Phenotypic diversity among finger millet (Eleusine coracana (L.) Gaertn.) landraces of Nepal

Plant Genetic Resources Pub Date : 2023-07-11 DOI:10.46265/genresj.myza2446

K. Ghimire, M. Pandey, B. K. Joshi, S. Ghimire, H. Manandhar, D. Gauchan

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Abstract

Finger millet (Eleusine coracana (L.) Gaertn.) is the fourth most important crop in Nepal having multiple benefits but is still neglected by mainstream research and development. The main option to boost its productivity is developing superior varieties through enhanced use of germplasm in breeding programmes. With the objective of enhancing utilization of landraces conserved ex situ, a total of 300 finger millet accessions collected from 54 districts were characterized in three hill locations of Nepal for two consecutive years (2017–2018). Nine qualitative and 17 quantitative traits were recorded, and combined mean data were subjected to multivariate analysis to assess agromorphological diversity. Shannon–Weaver diversity indices (H') showed high diversity (0.647–0.908) among the accessions for qualitative traits except for finger branching and spikelet shattering whereas high diversity (0.864–0.907) was observed for all quantitative traits. The first five principal components (PC) explained 61.8% of the total phenotypic variation with two PCs explaining 37.5% variation mainly due to flowering and maturity days, plant height, flag leaf length, grain and straw yield, ear weight, ear exsertion and number of fingers per head. Genotypes were grouped into four clusters with 16, 66, 107 and 111 accessions based on quantitative traits. The correlation between the traits indicated that accessions with early flowering, tall plants, long leaves, high tillers, large ears and bold grains could be given priority for further evaluation in multiple locations. Potential landraces identified for each trait could either be deployed to wider areas as varieties or used as trait donors in finger millet breeding.

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指粟(Eleusine coracana, L.)的表型多样性尼泊尔的土生动物

小米(Eleusine coracana, L.)Gaertn.)是尼泊尔第四大最重要的作物，具有多种效益，但仍然被主流研究和开发所忽视。提高其生产力的主要选择是通过在育种计划中加强种质资源的利用来开发优良品种。为提高非原生境地保护品种的利用水平，本研究连续两年(2017-2018)在尼泊尔3个山区的54个地区采集了300份指谷子资料。记录了9个定性性状和17个定量性状，并结合平均数据进行多变量分析以评估农业形态多样性。Shannon-Weaver多样性指数(H′)表明，除指分枝和小穗碎裂外，各种质间的定性性状多样性(0.647 ~ 0.908)较高，数量性状多样性(0.864 ~ 0.907)较高。前5个主成分解释了61.8%的表型变异，其中2个主成分解释了37.5%的表型变异，主要是由于花期和成熟期、株高、旗叶长、籽粒和秸秆产量、穗重、穗外伸和穗指数。根据数量性状将基因型分为4个聚类，分别为16、66、107和111个。性状间的相关性表明，早花、高株、长叶、高分蘖、大穗、粗粒的材料可作为多地点进一步评价的优先选择。为每种性状确定的潜在地方品种可以作为品种部署到更广泛的地区，也可以作为性状供体用于谷子育种。

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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Plant Genetic Resources

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