Improving Breeding Efficiency of a Hybrid Maize Breeding Program Using a Three Heterotic-Group Classification
文献类型: 外文期刊
第一作者: Fan, XingMing
作者: Fan, XingMing;Bi, Yaqi;Zhang, Yudong;Jeffers, Daniel;Yin, XingFu;Kang, Manjit
作者机构:
期刊名称:AGRONOMY JOURNAL ( 影响因子:2.24; 五年影响因子:2.829 )
ISSN: 0002-1962
年卷期: 2018 年 110 卷 4 期
页码:
收录情况: SCI
摘要: Heterotic group classification has a crucial impact on maize (Zea mays L.) breeding efficiency in a hybrid-based breeding program. The objectives of this study were to: (i) investigate whether or not breeding efficiency could be improved using a three heterotic-group (TriHG) classification (Reid and non-Reid, and Suwan1 heterotic groups) system instead of a usual two heterotic-group (DiHG) classification (Reid and non-Reid heterotic groups) system; and (ii) estimate the impact of TriHG and DiHG systems on breeding efficiency, utilizing the same data in computing specific breeding efficiency (SBE) and general breeding efficiency (GBE) in a subtropical breeding program in southern China. Twenty-five adapted tropical and subtropical lines were crossed to six testers using a line x tester mating design. Data on grain yield were used to calculate SBE and GBE for comparing DiHG- and TriHG-based strategies. The TriHG classification system increased GBE by 77.8% over the DiHG system without a significant loss in SBE. We concluded that the TriHG system was better than the DiHG system for improving maize-breeding efficiency. Therefore, maize breeders may re-think their breeding strategy for improving breeding efficiency in long-term breeding programs by adopting the suggested TriHG system. Hybrid maize improvement programs, especially in the early stages of breeding for identifying hybrids with high yield potential, can be become more efficient by using three testers with one from each of Reid, nonReid, and Suwan1 heterotic groups. This would improve the chances of developing high-yielding hybrids in a breeding program with the available, diverse germplasm.
分类号:
- 相关文献
作者其他论文 更多>>
-
Identification of candidate gene associated with maize northern leaf blight resistance in a multi-parent population
作者:Bi, Yaqi;Jiang, Fuyan;Yin, Xingfu;Shaw, Ranjan K.;Guo, Ruijia;Wang, Jing;Fan, Xingming
关键词:Zea mays; Northern leaf blight; Multi-parent population; Genome-wide association analysis; QTL mapping; CATETO germplasm
-
Genome-Wide Association Study and Prediction of Tassel Weight of Tropical Maize Germplasm in Multi-Parent Population
作者:Liu, Meichen;Zhang, Xingjie;Li, Jinfeng;Li, Linzhuo;Li, Shaoxiong;Zhang, Yudong;Shaw, Ranjan K.;Adnan, Muhammad;Jiang, Fuyan;Bi, Yaqi;Yin, Xingfu;Fan, Xingming
关键词:tassel weight; genome-wide association study; candidate gene; genomic selection
-
Identification of a novel marker and its associated laccase gene for regulating ear length in tropical and subtropical maize lines
作者:Bi, Yaqi;Li, Kunzhi;Bi, Yaqi;Jiang, Fuyan;Zhang, Yudong;Kuang, Tianhui;Shaw, Ranjan K.;Adnan, Muhammad;Fan, Xingming;Li, Ziwei
关键词:
-
Genome-Wide Association Studies on the Kernel Row Number in a Multi-Parent Maize Population
作者:Wang, Yizhu;Ran, Fengyun;Yin, Xingfu;Jiang, Fuyan;Bi, Yaqi;Shaw, Ranjan K.;Fan, Xingming
关键词:maize; candidate gene; GWAS; QTL; KRN; GO/KEGG analysis; Mo17
-
Studies on Candidate Genes Related to Flowering Time in a Multiparent Population of Maize Derived from Tropical and Temperate Germplasm
作者:Ran, Fengyun;Wang, Yizhu;Jiang, Fuyan;Yin, Xingfu;Bi, Yaqi;Shaw, Ranjan K.;Fan, Xingming
关键词:maize flowering time; GWAS; estimated breeding value; tropical maize germplasm
-
Dissection of Common Rust Resistance in Tropical Maize Multiparent Population through GWAS and Linkage Studies
作者:Jiang, Fuyan;Bi, Yaqi;Yin, Xingfu;Zhang, Yudong;Shaw, Ranjan K.;Ijaz, Babar;Fan, Xingming;Li, Linzhuo;Li, Shaoxiong;Zhang, Xingjie;Liu, Meichen;Li, Jinfeng
关键词:tropical maize; multiparent populations common rust; QTL; GWAS; candidate genes
-
Genetic dissection of resistance to gray leaf spot by genome-wide association study in a multi-parent maize population
作者:Hu, Can;Kuang, Tianhui;Shaw, Ranjan K.;Zhang, Yudong;Bi, Yaqi;Jiang, Fuyan;Guo, Ruijia;Fan, Xingming;Hu, Can;Fan, Jun
关键词:Maize; Gray leaf spot; SNP; Haplotype; GWAS
