27 mustard materials were collected around Tibet and cluster analysis based on height of plant,stem diameter,branch position,amount of branch and numbers of siliqua properties was done in the present study.The results showed that: 1) At the threshold of 0.94,wild B.juncea germplasm in Tibet could be divided into 3 groups,mainly including branching type of above plant,branching type of below plant and average type,and the above results would be useful in rapeseed breeding;2)At the threshold of 0.61,they could be divided into 7 subgroups,namely SG1,SG2,SG3,SG4,SG5,SG6 and SG7,therefore,they could be considered as referenced markers of regional microclimate studing on crop growth environment in Tibet;3)It indicated that the agronomic characters of Tibet mustard germplasm were abundant,and their properties displayed significant differences.
[1] 刘后利.1984.几种芸苔属油菜的起源与进化[J].作物学报,10(1):10-18.
[2] 李玉兰,袁勇智,秦廷伟.2003.我国油菜十年文献统计分析[J].农业图书情报学刊,(6):214-255.
[3] 周光凡,陈材林,陈学群,等.1999.四川盆地芥菜次生多样化中心及其成因探讨[J].西南农业学报,(3):32-54.
[4] 安贤惠.1999.芥菜性油菜种质资源遗传多样性及其起源进化的初步研究[J].华中农业大学,(5):21-22.
[5] AM Chevre,F Eber.1997.Identification of the different Brassica nigra chromosomes from both sets of B.oleracea B.nigra and B.napes-B.nigra addition lines with a special emphasis on chromosome transmission and selfincompatibility[J].Theor Appl Genet,94:603-611.
[6] 罗鹏.1996.油菜及近缘植物遗传资源研究[M].北京:中国农业科技出版社,65-77.
[7] Jahier J,Chevre A M.1989.Extraction of disomic addition lines of Brassica napus-B,nigra[J].Genome,32:408-413.
[8] 何余堂,涂金星,傅廷栋,等.2003.中国白菜型油菜种质资源的遗传多样性研究[J].作物学报,(5):45-48.
[9] 何余堂,陈宝元,傅廷栋,等.2003.白菜型油菜在中国的起源与进化[J].遗传学报,11:34-39.
[10] 王建林,胡书银,栾运芳,等.2002.西藏油菜的生物多样性研究[J].西藏科技,(11):9-13.
[11] 胡书银,王建林,旦巴,等.2002.西藏油菜种植资源的生态地理区划[J].西藏科技,(11):14-17.[Ecoscil]
[12] 胡书银,王建林,何燕,等.2002.西藏芥菜型油菜资源的地理分布与表型分化研究[J].国土与自然资源研究,(2):23-29.
[13] 钱秀珍.1996.油菜种质资源的搜集、鉴定、保存和利用[J].中国油料,(1):60-63.
[14] 于秀林,任雪松.1999.多元统计分析[M].北京:中国统计出版社,(8):14-20.
[15] 王建林,何燕,栾运芳,等.2006.西藏掖省油菜形态及生态特征多元统计分析[J].作物研究,(3):223-226.
[16] Kresovich S,Iaunboy W F.Li Rugang.1994.Application of molecular methods and statistical analysis for discrimination of accessions and clones of vetiver grass[J].Cropscience,34:805-809.
[17] Primard C,Vedel F,Mathieu C et al.1988.Interspecific hybridization between B.napus and B.hirto(sinapis alba L.)[J].Theor Appl Genet,75:546-552.
[18] Song K,Tang K,Osbom TC.1993.Development of synthetic Brassica amphidiploids by reciprocal hybridization and camparision to natural amphidiploids[J].Theor Appl Genet,86:811-821.
[19] Kcrlan M C,Chevre A M.1993.Interspecific hybrids between a transgenic rapeseed(B.napus)and related species:Cytological characterization and detection of the Wansgene[J].Genome,36:1099-1106.
[20] 林芝地区气象台林芝地区科学技术委员会.1993.西藏林芝地区农业气象资源分析及区划[M].北京:气象出版社,156-167.
[21] 四川省农业科学院.1964.中国油菜栽培[M].北京:农业出版社,13-16.
[22] 国农业科学院油料作物研究所.1997.中国油菜品种资源目录续编二[M].北京:中国农业科技出版社,217-223.
[23] 赵继献.2001.杂交油菜高产栽培性状的主要因子及其相关分析[J].山地农业生物学报,20(2):86-91.
[24] McGrath J M,Quiros C E 1990.Generation of alien chromosome addition lines from synthetic Brassica napes:morphology,cytology,fertility,and chromosome transmission[J].Genome.33:374-383.
[25] 陈材林,周源,周光凡,等.1992.中国的芥菜起源探讨[J].西南农业学报,(3):211-217.
