黄淮地区大豆微型核心种质的适应性分析

Q3 Agricultural and Biological Sciences Acta Agronomica Sinica Pub Date : 2011-03-01 DOI:10.1016/S1875-2780(11)60014-X
Zhang-Xiong LIU , Chun-Yan YANG , Ran XU , Wei-Guo LU , Yong QIAO , Li-Feng ZHANG , Ru-Zhen CHANG , Li-Juan QIU
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引用次数: 3

摘要

为了评价大豆[甘氨酸]种质资源的环境适应性和稳定性,采用可加性主效应和乘法互作(AMMI)模型对一个小型核心种质的重要农艺性状数据进行了分析。2008 - 2009年,在河北、河南和山东3省6个试验点对60份大豆种质资源进行了农艺性状研究。基因型与环境的交互作用(G × E)显著(P <株高、有效枝数、百粒重、单产变异率为0.01),占总变异率的16.7 ~ 24.6%。因此,有必要对微型岩心集合的环境稳定性进行剖析。基因型对不同性状的适应性在不同的种植地点存在差异。部分基因型表现出广泛的适应性和良好的稳定性,不同位点的表型变异较小;而在其他基因型中,G × E相互作用较强。该结果为在黄淮地区大豆育种中有效利用微型核心种质提供了理论依据。
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Analysis of Adaptability of Soybean Mini Core Collection in Huang-Huai Rivers Region in China

For evaluating the environmental adaptability and stability of soybean [Glycine spp.] germplasm, the data of important agronomic traits in a mini core collection were analyzed using the additive main effects and multiplicative interaction (AMMI) model. The mini core collection contained 60 accessions of soybean germplasm, and their agronomic traits were investigated in 6 trail sites in Hebei, Henan, and Shandong provinces of China from 2008 to 2009. The interactions between genotypes and environment (G × E) were significant (P < 0.01) in plant height, effective branch number, 100-seed weight, and yield per unit area, which accounted for 16.7–24.6% of total variations. Thus, it is necessary to dissect the environmental stability of the mini core collection. Adaptabilities of genotypes varied across planting sites in different traits. Some genotypes showed wide adaptability and good stability with small phenotypic variations in different sites; whereas, strong G × E interaction was observed in some other genotypes. This result provides a theoretical basis for effectively using the mini core collection in soybean breeding in the Huang-Huai Rivers Region of China.

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30 weeks
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