Genetic Analysis of Morpho-metric Traits and Correlations of Yield Parameters in Soybean (Glycine max L. Merr)

Asian Journal of Agricultural and Horticultural Research Pub Date : 2022-11-18 DOI:10.9734/ajahr/2022/v9i4208

D. O. Ibirinde, A. Kolawole, C. Aremu, K. Balogun, M. Iliya, J. Angyu

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Abstract

Top crosses comprising 2 testers and 8 lines were made in the screen house using Line × Tester model. Observations were made on days to flowering, pod maturity, harvest, pods per plant, branching pattern, seeds per pod, 100 seed weight and yield/ha; crude protein, crude fiber, carbohydrate, moisture, ash and oil, as well as trypsin, tannins and phytate. Data collected were subjected to Analysis of Variance and the means separated using Duncan Multiple Range Test (DMRT), at 5% probability level. Genetic component analysis was carried out on the traits using Analysis of Genetic Design (AGD-R) package, to determine heritability, General Combining Ability (GCA) and Specific Combining Abilities (SCA). Results of the study revealed that, positive GCA values were recorded by TGM954 (0.01), TGM120 (0.07), TGM553 (0.70), TGM555 (0.58), TGM574 (0.19), TGM584 (0.14) and TGX1904-6F (0.12) for 100 seed weight; TGM954 (76.83) and TGM584 (12.54) for seed yield. Generally, TGM954 was a better general combiner than TGM951, because it combined well with other varieties for yield and yield-related traits. High heritability estimates were recorded for 100 seed weight (84.10%), number of branches (86.61%), days to flowering (91.69%), pods per pod (88.48%) and seed yield (86.07%). It can be concluded, that, crosses using Line × Tester model is encouraged for trait transfer and enhancement of soybean seed yield.

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大豆(Glycine max L. Merr)形态计量性状及产量参数相关性遗传分析

采用Line × Tester模型在纱房内进行2个测试器和8条线的顶交叉。观察开花期、荚果成熟度、收获、单株荚果、分枝形态、每荚果种子数、百粒重和单产/公顷;粗蛋白质、粗纤维、碳水化合物、水分、灰分和油，以及胰蛋白酶、单宁和植酸盐。收集的数据进行方差分析，采用Duncan多元极差检验(DMRT)，在5%的概率水平上分离均数。采用遗传设计分析(AGD-R)软件包对各性状进行遗传成分分析，确定遗传力、一般配合力(GCA)和特定配合力(SCA)。结果表明，TGM954(0.01)、TGM120(0.07)、TGM553(0.70)、TGM555(0.58)、TGM574(0.19)、TGM584(0.14)和TGX1904-6F(0.12)在100粒重的GCA值均为阳性;种子产量为TGM954(76.83)和TGM584(12.54)。总体而言，TGM954与其他品种在产量及产量相关性状上的配合力较好，是较好的综合配合力。百粒重(84.10%)、分枝数(86.61%)、开花天数(91.69%)、每荚荚数(88.48%)和种子产量(86.07%)均有较高的遗传力。综上所述，采用Line × Tester模型进行杂交有利于性状转移和大豆籽粒产量的提高。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Asian Journal of Agricultural and Horticultural Research

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