Litcius/Paper detail

Impacts of Future Climate Change and Atmospheric CO<sub>2</sub> Concentration on Ecosystem Water Retention Service

Lichang Yin, Fulu Tao, Ran Zhai, Yi Chen, Jian Hu, Zhenghui Wang, Bojie Fu

2022Earth s Future12 citationsDOIOpen Access PDF

Abstract

Abstract Terrestrial ecosystem water retention (TEWR) service is subject to climate change and elevated atmospheric carbon dioxide concentration (eCO 2 ), however, the relevant processes by which future climate change and eCO 2 affect TEWR are poorly understood. Here, we use the factorial simulation experiments from the Inter‐Sectoral Impact Model Intercomparison Project to address this research question. The experiments are based on three dynamic global vegetation models forced with the same climate change scenarios. Results suggest that compared to the preindustrial level, during 2070–2099, (a) TEWR change is highly uncertain, especially in the Southern Hemisphere. (b) Climate change will dominate the pattern of future TEWR change compared with eCO 2 . (c) Precipitation and runoff change will dominate the future TEWR change in various regions, and the direct role of evapotranspiration (ET) on TEWR will be relatively small. (d) eCO 2 will mainly affect vegetation dynamics in energy‐limited regions to affect the runoff, and consequently affecting TEWR change. (e) eCO 2 will decrease ET and increase the runoff, resulting in a slight TWER change. These findings improve the understanding of the responses of TEWR to future climate change and eCO 2 .

Topics & Concepts

Climate changeEnvironmental scienceEvapotranspirationPrecipitationSurface runoffRepresentative Concentration PathwaysVegetation (pathology)EcosystemGlobal changeAtmospheric sciencesClimatologyClimate modelEcologyGeographyMeteorologyBiologyMedicineGeologyPathologyHydrology and Watershed Management StudiesPlant Water Relations and Carbon DynamicsClimate variability and models