Add to ORKGIncreasing atmospheric CO2 and associated global warming are expected to alter the global hydrological cycle, thereby posing widespread threats to freshwater availability. However, future hydrological projections differ greatly between models, particularly over the tropical regions. The large difference between model projections directly limits policy planning efforts, and the responsible modeling processes remain unclear. Here, we identify the primary processes accounting for model differences in tropical hydrological changes using multiple CO2 sensitivity experiments in the Coupled Model Intercomparison Project. We show that differences in projected changes to tropical evapotranspiration, precipitation, and surface water availability main...
The spatial pattern of precipitation responses to CO2 concentration increases significantly influenc...
International audienceClimate change impacts on the regional hydrological cycle are compared for mod...
Rising atmospheric CO2 impacts on vegetation physiological processes can alter land feedbacks on pre...
This study uses offline simulations with a land surface model to explore how the future response of ...
Understanding how anthropogenic CO2 emissions will influence future precipitation is critical for su...
Climate model projections using offline aridity and/or drought indices predict substantial terrestr...
Biophysical vegetation responses to elevated atmospheric carbon dioxide (CO2) affect regional hydroc...
The terrestrial carbon sink slows the accumulation of carbon dioxide (CO2) in the atmosphere by abso...
Terrestrial ecosystems have taken up about 32% of the total anthropogenic CO 2 emissions in the past...
Biophysical vegetation responses to elevated atmospheric carbon dioxide (CO2) affect regional hydroc...
This is the final version. Available from the American Meteorological Society via the DOI in this re...
Future changes in the North American monsoon, a circulation system that brings abundant summer rains...
The hydrological cycle has a significant impact on human activities and ecosystems, so understanding...
This study compares the dynamic vegetation response in two Dynamic Global Vegetation Models (DGVMs) ...
The spatial pattern of precipitation responses to CO2 concentration increases significantly influenc...
International audienceClimate change impacts on the regional hydrological cycle are compared for mod...
Rising atmospheric CO2 impacts on vegetation physiological processes can alter land feedbacks on pre...
This study uses offline simulations with a land surface model to explore how the future response of ...
Understanding how anthropogenic CO2 emissions will influence future precipitation is critical for su...
Climate model projections using offline aridity and/or drought indices predict substantial terrestr...
Biophysical vegetation responses to elevated atmospheric carbon dioxide (CO2) affect regional hydroc...
The terrestrial carbon sink slows the accumulation of carbon dioxide (CO2) in the atmosphere by abso...
Terrestrial ecosystems have taken up about 32% of the total anthropogenic CO 2 emissions in the past...
Biophysical vegetation responses to elevated atmospheric carbon dioxide (CO2) affect regional hydroc...
This is the final version. Available from the American Meteorological Society via the DOI in this re...
Future changes in the North American monsoon, a circulation system that brings abundant summer rains...
The hydrological cycle has a significant impact on human activities and ecosystems, so understanding...
This study compares the dynamic vegetation response in two Dynamic Global Vegetation Models (DGVMs) ...
The spatial pattern of precipitation responses to CO2 concentration increases significantly influenc...
International audienceClimate change impacts on the regional hydrological cycle are compared for mod...
Rising atmospheric CO2 impacts on vegetation physiological processes can alter land feedbacks on pre...