Evaluating the Genetic Variations Among Improved Haricot Bean Varieties (Phaseolus vulgaris L.) Based on Their Agronomic Traits and Performing Their Half Diallel Cross

Getahun Bekana, Endashaw Girma, Abenezer Abebe, A. Sisay, Desalegn Alemayehu, Kidanemaryam Wagaw, Awol Beshir, D. Chalchisa, Fassil Hailu, D. Tesfaye
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引用次数: 1

Abstract

Haricot bean, often known as Boleqe in Ethiopia. It is a major legume crop produced widely all over the world. Depending on the variety, it may adapt to a wide range of environmental conditions, from sea level to almost 3000 meters above sea level. It thrives commonly in warm climates with temperatures ranging from 18 to 24°C. Despite its importance for nutrition and export, haricot bean production in Ethiopia is limited to small regions and small-scale growers, with little or no fertilizer or soil amendments being employed. The responses of the haricot bean varieties to each limitation varied, although they are mostly determined by the environmental conditions. The main bottle neck of haricot bean production is the lack of improved high producing cultivars that suit to each agroecology. The current experiment was carried out on six released haricot bean varieties with half diallel without reciprocal crosses on the field to make F1 hybrids in all possible combinations and with the objective of evaluation of agronomic traits of haricot bean varieties and performing their half diallel cross by using complete block design. An analysis of variance revealed a highly significant difference in yield contributing components among these released varieties at 5% probability level for most of the traits. This suggests that the released haricot bean varieties have a high genetic variation.
改良菜豆品种遗传变异评价根据它们的农艺性状,进行半双列杂交
Haricot bean,在埃塞俄比亚通常被称为Boleqe。它是一种主要的豆科作物,在世界各地广泛生产。根据品种的不同,它可以适应从海平面到海拔近3000米的各种环境条件。它通常生长在温暖的气候中,温度在18至24°C之间。尽管对营养和出口具有重要意义,但埃塞俄比亚的板豆生产仅限于小地区和小规模种植者,很少或根本没有使用肥料或土壤改良剂。豇豆品种对各种限制的反应各不相同,但主要由环境条件决定。目前扁豆生产的主要瓶颈是缺乏适合各农业生态的改良高产品种。本试验以6个发行的菜豆品种为材料,采用半双列杂交,不进行田间正交,在所有可能的组合中配制F1杂交,采用完全块设计对菜豆品种的农艺性状进行评价并进行半双列杂交。方差分析表明,各释放品种的大部分性状在5%的概率水平上具有极显著的产量贡献成分差异。这表明释放的板豆品种具有较高的遗传变异。
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