Maintaining nitrogen balance under salt stress through enhanced nodule function and antioxidative defense in chickpea
Gurpreet Kaur, Satish Kumar Sanwal, Nirmala Sehrawat, Ashwani Kumar, Naresh Kumar, Anita Mann, Hemant Dasila, Damini Maithani, Sumit Jangra, Kahkashan Perveen, Alanoud T. Alfagham

TL;DR
This study explores how chickpeas maintain nitrogen balance under salt stress by improving nodule function and antioxidant defenses.
Contribution
The study identifies the role of antioxidative enzymes and nodule performance in sustaining nitrogen fixation in chickpeas under salinity.
Findings
Salt-tolerant chickpea genotypes maintain higher water and osmotic potentials in nodules.
Enhanced antioxidant enzyme activity reduces oxidative stress and improves membrane stability in tolerant genotypes.
Nitrogen accumulation in shoots is mainly due to biological nitrogen fixation rather than nitrate reductase activity under salinity.
Abstract
Salinity is a major environmental stress that adversely affects plant growth, nodulation and nitrogen (N) metabolism. This study investigated the physiological and biochemical responses of chickpea (Cicer arietinum L.) genotypes under saline conditions, with a focus on nodule performance, antioxidant enzyme activity and N-fixation efficiency. Ten genotypes, including the salt-tolerant CSG 8962, were evaluated for water relations, ion homeostasis, oxidative stress markers and nitrogen assimilation parameters. Tolerant genotypes maintained higher water potential (Ψw), osmotic potential (Ψs) and relative water content (RWC) in nodules compared to sensitive ones. Salinity-induced oxidative stress, but increased activities of antioxidative enzymes—such as superoxide dismutase, catalase, ascorbate peroxidase, monodehydroascorbate reductase, dehydroascorbate reductase, glutathione reductase,…
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Taxonomy
TopicsLegume Nitrogen Fixing Symbiosis · Agronomic Practices and Intercropping Systems · Soybean genetics and cultivation
