A Review on Physio-Biochemical and Molecular Mechanisms of Salt Tolerance in Crops
Pramod Vilas Shelar1,2
, Ganesh Deepak Mankar1,3, Om Prafull Sontakke1, Uttam Ramchandra Wayase1, Kishor Suresh Bhosale3, Ganesh Chandrakant Nikalje4, Mahendra Laxman Ahire6, Tukaram Dayaram Nikam5 and Rajkumar Baban Barmukh1*
1Department of Botany, Modern College of Arts, Science and Commerce (Autonomous), Shivajinagar, Pune, MH, India.
2Department of Botany, Haribhai V. Desai College of Arts, Science and Commerce, Pune, MH, India.
3Department of Botany, Nowrosjee Wadia College (Autonomous), Pune, MH, India.
4Department of Botany, Seva Sadan's R. K. Talreja College of Arts, Science and Commerce, Ulhasnagar, Thane, Mumbai, MH, India.
5Department of Botany, Savitribai Phule Pune University, Pune, MS, India.
6Department of Botany, Yashavantrao Chavan Institute of Science (Autonomous), Satara, MS, India.
Corresponding Author E-mail:barmukhbotany@moderncollegepune.edu.in
DOI : http://dx.doi.org/10.12944/CARJ.12.2.05
Article Publishing History
Received: 09 Jul 2024
Accepted: 27 Aug 2024
Published Online: 30 Aug 2024
Review Details
Reviewed by: Dr. Ian Martins
Second Review by: Dr. Satishkumar Khadia
Final Approval by: Dr. Anshuman Singh
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Abstract:
Soil salinity is a major abiotic stressor that hampers agricultural productivity worldwide, with both natural and anthropogenic factors contributing to its rise. Salinity disrupts osmotic and ionic balance, impairs seed germination, hinders photosynthesis, and exacerbates oxidative stress, leading to significant membrane damage. In response, plants have evolved various biochemical and physiological and molecular mechanisms to tolerate high salinity. Recent research has greatly advanced our understanding of salt tolerance by identifying key genes associated with this trait. These studies have highlighted essential genes involved in ion transport, stress signaling, and maintaining osmotic balance. By integrating genetic insights with practical approaches like breeding and genetic engineering, researchers are developing crops better suited to saline environments, which is crucial for addressing global food security challenges. This paper aims to review recent findings on the impact of salt stress on plants and explore the physiological, biochemical, and molecular mechanisms underlying salt tolerance.
Keywords:
Germination and Growth Stage; Oxidative Stress; Osmolytes; Plants Defence System; Salinity Stress; Salt Tolerance Genes
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| Copy the following to cite this article: Shelar P. V, Mankar G. D, Sontakke O. P, Wayase U. R, Bhosale K. S, Nikalje G. C, Ahire M. L, Nikam T. D, Barmukh R. B. A Review on Physio-Biochemical and Molecular Mechanisms of Salt Tolerance in Crops. Curr Agri Res 2024; 12(2). doi : http://dx.doi.org/10.12944/CARJ.12.2.05 |
| Copy the following to cite this URL: Shelar P. V, Mankar G. D, Sontakke O. P, Wayase U. R, Bhosale K. S, Nikalje G. C, Ahire M. L, Nikam T. D, Barmukh R. B. A Review on Physio-Biochemical and Molecular Mechanisms of Salt Tolerance in Crops. Curr Agri Res 2024; 12(2). Available from: https://bit.ly/3TdR4bE |
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