Abstract
In field conditions, plants are often simultaneously exposed to multiple biotic and abiotic stresses resulting in substantial yield loss. Plants have evolved various physiological and molecular adaptations to protect themselves under stress combinations. Emerging evidences suggest that plant responses to a combination of stresses are unique from individual stress responses. In addition, plants exhibit shared responses which are common to individual stresses and stress combination. In this review, we provide an update on the current understanding of both unique and shared responses. Specific focus of this review is on heat–drought stress as a major abiotic stress combination and, drought–pathogen and heat–pathogen as examples of abiotic–biotic stress combinations. We also comprehend the current understanding of molecular mechanisms of cross talk in relation to shared and unique molecular responses for plant survival under stress combinations. Thus, the knowledge of shared responses of plants from individual stress studies and stress combinations can be utilized to develop varieties with broad spectrum stress tolerance.
Highlights
Under field conditions, plants are concurrently exposed to a number of abiotic and biotic stresses
We provide a comparison of the overlap between cross talk of signaling pathways identified from multiple individual stress studies and the shared responses identified from combined stress transcriptome studies
The transcriptome analysis of A. thaliana plants subjected to combined drought and Turnip mosaic virus (TuMV) infection has revealed the presence of some of the genes involved in cross talk between individual stresses as a part of shared response under combined stress
Summary
Plants are concurrently exposed to a number of abiotic and biotic stresses. Different abiotic and biotic stress conditions lead to some common physiological and molecular processes in plants apart from the unique responses. To further explicate the distinct and shared mechanisms of plants response to individual and combined abiotic stress conditions, we selected drought and heat stress combination as an example and hereby describe their effects on physiological and molecular processes.
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