Genetic Analysis of Yield and Its Components of B. napus Hybrids Using Resynthesized Rapeseed Lines

文献类型: 外文期刊

第一作者: Zhao Yong-guo

作者: Zhao Yong-guo;Xiao Ling;Lu Chang-ming;Zhao Yong-guo

作者机构:

关键词: diallel analysis;heterosis;yield components;resynthesized rapeseed

期刊名称:AGRICULTURAL SCIENCES IN CHINA ( 影响因子:0.82; 五年影响因子:0.997 )

ISSN: 1671-2927

年卷期: 2009 年 8 卷 11 期

页码:

收录情况: SCI

摘要: Resynthesized rapeseeds obtained by crossing the diploid parents Brassica rapa and Brassica oleracea have significant potential in hybrid breeding because of their higher genetic basis compared with Brassica napus cultivars. In this study, an 8 x 8 complete diallel experiment using four B. napus cultivars (BN) and four resynthesized rapeseed lines (RS) as parents was designed to study heterosis and genetic inheritance for yield components. The results showed that heterosis for yield per plant, the number of pods per plant and number of seeds per pod were high, with means 32.77, 24.49 and 15.71%, respectively. Diallel analysis showed that both additive and dominant effects were significant for yield and yield components. All traits, except for 1 000-seed weight, were significant for b1 mean squares and exhibited directional dominance. Dominant genes had positive effects on yield per plant, pods per plant and 1000-seed weight, and negative effects on seeds per pod (r = -0.86, -0.62, -0.41, and 0.47, respectively). Narrow-sense heritability for yield per plant, pods per plant, and 1 000-seed weight and seeds per pod were 66, 31, 46 and 78% for the four traits, respectively. The F(1) hybrids showed considerable yields compared to B. napus cultivars when B. napus cultivars and resynthesized rapeseeds were used as parents (NR hybrids), with many more pods per plant and lower seeds per pod compared with the rapeseed cultivars, indicating that the resynthesized rapeseed may be applicable in current hybrid breeding programs.

分类号:

  • 相关文献

[1]Genetic analysis of an elite super-hybrid rice parent using high-density SNP markers. Sun, Zhizhong,Tan, Yanning,Yu, Dong,Sun, Xuewu,Liu, Ruifen,Yuan, Dingyang,Duan, Meijuan,Sun, Zhizhong,Tan, Yanning,Yu, Dong,Sun, Xuewu,Liu, Ruifen,Yuan, Dingyang,Duan, Meijuan,Duan, Meijuan,Sun, Xuewu,Liu, Ruifen,Yuan, Dingyang,Shu, Liping,Li, Yujie,Gong, Siyu,Shu, Liping,Li, Yujie,Gong, Siyu. 2013

[2]Genetic analysis of the morphology of silica bodies from motor cells in rice (Oryza sativa L.). Wang, CL,Udatsu, T,Fujiwara, H. 1998

[3]Improvement of combining ability for restorer lines with the identified SSR markers in hybrid rice breeding. Liu, XC,Chen, SG,Chen, JS,Ishiki, KS,Wang, WX,Yu, LQ.

[4]Algorithmic models of seed yield and its components in smooth bromegrass (Bromus inermis L.) via large sample size under field conditions. Wang, Quanzhen,Hu, Tianming,Cui, Jian,Wang, Xianguo,Zhou, He,Han, Jianguo,Zhang, Tiejun.

[5]Physiological and molecular adjustment of cotton to waterlogging at peak-flowering in relation to growth and yield. Zhang, Yanjun,Song, Xuezhen,Li, Zhenhuai,Lu, Hequan,Kong, Xiangqiang,Eneji, A. Egrinya,Dong, Hezhong,Zhang, Yanjun,Dong, Hezhong,Song, Xuezhen,Yang, Guozheng.

