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Differential responses to two heatwave intensities in a Mediterranean citrus orchard are identified by combining measurements of fluorescence and carbonyl sulfide (COS) and CO<sub>2</sub> uptake

Amnon Cochavi, Madi Amer, Rafael Stern, Fyodor Tatarinov, Mirco Migliavacca, Dan Yakir

2021New Phytologist30 citationsDOIOpen Access PDF

Abstract

Summary The impact of extreme climate episodes such as heatwaves on plants physiological functioning and survival may depend on the event intensity, which requires quantification. We unraveled the distinct impacts of intense (HW) and intermediate (INT) heatwave days on carbon uptake, and the underlying changes in the photosynthetic system, in a Mediterranean citrus orchard using leaf active (pulse amplitude modulation; PAM) and canopy level passive (sun‐induced; SIF) fluorescence measurements, together with CO 2 , water vapor, and carbonyl sulfide (COS) exchange measurements. Compared to normal (N) days, gross CO 2 uptake fluxes (gross primary production, GPP) were significantly reduced during HW days, but only slightly decreased during INT days. By contrast, COS uptake flux and SIF A (at 760 nm) decreased during both HW and INT days, which was reflected in leaf internal CO 2 concentrations and in nonphotochemical quenching, respectively. Intense (HW) heatwave conditions also resulted in a substantial decrease in electron transport rates, measured using leaf‐scale fluorescence, and an increase in the fractional energy consumption in photorespiration. Using the combined proxy approach, we demonstrate a differential ecosystem response to different heatwave intensities, which allows the trees to preserve carbon assimilation during INT days but not during HW days.

Topics & Concepts

Carbonyl sulfidePhotorespirationChemistryPhotosynthesisChlorophyll fluorescenceCanopyCarbon dioxideRespirationHorticultureBotanyAnimal scienceBiologySulfurBiochemistryOrganic chemistryPlant Water Relations and Carbon DynamicsPlant responses to elevated CO2Horticultural and Viticultural Research
Differential responses to two heatwave intensities in a Mediterranean citrus orchard are identified by combining measurements of fluorescence and carbonyl sulfide (COS) and CO<sub>2</sub> uptake | Litcius