Soja)[J].Chinese Science Bulletin,2005,50(10):992-999.)[26]Wang K J,Takahata Y.A preliminary comparative evaluation of genetic diversity between Chinese and Japanese wild soybean (Glycine soja) germplasm pools using SSR markers[J].Genetic Resources and Crop Evolution,2007,54:157-165.
[27]府宇雷,钱吉,马玉虹,等.不同尺度下野大豆种群的遗传分化[J].生态学报,2002,22(2):176-184.(Fu Y L,Qian J,Ma Y H,Li J,et al.Genetic differentiation research on populations of wild soybeans in different scales[J].Atca Ecological Sinica,2002,22(2):176-184.)
[28]Li Z,Nelson R L.RAPD marker diversity among cultivated and wild soybean accessions from four Chinese provinces[J].Crop Science,2002,42:1737-1744.
[29]赵洪锟,王玉民,李启云,等.中国不同纬度野生大豆和栽培大豆SSR分析[J].大豆科学,2001,20(3):172-176.(Zhao H K,Wang Y M,Li Q Y,et al.SSR analysis of wild soybean (G.soja) and cultivated soybean from different latitude in China[J].Soybean Science,2001,20(3):172-176.)
[30]周晓馥,庄炳昌,王玉民,等.利用RAPD与SSR技术进行野生大豆种群内分化的研究[J].中国生态农业学报,2002,10(4):6-9.(Zhou X F,Zhuang B C,Wang Y M,et al.Population differentiation of wild soybean based on the RAPD and SSR analysis[J].Chinese Journal of Eco-Agriculture,2002,10(4):6-9.)
[31]关荣霞,刘秀敏,常汝镇,等.辽宁新宾县原位保护区野生大豆(Glycine soja-Sieb.& Zucc.)遗传多样性分析[J].高技通讯,2006,16(1):67-72.(Guan R X,Liu X M,Chang R Z,et al.Genetic diversity analysis of wild soybean(Glycine soja Sieb.& Zucc.) from in-situ conserved population in Xinbin county of Liaoning province[J].High Technology Communication,2006,16(1):67-72.)
[32]朱维岳,周桃英,钟明,等.基于遗传多样性和空间遗传结构的野生大豆居群采样策略[J].复旦学报,2006,45(3):321-327.(Zhu W Y,Zhou T Y,Zhong M,et al.Sampling strategy for wild soybean(Glycine soja)populations based on their genetic diversity and fine-scale spatial genetic structure\J].Journal of Fudan University (Natural Science),2006,45(3):321-327.)
[33]Jin Y,Zhang W J,Fu D X,et al.Sampling strategy within a wild soybean population based on its genetic variation detected by ISSR makers[J].Acta Botanica Sinica,2003,45(8):995-1002.
[34]Zhao R,Cheng Z,Lu W F,et al.Estimating genetic diversity and sampling strategy for a wild soybean(Glycine soja) population based on different molecular markers[J].Chinese Science Bulletin,2006,51(10):1219-1227.
[35]赵茹,程舟,陆伟峰,等.基于分子标记的野生大豆居群遗传多样性估算与取样策略[J].科学通报,2006,51(9):1042-1048.(Zhao L,Chen Z,Lu W F,et al.Sampling strategy and genetic diversity for wild soybean(Glycine soja) populations based on molecular makers[J].Chinese Science Bulletin,2006,51(9):1042-1048.)
[36]徐豹,徐航,庄炳昌,等.中国野生大豆籽粒性状的遗传多样性及其地理分布[J].作物学报,1995,21(6):733-739.(Xu B,Xu H,Zhuang B C,et al.Polymorphism and geographical distribution of seed charaeters of wild soybean(G.soja) in China[J].Acta Agronomica Sinica,1995,21(6):733-739.)
[37]董英山,庄炳昌,赵丽梅,等.中国野生大豆遗传多样性中心[J].作物学报,2000,26(5):521-527.(Dong Y S,Zhuang B C,Zhao L M,et al.The genetic diversity centers of annual wild soybean in China[J] .Acta Agronomica Sinica,2000,26(5):521-527.)
[38]盖钧镒,许东河,高忠,等.中国栽培大豆和野生大豆不同生态类型群体间遗传演化关系的研究[J].作物学报,2000,26(5):513-520.(Gai J Y,Xu D H,Gao Z,et al.Studies on the evolutionary relationship among eco-types of G.max and G.soja in China[J].Acta Agronomica Sinica,2000,26(5):513-520.)
[39]许东河,高忠,田清震,等.中国一年生野生大豆群体的遗传多样性研究[J].应用与环境生物学报,1999.5(5):439-443.(Xu D H,Gao Z,Tian Q Z,et al.Genetic diversity of the annual wild soybean (Glycine soja)in China[J].Chinese Journal of Applied and Environmental Biology,1999,5(5):439-443.)
[40]李向华,王克晶,李福山.中国部分地区一年生野生大豆资源考察、收集及分布现状的研究[J].植物遗传资源学报,2005,6(3):319-322.(Li X H,Wang K J,Li F S.Analysis on the current status of annual wild soybean distributed in part of China[J].Journal of Plant Genetic Resources,2005,6(3):319-322.)

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备注/Memo

作者简介:孙备(1980-),女,助教,硕士,研究方向为农业生态学和植物入侵生态学。E-mail:sb_beibei@163.com。

更新日期/Last Update: 2014-10-07