Genetic variability and trait associations for physiological and agronomic characteristics in bread wheat genotypes under drought stress and well-watered conditions
Mohammed O. Alshaharni, Fatmah A. Safhi, Nora M. Al Aboud, Dmitry E. Kucher, Eman Fayad, Mohammed Alqurashi, Rahmah N. Al-Qthanin, Ibtesam S.M. Almami, Heba I. Ghamry, Diaa Abd El-Moneim, Mohamed M. Kamara, Abdelraouf M. Ali

TL;DR
This study identifies bread wheat genotypes that maintain high yields under drought by analyzing physiological and agronomic traits.
Contribution
The study provides new insights into drought-tolerant wheat genotypes and their physiological markers for breeding programs.
Findings
Genotypes G3, G8, and G12 showed superior drought tolerance with higher grain yields and physiological efficiency.
Agronomic traits like plant height and grain number per spike were positively linked to drought tolerance.
High heritability of antioxidant enzymes and yield-related traits suggests strong genetic potential for breeding.
Abstract
Drought is a critical abiotic stress significantly reducing global wheat production, especially under climate fluctuations. Investigating wheat genetic variability using physiological and agronomic characteristics is essential for advancing breeding to enhance drought resilience and ensure sustainable production in light of global population growth. The genetic diversity and associations among traits of fourteen diverse genotypes of bread wheat in drought-stressed and well-watered conditions were studied, focusing on physiological and agronomic responses. Significant variations were detected among irrigation regimes, genotypes, and their interactions for all assessed characteristics. Drought stress substantially declined chlorophyll a (Chl a) and b (Chl b), net photosynthetic rate (NPR), transpiration rate (Tr), stomatal conductance (gs), membrane stability index (MSI), relative water…
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Taxonomy
TopicsWheat and Barley Genetics and Pathology · Genetics and Plant Breeding · Crop Yield and Soil Fertility
