Physiological basis of Moisture Stress Tolerance at Heterotrophic and Flowering Stage in Finger Millet (Eleusine coracana L.)

Varsha Vidhya Mohan, Nanja Reddy Yellodu Adi Reddy
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Abstract

Finger millet is a nutritionally rich millet crop, predominantly cultivated under rainfed conditions worldwide. The crop's productivity is subject to diverse environmental stresses. The study's principal objective was to evaluate the underlying physiological distinctions among tolerant genotypes (GE-845, KMR-630) and susceptible genotypes (GE-1309, GE-5123) of finger millet. The studies focus on specific morphological, physiological, and biochemical traits contributing to drought tolerance at the heterotrophic and flowering stages, utilizing polyethylene glycol (PEG) and a phenotyping platform facility, respectively. Our findings highlight KMR-630 as the most drought-tolerant genotype, while GE-5123 exhibits pronounced drought susceptibility. Notably, the drought-tolerant KMR-630 genotype exhibits robust seedling vigour during the heterotrophic stage, maintains higher relative water content, increased total chlorophyll levels, mitigated membrane damage, and demonstrates enhanced finger length and above-ground dry matter compared to sensitive genotypes at the flowering stage. These insights offer valuable guidance for developing effective breeding strategies aimed at producing drought tolerant finger millet genotypes.
小谷子异养和花期耐湿胁迫的生理基础
谷子是一种营养丰富的谷子作物,在世界范围内主要在雨养条件下种植。作物的产量受到各种环境压力的影响。本研究的主要目的是评估谷子耐受性基因型(GE-845、KMR-630)和易感基因型(GE-1309、GE-5123)之间潜在的生理差异。利用聚乙二醇(PEG)和表型平台分别研究了异养期和开花期对抗旱性有影响的特定形态、生理和生化性状。我们的研究结果强调KMR-630是最耐旱的基因型,而GE-5123表现出明显的干旱易感性。值得注意的是,与敏感基因型相比,耐旱基因型KMR-630在异养期表现出强劲的幼苗活力,保持较高的相对含水量,增加总叶绿素水平,减轻膜损伤,并在花期表现出手指长度和地上干物质的增加。这些见解为制定有效的育种策略提供了有价值的指导,旨在生产耐旱的指谷子基因型。
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