Litcius/Paper detail

Integrating Drought Stress Signaling and Smart Breeding for Climate-Resilient Crops: Regulatory Mechanisms and Genetic Strategies

Mingyu Wang, Yuwei Zhao, Yaqian Huang, Jun Liu

2025Plants10 citationsDOIOpen Access PDF

Abstract

The escalating frequency and severity of drought events pose significant threats to agricultural productivity and food security. Drought stress not only restricts crop growth and yields but also destabilizes agricultural ecosystems. Over evolutionary timescales, plants have developed intricate adaptive strategies, encompassing drought escape (accelerated phenology), avoidance (water-conserving morphology) and tolerance (cellular protection), which involve complex biological mechanisms spanning molecular signaling, metabolic reprogramming and organ morphological remodeling. To mitigate drought risks, breeding drought-tolerant and water-efficient crops is imperative. Currently, drought resistance breeding is undergoing a paradigm shift, transitioning from traditional phenotypic selection toward genomics-assisted selection, molecular design and artificial intelligence (AI)-driven predictive modeling. This review provides a comprehensive analysis of drought stress response mechanisms in crops, integrating three key dimensions: physiological/biochemical adaptations, hormonal signaling networks and morphological/structural modifications. Furthermore, it critically evaluates recent advances in genetic improvement approaches for drought resistance, such as marker-assisted selection, transgenic technology and gene editing. It also explores the integration of multi-omics data and AI to enhance precision molecular breeding and overcome the inherent trade-off between drought resistance and yield potential. By synthesizing advancements in molecular breeding and smart agriculture, this work provides a roadmap for developing climate-resilient crops optimized through synergistic trait engineering and intelligent environmental sensing.

Topics & Concepts

BiologyTraitDrought toleranceBiotechnologyAgricultureMolecular breedingDrought stressProductivityDrought resistanceIntrogressionSelection (genetic algorithm)Genetically modified cropsCropFood securityAdaptabilityAdaptation (eye)Climate changeResistance (ecology)Agricultural productivityCrop productivityAbiotic stressPhenomicsMarker-assisted selectionPlant breedingGenetic FitnessEcologySystems biologyGenomicsReprogrammingComputational biologyAgricultural biotechnologyFight-or-flight responsePlant Molecular Biology ResearchGenetic Mapping and Diversity in Plants and AnimalsPlant Stress Responses and Tolerance