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Enhanced causal effect of ecosystem photosynthesis on respiration during heatwaves

Jiaye Ping, Erqian Cui, Ying Du, Ning Wei, Jian Zhou, Jing Wang, Shuli Niu, Yiqi Luo, Jianyang Xia

2023Science Advances52 citationsDOIOpen Access PDF

Abstract

Because of global warming, Earth's ecosystems have been experiencing more frequent and severe heatwaves. Heatwaves are expected to tip terrestrial carbon sequestration by elevating ecosystem respiration and suppressing gross primary productivity (GPP). Here, using the convergent cross-mapping technique, this study detected positive bidirectional causal effects between GPP and respiration in two unprecedented European heatwaves. Heatwaves enhanced the causal effect strength of GPP on respiration rather than respiration on GPP across 40 site-years of observations. Further analyses and global simulations revealed spatial heterogeneity in the heatwave response of the causal link strength between GPP and respiration, which was jointly driven by the local climate and vegetation properties. However, the causal effect strength of GPP on respiration showed considerable uncertainties in CMIP6 models. This study reveals an enhanced causal link strength between GPP and respiration during heatwaves, shedding light on improving projections for terrestrial carbon sink dynamics under future climate extremes.

Topics & Concepts

RespirationEnvironmental scienceEcosystemAtmospheric sciencesSoil respirationPrimary productionEcosystem respirationTerrestrial ecosystemCarbon cycleClimatologyEcologyBiologyGeologyBotanyAtmospheric and Environmental Gas DynamicsClimate variability and modelsPlant Water Relations and Carbon Dynamics
Enhanced causal effect of ecosystem photosynthesis on respiration during heatwaves | Litcius