Litcius/Paper detail

Vegetation Response to Rising CO<sub>2</sub> Amplifies Contrasts in Water Resources Between Global Wet and Dry Land Areas

Jiangpeng Cui, Hui Yang, Chris Huntingford, Gabriel J. Kooperman, Xu Lian, Mingzhu He, Shilong Piao

2021Geophysical Research Letters28 citationsDOIOpen Access PDF

Abstract

Abstract Rising atmospheric CO 2 impacts on vegetation physiological processes can alter land feedbacks on precipitation and water resources, but understanding of regional differences in these changes is uncertain. We investigate the impact of rising CO 2 on land water resources for different wetness levels using four Earth system models. We find an overall tendency of runoff to increase across all wetness levels. However, runoff increases in wet regions are much larger than those in dry regions, especially in wet seasons. This substantial amplification of contrasts between wet and dry regions increases at 3% per 100 ppm increase in CO 2 relative to the historical period, reaching 18% for a quadrupling of CO 2 , quantified by a new wetting contrast index (WCI). Physiological effects suppress evapotranspiration more in wet than dry regions, which has a larger contribution than radiative forcing to the amplification of runoff contrast, reshaping the spatial distribution of future land water resources.

Topics & Concepts

Environmental scienceEvapotranspirationSurface runoffVegetation (pathology)PrecipitationDry seasonHydrology (agriculture)Water resourcesWater balanceRadiative forcingAtmospheric sciencesClimate changeEcologyGeographyGeologyMeteorologyGeotechnical engineeringMedicineBiologyPathologyClimate variability and modelsPlant Water Relations and Carbon DynamicsCryospheric studies and observations
Vegetation Response to Rising CO<sub>2</sub> Amplifies Contrasts in Water Resources Between Global Wet and Dry Land Areas | Litcius