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Physiological Mechanisms of Tolerance to Drought and Heat in Major Pulses for Improving Yield under Stress Environments

Partha Basu, S. K. Chaturvedi, Pooran Mall Gaur, Biswajit Mondal, Surendra Kumar Meena, Krishnashis Das, Vaibhav Kumar, Kalpana Tewari, Kusum Sharma

2022IntechOpen eBooks12 citationsDOIOpen Access PDF

Abstract

Reduction in biomass and pollen fertility are the two major constraints resulting in poor grain yield in major pulses grown under rainfed agrosystem. Generally, pulses are encountered into both heat and drought stresses during terminal reproductive stages. Though pulses have many adaptive features to counter the adverse effects of various abiotic stresses but yield is substantially reduced when the magnitude of these stresses is very high. The factors have been identified to enhance grain yield under stress environments which include promotion of biomass in the above ground part enabling crops to reserve a maximum amount of photosynthesis and water in the plant system itself before the onset of drought and heat stresses during reproductive stages. Various physiological mechanisms and fertility enhancement components including genetic diversity in key traits have been discussed here to improve yield of pulses under stressed conditions.

Topics & Concepts

Yield (engineering)Heat stressAbiotic componentBiomass (ecology)Abiotic stressPhotosynthesisAgronomyEnvironmental scienceDrought toleranceWater stressBiologyMaterials scienceEcologyBotanyGeneBiochemistryAnimal scienceMetallurgyGenetics and Plant BreedingWheat and Barley Genetics and PathologyPlant Stress Responses and Tolerance
Physiological Mechanisms of Tolerance to Drought and Heat in Major Pulses for Improving Yield under Stress Environments | Litcius