[6]NO-TILLAGE AND WIDE PLANT SPACING FOR HYBRID RICE PRODUCTION IN SOUTHWEST CHINA. . 2017

[7]Using three selected overlapping RILs to fine-map the yield component QTL on Chro.D8 in Upland cotton. Chen, Hong,Qian, Neng,Guo, Wangzhen,Zhang, Tianzhen,Song, Qingping,Li, Baocheng,Deng, Fujun,Dong, Cunguang. 2010

[8]NITROGEN DOSES AND PLANT DENSITY AFFECT PHENOLOGY AND YIELD OF SWEET CORN. Khan, Zafar Hayat,Khalil, Shad Khan,Khan, Zafar Hayat,Iqbal, Amjad,Shah, Farooq,Iqbal, Amjad,Ullah, Ikram,Ali, Muhammad,Shah, Tariq,Wu, Wei. 2017

[9]Yield and yield component analysis of early-season rice in southern China. Mo, Hailing,Qin, Gang,Luo, Zhiyong,Zhang, Zongqiong,Chen, Caihong. 2013

[10]Frequency, depth and rate of phosphorus fertilizer application effects on alfalfa seed yields. Zhang, Tiejun,Kang, Junmei,Guo, Wenshan,Yang, Qingchuan,Zhao, Zhongxiang. 2014

[11]QTL Mapping for Grain Yield Conditioned on its Component Traits in Two RIL Populations of Bread Wheat. Ding, A. M.,Cui, F.,Li, J.,Zhao, C. H.,Qi, X. L.,Bao, Y. G.,Li, X. F.,Wang, H. G.,Ding, A. M.,Cui, F.,Li, J.,Wang, L.. 2013

[12]Effects of Waterlogging and Shading at Jointing and Grain-Filling Stages on Yield Components of Winter Wheat. Liu, Yang,Shi, Chunlin,Xuan, Shouli,Wei, Xiufang,Shi, Yongle,Luo, Zongqiang. 2016

[13]Effects of waterlogging at different growth stages on physiological characteristics and seed yield of winter rape (Brassica napus L). Zhou, WJ,Lin, XQ. 1995

[14]Comparison of high-yield rice in tropical and subtropical environments - I. Determinants of grain and dry matter yields. Ying, JF,Peng, SB,He, QR,Yang, H,Yang, CD,Visperas, RM,Cassman, KG. 1998

[15]Cadmium accumulation in Agaricus blazei Murrill. Huang, Jian Cheng,Ben Li, Kai,Yu, Ying Rui,Wu, Hanwen,Liu, De Li. 2008

[16]Effects of Fertilizer Application Rate and Planting Density on Photosynthetic Characteristics, Yield and Yield Components in Waxy Wheat. Fang, X. M.,She, H. Z.,Wang, C.,Liu, X. B.,Li, Y. S.,Nie, J.,Ruan, R. W.,Wang, C.,Wang, T.. 2018

[17]Genetic improvement of grain yield and associated traits in the southern China winter wheat region: 1949 to 2000. Zhu, H. Z.,Cai, S. B.,He, Z. H.,Zhang, X. K.,Xia, X. C.,Zhang, G. S.. 2007

[18]Frost affects grain yield components in winter wheat. Wu, Y. F.,Zhong, X. L.,Lv, G. H.,Song, J. Q.,Hu, X.,Ren, D. C.,Wei, C. Y..

[19]Genetic diversity among a founder parent and widely grown wheat cultivars derived from the same origin based on morphological traits and microsatellite markers. Li, X. J.,Xu, X.,Yang, X. M.,Li, X. Q.,Liu, W. H.,Gao, A. N.,Li, L. H.,Li, X. J.,Xu, X..

[20]Comparison of yield components and plant type characteristics of high-yield rice between Taoyuan, a 'special eco-site' and Nanjing, China. Li, Ganghua,Gu, Wei,Yang, Congdang,Wang, Shaohua,Ling, Qihong,Qin, Xia,Ding, Yanfeng,Xue, Lihong,Yang, Congdang.

作者其他论文 更多>>

微信小程序