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Novel Strategies for Designing Climate‐Smart Crops to Ensure Sustainable Agriculture and Future Food Security

Ali Raza, Tushar Khare, Xinyue Zhang, Md. Mezanur Rahman, Muzammil Hussain, Sarvajeet Singh Gill, Zhong‐Hua Chen, Meixue Zhou, Zhangli Hu, Rajeev K. Varshney

2025Journal of Sustainable Agriculture and Environment82 citationsDOIOpen Access PDF

Abstract

ABSTRACT To fulfil food and nutritional demand for nine billion people by the mid‐21st century, global food production must increase by 60% regardless of challenges such as environmental pollution, water scarcity and land degradation. Climate change exacerbates the frequency and intensity of biotic and abiotic stresses, which, in turn, severely compromise global crop yields, jeopardize food supply, deteriorate sustainable development goals for achieving global food safety, and limit sustainable climate‐smart crop production. Current food production and consumption practices negatively influence the environment, posing a major threat to the global ecosystem and human health. Addressing these critical issues to achieve sustainable agriculture necessitates designing future crops employing cutting‐edge breeding strategies for enhanced productivity with minimal environmental footprints. This endeavour requires a comprehensive understanding of plant stress adaptation, signalling pathways and mitigation mechanisms. In this review, we first explain the diverse impacts of ongoing climate change events on crop production. Subsequently, we outline various strategies to tackle climate change, including agronomic practices, and advanced technologies for understanding the physiological and molecular mechanisms of plant stress tolerance. We also discuss breeding and engineering crops with superior stress tolerance and disease resistance and nurturing healthy microbial partnerships between plants and soil to ensure food and nutrition security for current and future populations amidst mounting environmental challenges.

Topics & Concepts

Food securitySustainable agricultureAgricultureBusinessClimate changeEnvironmental planningNatural resource economicsAgroforestryEnvironmental resource managementAgricultural economicsEnvironmental scienceGeographyEconomicsEcologyBiologyArchaeologyPlant responses to elevated CO2Climate change impacts on agricultureSeed and Plant Biochemistry