Diversity analysis of phenotypic traits in okra (Abelmoschus esculentus L. Moench)

IF 0.2 Q4 HORTICULTURE Journal of Horticultural Sciences Pub Date : 2022-09-24 DOI:10.24154/jhs.v17i1.1214

A. Ranga, Ankush Chaudhary, M. Darvhankar

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Abstract

It is necessary to obtain cultivars which provide high yield by exploiting desirable traits from wild genotypes of okra (Abelmoschus esculentus L. Moench). Okra genotypes were evaluated for phenotypic traits during 2018. High genotypic coefficient of variation (GCV) and phenotypic coefficient of variation (PCV) occurred for nine traits and narrow differences between GCV and PCV indicated the influence of environment was negligible. High estimates of heritability, coupled with moderate to high genetic advance as a percent over mean, were recorded for nine traits. Thousand seed weight had a positive, significant, correlation with yield per hectare. Plant height and number of fruits per plant had direct and positive effects towards the yield per hectare The principal component analysis indicated the first 3 principal components contributed 80.517% of total variation among traits describing genotypes. Cluster analysis indicated hybridization of genotypes among inter-cluster I and II could be used to develop stable, uniform varieties in diverse climatic conditions. EC359637 and IARI Selection 2 are distantly placed and can be used for overall improvement in further crop breeding.

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秋葵表型性状多样性分析

利用秋葵野生基因型的优良性状，培育高产秋葵品种是十分必要的。2018年对秋葵基因型进行表型性状评估。9个性状的基因型变异系数(GCV)和表型变异系数(PCV)均较高，GCV与PCV之间的差异较小，表明环境的影响可以忽略不计。9个性状具有较高的遗传率，加上相对于平均值的中等到较高的遗传进步率。千粒重与每公顷产量呈显著正相关。株高和单株果数对单株产量有直接的正向影响，主成分分析表明，前3个主成分对基因型性状的总变异贡献率为80.517%。聚类分析表明，聚类I和聚类II之间的基因型杂交可以在不同的气候条件下培育出稳定、统一的品种。EC359637和IARI选择2的位置较远，可用于进一步作物育种的整体改良。

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