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High water use in desert plants exposed to extreme heat

L. M. T. Aparecido, Sabrina Woo, Crystal Suazo, Kevin R. Hultine, Benjamin Blonder

2020Ecology Letters157 citationsDOI

Abstract

Abstract Many plant water use models predict leaves maximize carbon assimilation while minimizing water loss via transpiration. Alternate scenarios may occur at high temperature, including heat avoidance, where leaves increase water loss to evaporatively cool regardless of carbon uptake; or heat failure, where leaves non‐adaptively lose water also regardless of carbon uptake. We hypothesized that these alternative scenarios are common in species exposed to hot environments, with heat avoidance more common in species with high construction cost leaves. Diurnal measurements of leaf temperature and gas exchange for 11 Sonoran Desert species revealed that 37% of these species increased transpiration in the absence of increased carbon uptake. High leaf mass per area partially predicted this behaviour ( r 2 = 0.39). These data are consistent with heat avoidance and heat failure, but failure is less likely given the ecological dominance of the focal species. These behaviours are not yet captured in any extant plant water use model.

Topics & Concepts

TranspirationEnvironmental scienceEcologyDominance (genetics)Extant taxonBiologyEcophysiologyAgronomyPhotosynthesisBotanyGeneBiochemistryEvolutionary biologyPlant Water Relations and Carbon DynamicsTree-ring climate responsesPlant responses to elevated CO2
High water use in desert plants exposed to extreme heat | Litcius