绿豆(Vigna radiata (L.))产量与矿物组成[R. Wilczek]东非不同农业生态系统中生长的基因型

IF 1.5 Q2 AGRONOMY International Journal of Agronomy Pub Date : 2023-10-25 DOI:10.1155/2023/5534650
Emmanuel K. Mbeyagala, Rael. Karimi, Papias H. Binagwa, Esther S. Amuge, Anil Kumar. Vemula, Ramakrishnan M. Nair
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引用次数: 0

摘要

绿豆[Vigna radiata [L.]R. Wilczek var. radiata]也被称为绿克是一种关键作物,特别是在东非的边缘地区。它富含微量营养素和蛋白质,因此,如果将其纳入饮食中,可以帮助改善营养不良。本研究旨在评估东非不同地区(乌干达、肯尼亚和坦桑尼亚)26个固定优质绿豆育种基因型的产量和微量元素组成。在不同的测试环境中,基因型在营养、物候和产量相关性状上表现出显著的差异。除单株平均产量和干物质含量(P <0.05)。环境随机效应对各性状均显著,除干物质和铁含量外,其余性状均存在显著的GXE (P <0.05)。除干物质含量较低(H2 = 10.4%)外,其余性状的广义遗传力均为中高。铁和锌(r = 0.58)、铁和钙(r = 0.46)呈显著正相关,表明可以通过育种和(或)选择同时提高这些性状。然而,产量与营养元素(铁、锌和钙)之间呈负相关。结果表明,KAT_SR_2019、KYM_LR_2020和KYM_LR_2020环境分别对粮食产量、钙含量和锌含量具有判别性(信息性)和代表性。avmu1679、avmu1685和AVMU1686基因型兼具稳定性和高微量元素含量,而高产和稳定的基因型为avmu1689、avmu1681和avmu16102。确定的基因型需要在农场试验中评估农民的偏好,然后才能推荐作为新品种发布。此外,这些基因型在未来的育种工作中将是有用的,因为捐助者旨在开发营养丰富和高产的绿豆品种。
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Yield and Mineral Composition among Mungbean [Vigna radiata (L.) R. Wilczek] Genotypes Grown in Different Agroecologies in East Africa
Mungbean [Vigna radiata (L.) R. Wilczek var. radiata] also referred to as green gram is a key crop especially in the marginal areas of East Africa. It is rich in micronutrients and protein and thus can help ameliorate malnutrition if incorporated into diets. This study was conducted to evaluate the performance of 26 fixed elite mungbean breeding genotypes for yield and micronutrient composition across different locations in East Africa (Uganda, Kenya, and Tanzania). The genotypes displayed significant variability for nutritional, phenology, and yield-related traits across test environments. Significant genotype effects were observed for most of the traits except for average yield per plant and dry matter content ( P < 0.05). Random effect of environment was significant for all traits, and significant GXE was observed for all traits except for dry matter and iron content ( P < 0.05). Moderate to high broad-sense heritability (H2) was found among traits except for dry matter content which was low (H2 = 10.4%). There was a significant and positive correlation between Fe and Zn (r = 0.58), and Fe and Ca (r = 0.46), indicating the potential to enhance these traits simultaneously through breeding and/or selection. However, the correlation between yield and nutrients (iron, zinc, and calcium) was negative. Environments KAT_SR_2019, KYM_LR_2020, and KYM_LR_2020 were found to be discriminating (informative) and representative of grain yield, calcium, and zinc content, respectively. Genotypes AVMU 1679, AVMU 1685, and AVMU1686 combined both stability and high micronutrient content, while the high yielding and stable genotypes were AVMU 1689, AVMU 1681, and AVMU 16102. The identified genotypes need to be assessed for farmer preference in on-farm trials before they can be recommended for release as new varieties. Additionally, these genotypes will be useful in future breeding efforts as donors aimed at developing nutrient-dense and high yielding mungbean varieties.
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来源期刊
CiteScore
3.60
自引率
5.30%
发文量
66
审稿时长
16 weeks
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