AMMI and GGE biplot analysis for barley genotype yield performance and stability under multi environment condition in southern Ethiopia

IF 1.3 Q3 AGRONOMY Agrosystems, Geosciences & Environment Pub Date : 2024-09-10 DOI:10.1002/agg2.20565
Shegaw Derbew, Firew Mekbib, Berhane Lakew, Agdew Bekele, Zewdie Bishaw
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Abstract

Barley (Hordeum vulgare L.) is a major grain crop farmed in Ethiopia throughout the long rainy season (Meher) and the short rainy season (Belg) of the year. Barley genotypes were subjected to multi-environment experiments in six different settings to identify stable genotypes and estimate the impact of genotype × environment interaction (GEI) on grain production. In each area, the field experiment was conducted from mid-July to January during the primary cropping season of 2021. Three replications of a randomized complete block design were used to set up the trials. According to the additive main effects and multiplicative interaction (AMMI) study, genotype (18.19%), GEI (22.98%), and environment (58.83%) all had an impact on the major treatment sum of squares. The more variance attributed to the environments is a sign of environmental diversity. Given that the two interaction principal component analysis (IPCAs) accounted for 76.94% of the interaction sum of squares, they were sufficient for cross-validation of the grain yield variance explained by GEI. In contrast to the GGE biplot approaches, which indicated genotypes G12, G3, and G9 as stable and high-yielding genotypes throughout the environments, the AMMI stability value identified genotypes G3, G12, and G9 as high yielding with stable performance across environments. In general, the GGE biplot and AMMI analysis models demonstrated that genotypes G12, G3, and G9 were stable and yielded well, making G3 acceptable for cultivation in a wider range of environments and G12 and G9 suitable for release.

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埃塞俄比亚南部多环境条件下大麦基因型产量表现和稳定性的 AMMI 和 GGE 双图分析
大麦(Hordeum vulgare L.)是埃塞俄比亚一年中长雨季(Meher)和短雨季(Belg)的主要粮食作物。大麦基因型在六个不同环境下进行了多环境试验,以确定稳定的基因型,并估计基因型 × 环境交互作用(GEI)对谷物产量的影响。每个地区的田间试验都是在 2021 年主要耕种季节的 7 月中旬至 1 月进行的。试验采用三重复随机完全区组设计。根据加性主效应和乘性交互作用(AMMI)研究,基因型(18.19%)、GEI(22.98%)和环境(58.83%)都对主要处理的方差和有影响。归因于环境的方差越大,说明环境的多样性越强。鉴于两个交互作用主成分分析(IPCA)占交互作用平方和的 76.94%,它们足以交叉验证 GEI 所解释的谷物产量方差。GGE 双图法表明基因型 G12、G3 和 G9 在各种环境中都是稳定的高产基因型,而 AMMI 稳定值则表明基因型 G3、G12 和 G9 在各种环境中都是表现稳定的高产基因型。总体而言,GGE 双图和 AMMI 分析模型表明,基因型 G12、G3 和 G9 稳定且产量高,因此 G3 可在更广泛的环境中种植,而 G12 和 G9 则适合释放。
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来源期刊
Agrosystems, Geosciences & Environment
Agrosystems, Geosciences & Environment Agricultural and Biological Sciences-Agricultural and Biological Sciences (miscellaneous)
CiteScore
2.60
自引率
0.00%
发文量
80
审稿时长
24 weeks
期刊最新文献
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