A diallel cross-based analysis of the genetic basis of pod quality and pod yield in snap bean

SN Njau, EE Arunga, R. Otsyula, S. Njau
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Abstract

Snap bean (Phaseolus vulgaris L.) is among the leading vegetables in Kenya that is mainly grown for export with the potential to increase household income. There are few programs in Kenya that focus on breeding new cultivars for increased production. The development of snap bean varieties that are resilient to the changing climate is crucial for sustainable agriculture in Kenya. To achieve this, knowledge of gene action, trait expression, and heritability is vital in effective breeding for quantitative traits like pod quality and yield. A study was conducted to investigate the inheritance of pod quality and yield traits in snap beans, which can inform the breeding of snap beans. A half diallel cross involving two indeterminate dry beans (G2333 and MCM 5001) and five determinate snap beans (Amy, Moonstone, Seagull, Serengeti and Vanilla) varieties was conducted. Data on pod traits (pod weight per plant, pod number per plant, pod length, pod diameter, pod wall fiber and pod suture string) were collected from 21 F1s and 7 parents grown in two locations (Embu and Kirinyaga Counties) in Kenya. The results showed significant genotypic and environmental effects (P < 0.001) for all traits, with significant genotype by environment (G × E) interactions for most traits. Additionally, general combining abilities (GCA) and specific combining abilities (SCA) were significant for all traits evaluated. The significance of GCA and SCA indicated the importance of both additive and non-additive gene effects in controlling the traits, although the additive gene effects were predominant. The study revealed that Vanilla and Serengeti had the highest GCA estimate for pod quality traits, while G2333 and MCM5001 had the highest GCA estimate for pod yield traits. Snap bean pod yield and quality are quantitative traits controlled by multiple genes and influenced by the environment. Therefore, the predominance of additive gene effects suggests that selection for these traits in segregating generations could yield satisfactory gains. The results of this study could impact the development of snap bean varieties that are more resilient to the effects of climate change. Thus, improving the sustainability and productivity of the agriculture sector in Kenya. Key words: Snap bean, GCA, SCA, gene action, heritability, combining ability
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豆荚质量和豆荚产量的遗传基础分析
菜豆(Phaseolus vulgaris L.)是肯尼亚的主要蔬菜之一,主要用于出口,具有增加家庭收入的潜力。肯尼亚很少有计划专注于培育新的栽培品种以提高产量。培育能够适应气候变化的豆角品种对于肯尼亚的可持续农业至关重要。要实现这一目标,了解基因作用、性状表达和遗传率对于有效培育豆荚质量和产量等数量性状至关重要。这项研究旨在调查豆荚质量和产量性状的遗传情况,为豆荚育种提供参考。研究人员对两个不定株干豆品种(G2333 和 MCM 5001)和五个定株豆品种(Amy、Moonstone、Seagull、Serengeti 和 Vanilla)进行了半等位杂交。收集了在肯尼亚两个地点(恩布县和基里尼亚加县)种植的 21 个 F1 和 7 个亲本的豆荚性状数据(单株豆荚重量、单株豆荚数、豆荚长度、豆荚直径、豆荚壁纤维和豆荚缝合线)。结果表明,所有性状都有明显的基因型和环境效应(P < 0.001),大多数性状都有明显的基因型与环境(G × E)交互作用。此外,一般结合能力(GCA)和特殊结合能力(SCA)对所有评估性状都有显著影响。GCA 和 SCA 的显著性表明,加性和非加性基因效应在控制性状方面都很重要,但加性基因效应占主导地位。研究表明,香草和塞伦盖蒂对豆荚质量性状的 GCA 估计值最高,而 G2333 和 MCM5001 对豆荚产量性状的 GCA 估计值最高。脆豆豆荚产量和质量是由多个基因控制并受环境影响的数量性状。因此,加性基因效应占主导地位表明,在分离世代中对这些性状进行选择可获得令人满意的收益。这项研究的结果可能会对开发更能抵御气候变化影响的豆角品种产生影响。从而提高肯尼亚农业部门的可持续性和生产力。关键词豆角、GCA、SCA、基因作用、遗传率、结合能力
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来源期刊
African Journal of Food, Agriculture, Nutrition and Development
African Journal of Food, Agriculture, Nutrition and Development Agricultural and Biological Sciences-Agricultural and Biological Sciences (miscellaneous)
CiteScore
0.90
自引率
0.00%
发文量
124
审稿时长
24 weeks
期刊介绍: The African Journal of Food, Agriculture, Nutrition and Development (AJFAND) is a highly cited and prestigious quarterly peer reviewed journal with a global reputation, published in Kenya by the Africa Scholarly Science Communications Trust (ASSCAT). Our internationally recognized publishing programme covers a wide range of scientific and development disciplines, including agriculture, food, nutrition, environmental management and sustainable development related information.
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