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The poorly‐explored stomatal response to temperature at constant evaporative demand

C. M. Mills, Megan K. Bartlett, Thomas N. Buckley

2024Plant Cell & Environment31 citationsDOIOpen Access PDF

Abstract

Changes in leaf temperature are known to drive stomatal responses, because the leaf-to-air water vapour gradient (Δw) increases with temperature if ambient vapour pressure is held constant, and stomata respond to changes in Δw. However, the direct response of stomata to temperature (DRST; the response when Δw is held constant by adjusting ambient humidity) has been examined far less extensively. Though the meagre available data suggest the response is usually positive, results differ widely and defy broad generalisation. As a result, little is known about the DRST. This review discusses the current state of knowledge about the DRST, including numerous hypothesised biophysical mechanisms, potential implications of the response for plant adaptation, and possible impacts of the DRST on plant-atmosphere carbon and water exchange in a changing climate.

Topics & Concepts

Constant (computer programming)Water vaporEnvironmental scienceAtmospheric sciencesHumidityAtmosphere (unit)Climate changeCarbon dioxideVapour pressure of waterRelative humidityVapour Pressure DeficitEcologyBotanyThermodynamicsMeteorologyBiologyPhotosynthesisTranspirationGeographyPhysicsComputer scienceProgramming languagePlant Water Relations and Carbon DynamicsPlant responses to elevated CO2Plant Stress Responses and Tolerance
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