Integrating Multi-Trait Selection and Environmental Stability for Soybean (Glycine max L. Merr.) Genotype Improvement in Indonesia.

IF 6.3 1区生物学 Q1 PLANT SCIENCES

Plant, Cell & Environment Pub Date : 2025-06-06 DOI:10.1111/pce.15662

Fadila Ridara, Debby Ustari, Arif Affan Wicaksono, Azka Algina, Suseno Amien, Gatut Wahyu Anggoro Susanto, Sri Koerniati, Bernadetta Rina Hastilestari, Vergel Concibido, Agung Karuniawan

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引用次数: 0

Abstract

Soybean (Glycine max L. Merr.) is a critical crop for food security and economic development in tropical regions, particularly in Indonesia. Despite its importance, the productivity of soybean in these areas is hindered by challenging climatic conditions, leading to a reliance on imports from temperate regions. Here, we identify genotypes that exhibit superior agronomic traits and stability, thereby contributing to improved soybean productivity in tropical environments. The multi-trait genotype-ideotype distance index (MGIDI) and multi-trait stability index (MTSI) were employed to evaluate the genotypes' performance in relation to an ideal ideotype and their stability across the environments. Additionally, the Genotype Main Effect Plus G × E Interaction (GGE) Biplot analysis was utilised to examine genotype-by-environment interactions and to identify the most suitable environments for soybean cultivation. The MGIDI index analysis identified the 100-seed weight (W100) as a key trait with the highest selection gain. The MTSI identified genotypes G11, G18 and G14 as the most stable across all environments. The GGE Biplot analysis indicated E2 (Upland, rainy season) as the most ideal environment for selecting superior soybean genotypes, suggesting it is the optimal setting for future breeding efforts. This study highlighted the importance of multi-trait selection and stability analysis in identifying soybean genotypes with both desirable traits and environmental stability for diverse tropical conditions. These findings offer strategic insights for future soybean breeding and cultivation in tropical regions.

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大豆多性状综合选择与环境稳定性研究印度尼西亚的基因型改良。

大豆（Glycine max L. Merr.）是热带地区，特别是印度尼西亚的粮食安全和经济发展的重要作物。尽管它很重要，但这些地区大豆的生产力受到气候条件恶劣的阻碍，导致依赖从温带地区进口。在这里，我们确定了表现出优越农艺性状和稳定性的基因型，从而有助于提高热带环境下大豆的生产力。采用多性状基因型-理想型距离指数（MGIDI）和多性状稳定性指数（MTSI）评价基因型与理想理想型的关系及其在不同环境下的稳定性。此外，利用基因型主效应加G × E相互作用（GGE）双图分析，研究了基因型与环境的相互作用，并确定了最适合大豆种植的环境。MGIDI指数分析表明，百粒重（W100）是选择增益最高的关键性状。MTSI鉴定出基因型G11、G18和G14在所有环境中最稳定。GGE双图分析表明，E2（旱地，雨季）是选择大豆优良基因型的最理想环境，是未来育种工作的最佳环境。本研究强调了多性状选择和稳定性分析在鉴定具有理想性状和不同热带条件下环境稳定性的大豆基因型中的重要性。这些发现为未来热带地区的大豆育种和种植提供了战略见解。

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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来源期刊

Plant, Cell & Environment 生物-植物科学

CiteScore

13.30

自引率

4.10%

发文量

253

审稿时长

1.8 months

期刊介绍： Plant, Cell & Environment is a premier plant science journal, offering valuable insights into plant responses to their environment. Committed to publishing high-quality theoretical and experimental research, the journal covers a broad spectrum of factors, spanning from molecular to community levels. Researchers exploring various aspects of plant biology, physiology, and ecology contribute to the journal's comprehensive understanding of plant-environment interactions.