Path analysis of the relationships between the performance and its constituents in corn lines

S. Ponurenko, V. Kolomatska, L. Chernobay
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Abstract

The article presents the results of studying the genotypic variability parameters and relationships between traits affecting the performance in corn lines. In a series of three-year trials in 2006–2020, genotypic levels of the performance and its constituents in mid-early and mid-ripening corn lines, which were bred in the Laboratory of Corn Breeding and Seed Production of the Plant Production Institute named after V. Ya. Yuriev and became a part of its working collection, were determined. It was found that the average group performance of mid-ripening lines was higher than that of mid-early ones with differences depending on kernel type. Path analysis of genotypic correlations between the performance and its constituents allowed for evaluation of direct and side effects. It was found that the coefficients of pair correlation between the performance and its constituents were positive and mostly low or moderate, ranging 0.327 for "kernel number per ear" trait to 0.656 for "ear diameter" trait. However, when the correlations between the studied traits were divided into direct and side effects, the direct path coefficients were only high for the impact of "kernel number per ear" and "1000-kernel weight" traits (0.835 and 0.812, respectively) on the performance. Such traits as the "ear diameter", "number of kernel rows" and "kernel number per row" had very low values of the direct path coefficients (0.041 – 0.098), but affected the performance indirectly through the “kernel number per ear” trait. The "number of kernel rows" (0.622) and "kernel number per row" (0.544) exerted the greatest indirect impact on the performance through the "kernel number per ear" trait. As to the “1000-kernel weight” trait, there were significant negative indirect effects of the "kernel number per ear" and "number of kernel rows" traits, with the path coefficients of -0.350 and -0.362, respectively. It was shown that "ear diameter"-, "number of kernel rows"-, and "kernel number per row"-oriented selections were indirect, as they are components of the "kernel number per ear" trait and are at another level in the performance module. The “kernel number per ear”- and “1000-kernel weight”-oriented direct selections for performance can be most effective, but regarding the latter, one should take into account the negative side effects of the "kernel number per ear" and "number of kernel rows" traits, which can be achieved by building up aggregated indexes. Keywords: corn, inbred line, performance, correlation analysis, path analysis.
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玉米品系生产性能与其成分关系的通径分析
本文介绍了影响玉米品系生产性能的基因型变异、参数及性状间关系的研究结果。在2006-2020年为期3年的一系列试验中,对植物生产研究所玉米育种与制种实验室选育的中、早熟玉米品系的性能及其成分的基因型水平进行了研究。尤里耶夫,并成为其工作收藏品的一部分,决心。结果表明,中熟系的平均群体产量高于中早熟系,但因籽型不同而存在差异。性能与其成分之间基因型相关性的通径分析允许评估直接和副作用。结果表明,各性状的对相关系数均为正相关,且多为低相关或中等相关,“穗粒数”性状为0.327,“穗径”性状为0.656。然而,当将性状间的相关性分为直接效应和副效应时,只有“穗粒数”和“千粒重”性状的直接通径系数较高(分别为0.835和0.812)。“穗径”、“粒行数”和“行粒数”等性状的直接通径系数值很低(0.041 ~ 0.098),但通过“穗粒数”性状间接影响了产量。通过“穗粒数”性状,“核行数”(0.622)和“行粒数”(0.544)对性能的间接影响最大。在“千粒重”性状上,“穗粒数”和“粒行数”性状的间接负向效应显著,通径系数分别为-0.350和-0.362。结果表明,“穗径”-、“核行数”-和“每行核数”定向选择是间接的,因为它们是“每穗核数”性状的组成部分,在性能模块中处于另一个层次。面向“每穗核数”和“1000个核权”的性能直接选择可能是最有效的,但对于后者,应该考虑到“每穗核数”和“内核行数”特征的负面影响,这可以通过构建聚合索引来实现。关键词:玉米,自交系,生产性能,相关分析,通径分析
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