Stability analysis for grain yield of black cumin (Nigella sativa L.) genotypes in Bale, South-East Ethiopia

Scientific Journal of Animal Science Pub Date : 2017-11-18 DOI:10.14196/sjbs.v6i11.2510

M. Beriso, G. Asefa

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Abstract

Yield data of 12 black cumin ( Nigella sativa L.) cultivars tested across 9 rain-fed environments during the 2013-2015 growing season using RCBD in 3 replications. The AMMI analysis tested in nine environments (years) were showed that the yield was significantly affected (P<0.001) by genotypes and environment main effects. But non significant for GxE interaction. The model revealed that differences between the environments accounted for about 90% of the treatment sum of squares. The genotypes and the GxE interaction also accounted significantly for 4% and 6% respectively of the treatment SS. The first principal component axis (PCA 1) of the interaction captured 51.32% of the interaction sum of squares. Similarly, the second principal component axis (PCA2) explained a further 18.20% of the GEI sum of squares. The mean squares for the PCA 1 and PCA 2 were significant at P=0.01 and cumulatively contributed to 69.52% of the GxE interaction SS, leaving 30.37% of the variation in the GxE interaction in the residual. The AMMI and AMMI stability value (ASV) identified G10 as the most stable and high yielding genotype.

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埃塞俄比亚东南部贝尔黑孜然(Nigella sativa L.)基因型产量稳定性分析

2013-2015生长季12个黑孜然(Nigella sativa L.)品种在9个雨养环境下使用RCBD 3个重复的产量数据。9个环境(年)的AMMI分析表明，基因型和环境主效应对产量有显著影响(P<0.001)。但GxE相互作用不显著。该模型显示，环境之间的差异约占处理平方和的90%。基因型和GxE互作分别占处理SS的4%和6%，互作的第一主成分轴(PCA 1)占互作平方和的51.32%。同样，第二主成分轴(PCA2)进一步解释了18.20%的GEI平方和。PCA 1和PCA 2的均方根均显著(P=0.01)，累计贡献了69.52%的GxE相互作用SS，剩余30.37%的GxE相互作用变异。AMMI和AMMI稳定值(ASV)鉴定G10为最稳定高产的基因型。

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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Scientific Journal of Animal Science

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