青禾苗(Vigna radiata L. Wilczek)种子产量及其贡献性状的遗传变异和成分关系评估

Kajal Jain, G. Lal
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摘要

继鸽子豆和鹰嘴豆之后,青豌豆是亚洲第三大豆类作物。豆类是蛋白质的主要来源,可满足均衡饮食的日常需要和日常消耗。豆类对满足人类饮食中的蛋白质需求至关重要。由于豆类是最廉价的蛋白质,因此被称为穷人的肉。它是印度素食人口重要氨基酸的主要来源。本实验中有二十种青鳉基因型,外加一种对照。2023 年扎伊德月期间,在 RBD 进行了三次重复试验。收集了 13 个性状的数据,以研究遗传进展、变异性、遗传率、相关性和路径分析。根据方差分析,所研究的大多数性状在现有种质中具有显著的遗传多样性。根据谷物产量及其成分的平均表现,CO-7 的表现优于 AMULYA、SML-20-10 和 IPM-2-14。对变异系数的详细研究表明,环境对所研究性状的表现没有影响,PCV 和 GCV 之间的微小差异就证明了这一点。在生物产量、单株结荚数和单株结籽数方面,GCV 和 PCV 的估计值为中高水平。种子指数、株高、收获指数和每荚种子数的遗传力估计值较高。由于它们受环境因素的影响较小,遗传决定潜力较大,因此高遗传率估计值可用于遗传改良。种子指数、每株分枝数和每株簇数的遗传力估计值较低。从相关性来看,株高、单株主枝数、单株穗数、单株豆荚数、生物产量和收获指数均与单株谷物产量显著正相关。路径分析显示,株高、单株丛数、生物产量和收获指数在表型和基因型水平上都对产量有直接影响。因此,这些特征被认为是直接选择的有效和前瞻性特征,以提高目前试验材料中青稞的产量。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Assessment of Genetic Variability and Component Relationship of Seed Yield and Its Contributing Traits in Greengram (Vigna radiata L. Wilczek)
After pigeonpea and chickpea, greengram is the third most significant pulse crop in Asia. Pulses are the primary source of protein needed to satisfy both the daily need and the daily consumption for a balanced diet. Pulses are essential to achieving the diet's protein requirements for humans. Because they are the least expensive type of protein, they are referred to as poor people's meat. It is the primary source of vital amino acids for India's vegetarian population. There are twenty genotypes of Greengram in this experiment, plus one check. Three replications of the experiment were carried out at RBD during the month of Zaid in 2023. Thirteen characters' worth of data were collected in order to investigate genetic advancement, variability, heritability, correlation, and path analysis. The majority of the traits under study have significant genetic diversity in the available germplasm, according to analysis of variance. According to the mean performance of grain yield and its constituents, CO-7 performed better than AMULYA, SML-20-10, and IPM-2-14. A detailed examination of the variability coefficients showed that there was no environmental influence on the expression of the traits under study, as evidenced by the small difference between PCV and GCV. For biological yield, number of pods per plant, and number of seed yield per plant, high to moderate estimations of GCV & PCV were noted. For the seed index, plant height, harvesting index, and quantity of seeds per pod, high estimates of heritability were noted. Since they are less affected by environmental factors and have a greater potential for genetic determination, high heritability estimates can be used for genetic improvement. For the seed index, number of branches per plant, and number of clusters per plant, low estimations of genetic advance were noted. According to correlation, plant height, major branches per plant, clusters per plant, pods per plant, biological yield, and harvest index all positively and significantly correlated with grain yield per plant. Path analysis revealed that plant height, cluster size per plant, biological yield, and harvest index have a direct impact on yield at both the phenotypic and genotypic levels. These characteristics are therefore acknowledged as the effective and prospective characteristics for direct selection in order to increase Greengram productivity in the current experimental materials.
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