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Recover and surpass: The mechanisms of plants transition upon rehydration from drought

Xianglin Ke, Jia Yao, Zhihan Jiang, Xinyue Gu, Pei Xu

2025Plant Stress21 citationsDOIOpen Access PDF

Abstract

• The research status of drought resistance in plants is reviewed. • An overview of the recent advances and associated strategies of rehydration after drought is provided. • The compensatory effect of plants rehydration after drought in the restoration and acceleration of growth is highlighted. As the global climate shifts and precipitation patterns evolve, the drought resistance of plants is being increasingly tested. There is a notable variation in the post-drought rehydration recovery capabilities among different plant species, which significantly influences both plant growth and the regulation of ecological environments. Researchers have achieved considerable advancements in the field of drought resistance; however, our comprehension of the processes involved in post-drought rehydration remains limited. Rehydration following a drought event is crucial not only for compensating plant growth but also for facilitating the recovery of terrestrial ecosystems. This paper begins by reviewing the current state of research on plant drought resistance and then delves into the progress and associated strategies for post-drought rehydration. Identifying the existing gaps in research, we propose potential directions for future studies to provide insights into how plants respond to drought and rehydration under changing climatic conditions. This collection of information is valuable to enhance our understanding of the rehydration mechanisms post-drought and to lay a theoretical foundation for the mining of rehydration genes and the improvement of drought-resistant plant varieties in the future.

Topics & Concepts

Transition (genetics)AstrobiologyEnvironmental scienceBiologyBiochemistryGenePlant Water Relations and Carbon DynamicsPlant Stress Responses and ToleranceLeaf Properties and Growth Measurement
Recover and surpass: The mechanisms of plants transition upon rehydration from drought | Litcius