Potential of tropical maize populations for improving an elite maize hybrid

文献类型: 外文期刊

第一作者: Yong, Hongjun

作者: Yong, Hongjun;Wang, Jianjun;Liu, Zhipeng;Li, Mingshun;Zhang, Degui;Li, Xinhai;Zhang, Shihuang

作者机构:

关键词: Zea mays L;maize germplasm;favorable alleles;elite hybrid

期刊名称:MAYDICA ( 影响因子:0.542; 五年影响因子:0.605 )

ISSN: 0025-6153

年卷期: 2011 年 56 卷 4 期

页码:

收录情况: SCI

摘要: Identifying exotic maize (Zea mays L) populations possessing favorable new alleles lacking in local elite hybrids is an important strategy for improving maize hybrids. Selection of an appropriate breeding method will increase the chance of successfully transferring these favorable new alleles into elite inbred lines of local hybrids. The objectives of this study were to: (i) evaluate 14 maize populations from CIMMYT and identify those containing favorable alleles for grain yield, ear length, ear diameter, kernel length, plant height, and ear height that are lacking in a local super hybrid [Jidan261 (W9706 x Ji853)], and to (ii) determine which inbred parent should be improved. These results showed that the populations Pob43, Pob501, and La Posta had positive and significant numbers of favorable alleles not found in hybrid W9706 x Ji853 that could be used for simultaneous improvement of its grain yield, ear length, and kernel length, and that population QPM-Y was also a good donor for improvement of ear diameter and kernel length in the hybrid. Based on allele frequencies in the two inbred lines and the donor population, when the populations Pob43, La Posta, Pob501, and QPM-Y were used as donors, inbred line W9706 would be improved by selfing the F-1 of the cross W9706 x donor population. These results suggested that CIMMYT germplasm has potential to improve temperate elite hybrids. The relationship between GCA and SCA from a previous study and the parameters obtained from the Dudley method are discussed. The results showed that the values of Lpl mu' estimates obtained by applying the Dudley method had the same trend as GCA effects for grain yield but a less clear trend for ear length, while the trends in the relationship value were reversed for SCA between these populations and Lancaster-derived lines.

分类号:

  • 相关文献

[1]Breeding potential of maize germplasm populations to improve yield and predominant heterotic pattern in Northeast China. Yong, Hongjun,Zhang, Fangjun,Zhang, Xiaocong,Zhang, Degui,Li, Mingshun,Weng, Jianfeng,Hao, Zhuanfang,Zhang, Shihuang,Li, Xinhai,Jin, Zhenguo,Gao, Li,Zhang, Lin,Liu, Xianjun.

[2]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.

[3]Targeted association mapping demonstrating the complex molecular genetics of fatty acid formation in soybean. Li, Ying-hui,Ma, Yan-song,Hong, Hui-long,Liu, Zhang-xiong,Chang, Ru-zhen,Qiu, Li-juan,Reif, Jochen C.,Ma, Yan-song. 2015

[4]Quantitative Trait Loci for Asian Corn Borer Resistance in Maize Population Mc37 x Zi330. Li Xia,He Kang-lai,Wang Zhen-ying,Bai Shu-xiong,Li Xia. 2010

[5]Increasing maize seed weight by enhancing the cytoplasmic ADP-glucose pyrophosphorylase activity in transgenic maize plants. Wang, Zhangying,Chen, Xiaoping,Wang, Jianhua,Liu, Tingsong,Liu, Yan,Zhao, Li,Wang, Guoying. 2007

[6]Spatial distribution of rhizodeposit carbon of maize (Zea mays L.) in soil aggregates assessed by multiple pulse C-13 labeling in the field. Qiao, Yunfa,Miao, Shujie,Li, Na,Han, Xiaozeng,Zhang, Bin,Zhang, Bin.

[7]Analysis of genetic differentiation and genomic variation to reveal potential regions of importance during maize improvement. Wu, Xun,Li, Yongxiang,Li, Xin,Li, Chunhui,Shi, Yunsu,Song, Yanchun,Li, Yu,Wang, Tianyu,Wu, Xun,Zheng, Zuping. 2015

[8]Cloning and characterization of maize ZmSPK1, a homologue to nonfermenting1-related protein kinase2. Zou, HW,Zhang, XH,Zhao, JR,Yang, Q,Wu, ZY,Wang, FG,Huang, CL. 2006

[9]Stimulated fine root growth benefits maize nutrient uptake under optimized nitrogen management. Zeng, X.,Peng, Y.,Peng, Y.. 2017

[10]Recessive allelic variations of three microsatellite sites within the O2 gene in maize. Yang, W,Zheng, YL,Ni, S,Wu, J.

作者其他论文 更多>>

微信小程序