Response of wheat to post-anthesis water stress, and the nature of gene action as revealed by combining ability analysis

文献类型: 外文期刊

第一作者: Mia, Md Sultan

作者: Mia, Md Sultan;Liu, Hui;Wang, Xingyi;Yan, Guijun;Mia, Md Sultan;Liu, Hui;Wang, Xingyi;Yan, Guijun;Mia, Md Sultan;Lu, Zhanyuan

作者机构:

关键词: combining ability;diallel cross;gene action;water stress;wheat

期刊名称:CROP & PASTURE SCIENCE ( 影响因子:2.286; 五年影响因子:2.507 )

ISSN:

年卷期:

页码:

收录情况: SCI

摘要: Post-anthesis water stress is a major limitation to wheat grain yield globally. Understanding the nature of gene action of yield related traits under post-anthesis water stress will help to breed stress-resilient genotypes. Four bread wheat genotypes having varying degree of drought tolerance were crossed in a full-diallel fashion and the resultant crosses along with the parental genotypes, were subjected to water stress after the onset of anthesis in order to investigate their comparative performance and nature of gene action. Parental genotypes Babax (B) and Westonia (W) performed better compared with C306 (C) and Dharwar Dry (D) with respect to relative reduction in grain yield and related traits under stressed condition. Direct cross B x D and reciprocal cross W x C were more tolerant to water stress, while cross between C306 and Dharwar Dry, either direct or reciprocal, produced more sensitive genotypes. Combining ability analysis revealed that both additive and non-additive gene action were involved in governing the inheritance of the studied traits, with predominance of non-additive gene action for most of the traits. Among the parents, Babax and Westonia were better combiners for grain yield under stress condition. B x D in stressed condition, and C x W in both stressed and stress-free conditions, were the most suitable specific crosses. Moreover, specificity of parental genotypes as female parents in cross combination was also evident from the significant reciprocal combining ability effects of certain traits. Low to medium narrow sense heritability and high broad sense heritability were observed for most of the studied traits in both well watered and water stress conditions. The results of the study suggested that specific cross combinations with high specific combining ability involving better performing parents with high general combining ability may generate hybrids as well as segregating populations suitable for further breeding programs.

分类号: S

  • 相关文献

[1]Genetic analysis of plant height and its components in diallel crosses of bread wheat (Triticum aestivum L.). Yao, J. B.,Ma, H. X.,Ren, L. J.,Zhang, P. P.,Yang, X. M.,Yao, G. C.,Zhang, P.,Zhou, M. P.. 2011

[2]GENETIC ANALYSIS OF THE GRAIN PROTEIN CONTENT IN SOFT RED WINTER WHEAT (Triticum aestivum L.). Yao, Jinbao,Ma, Hongxiang,Yang, Xueming,Zhou, Miaoping,Yang, Dan. 2014

[3]Inheritance analysis of anther dehiscence as a trait for the heat tolerance at flowering in japonica hybrid rice (Oryza sativa L.). Zhao, Ling,Zhu, Zhen,Zhang, Yadong,Chen, Zhide,Wang, Cailin,Zhao, Ling,Zhu, Zhen,Zhang, Yadong,Chen, Zhide,Wang, Cailin,Tian, Xiaohai,Kobayasi, Kazuhiro,Hasegawa, Toshihiro,Matsui, Tsutomu.

[4]The Influence of Different Seed Dressing Treatments on Wheat Seedlings Growth under Water Stress Conditions. Wu, Xueping,Zha, Yan,Li, Yinkun,Cai, Dianxiong,Gao, Zhiqiang,Lu, Mei. 2012

[5]Wheat acclimate to water deficit by modifying carbohydrates metabolism, water use efficiency, and growth. Hu, MengYun,Li, Hui,Shi, ZhiGang,Xu, Ping,Zhang, Zhengbin.

[6]Identification of Quantitative Trait Loci for Grain Traits in Japonica Rice. Li Mao-mao,Xu Lei,Ren Jun-fang,Cao Gui-lan,Han Long-zhi,Li Mao-mao,He Hao-hua,Li Mao-mao,Koh Hee-jong. 2010

[7]DIALLEL ANALYSIS OF EIGHT NUTRIENT QUALITY RELATED CHARACTERS IN THREE ECOTYPES OF CHINESE CABBAGE. Wang, Wei,Yu, Zhandong,Zhou, Xudan,Xia, Guangqing,He, Qiwei,Xia, Guangqing,He, Qiwei. 2016

[8]Estimates of genetic and phenotypic parameters for weight and length in Paralichthys olivaceus (Temminck et Schlegel). Tian Yongsheng,Liang You,Chen Songlin,Xu Tianjun. 2011

[9]INHERITANCE OF GRAIN YIELD AND ITS CORRELATION WITH YIELD COMPONENTS IN BREAD WHEAT (Triticum aestivum L.). Yao, Jinbao,Yang, Xueming,Zhou, Miaoping,Yang, Dan,Ma, Hongxiang. 2014

[10]Watermelon Lycopene Content Correlation with Flesh Colour and Genetic Research. Zhang, Fan,He, Hongju,Xu, Yong. 2010

[11]Inheritance of Resistance of Chinese Cabbage (Brassica campestris L.) to Diamondback Moth (Plutella xylostella). Wang, X.,Li, X. X.,Wu, Q. J.,Wang, H. P.,Shen, D.,Zhang, Y. J.,Song, J. P.,Xu, B. Y.. 2010

[12]Combining Ability and Genetic Effects of Germination Traits of Brassica napus L. Under Waterlogging Stress Condition. Cheng Yong,Cong Ye,Zou Chong-shun,Zhang Xue-kun,Wang Han-zhong,Gu Min. 2010

[13]Breeding disease-resistant Hami-melon. Wu, MZ,Yi, HP,Zhai, WQ,Feng, JX. 2004

[14]Heterosis and combining ability for plant height and its components in hybrid wheat with Triticum timopheevi cytoplasm. Peng, JH,Liu, ZQ. 1997

[15]Combining ability and heterotic grouping of ten temperate, subtropical and tropical quality protein maize inbreds. Fan, XM,Tan, J,Yang, JY,Chen, HM. 2004

[16]Heterotic grouping for tropical and temperate maize inbreds by analyzing combining ability and SSR markers. Fan, XM,Tan, J,Chen, HM,Yang, JY. 2003

[17]Dissection of combining ability for yield and related traits using introgression lines in the background of a key restorer line in rice (Oryza sativa L.). Xiang, Chao,Zhang, Hongjun,Wang, Jie,Wang, Wensheng,Gao, Yongming,Wang, Hui,Xia, Jiafa,Ye, Guoyou.

[18]Genetic analysis of rapeseed self-incompatibility lines reveals significant heterosis of different patterns for yield and oil content traits. Shen, JX,Fu, TD,Yang, GS,Ma, CZ,Tu, JX. 2005

[19]Improvement of the recessive genic male sterile lines with a subgenomic background in Brassica napus by molecular marker-assisted selection. Huang, Zhen,Xiao, Lu,Dun, Xiaoling,Xia, Shengqian,Yi, Bin,Wen, Jing,Shen, Jinxiong,Ma, Chaozhi,Tu, Jinxing,Meng, Jinling,Fu, Tingdong,Huang, Zhen,Xiao, Lu.

[20]Metabolite Profiling of Barley Grains Subjected to Water Stress: To Explain the Genotypic Difference in Drought-Induced Impacts on Malting Quality. Wu, Xiaojian,Cai, Kangfeng,Zhang, Guoping,Zeng, Fanrong,Wu, Xiaojian. 2017

作者其他论文 更多>>