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W4382677551 endingPage "187" @default.
W4382677551 startingPage "175" @default.
W4382677551 abstract "Abstract Drought and flooding occur at opposite ends of the soil moisture spectrum yet their resulting stress responses in plants share many similarities. Drought limits root water uptake to which plants respond with stomatal closure and reduced leaf gas exchange. Flooding limits root metabolism due to soil oxygen deficiency, which also limits root water uptake and leaf gas exchange. As drought and flooding can occur consecutively in the same system and resulting plant stress responses share similar mechanisms, a single theoretical framework that integrates plant responses over a continuum of soil water conditions from drought to flooding is attractive. Based on a review of recent literature, we integrated the main plant eco‐physiological mechanisms in a single theoretical framework with a focus on plant water transport, plant oxygen dynamics, and leaf gas exchange. We used theory from the soil–plant–atmosphere continuum modeling as “backbone” for our framework, and subsequently incorporated interactions between processes that regulate plant water and oxygen status, abscisic acid and ethylene levels, and the resulting acclimation strategies in response to drought, waterlogging, and complete submergence. Our theoretical framework provides a basis for the development of mathematical models to describe plant responses to the soil moisture continuum from drought to flooding." @default.
W4382677551 created "2023-07-01" @default.
W4382677551 creator A5008422301 @default.
W4382677551 creator A5014340339 @default.
W4382677551 creator A5060636411 @default.
W4382677551 creator A5070438897 @default.
W4382677551 creator A5085120464 @default.
W4382677551 date "2023-06-30" @default.
W4382677551 modified "2023-09-25" @default.
W4382677551 title "Parallels between drought and flooding: An integrated framework for plant eco‐physiological responses to water stress" @default.
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W4382677551 doi "https://doi.org/10.1002/pei3.10117" @default.
W4382677551 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/37583875" @default.