Add to ORKGGlobal warming alters surface water availability (precipitation minus evapotranspiration, P–E) and hence freshwater resources. However, the influence of land–atmosphere feedbacks on future P–E changes and the underlying mechanisms remain unclear. Here we demonstrate that soil moisture (SM) strongly impacts future P–E changes, especially in drylands, by regulating evapotranspiration and atmospheric moisture inflow. Using modelling and empirical approaches, we find a consistent negative SM feedback on P–E, which may offset ~60% of the decline in dryland P–E otherwise expected in the absence of SM feedbacks. The negative feedback is not caused by atmospheric thermodynamic responses to declining SM; rather, reduced SM, in addition to limiting e...
International audienceYear-to-year changes in carbon uptake by terrestrial ecosystems have an essent...
Warming and rainfall intensification linked to climate change will alter water availability in dryla...
International audienceDrylands are an essential component of the Earth System and are among the most...
Global warming alters surface water availability (precipitation minus evapotranspiration, P-E) and h...
Dryland droughts are prone to self-propagation due to the enhanced soil water stress, according to a...
Drylands occur world-wide and are particularly vulnerable to climate change since dryland ecosystems...
Global warming is expected to cause wet seasons to get wetter and dry seasons to get drier, which wo...
The response of the terrestrial water cycle to global warming is central to issues including water r...
International audienceGroundwater (GW) constitutes by far the largest volume of liquid freshwater on...
International audienceYear-to-year changes in carbon uptake by terrestrial ecosystems have an essent...
Warming and rainfall intensification linked to climate change will alter water availability in dryla...
International audienceDrylands are an essential component of the Earth System and are among the most...
Global warming alters surface water availability (precipitation minus evapotranspiration, P-E) and h...
Dryland droughts are prone to self-propagation due to the enhanced soil water stress, according to a...
Drylands occur world-wide and are particularly vulnerable to climate change since dryland ecosystems...
Global warming is expected to cause wet seasons to get wetter and dry seasons to get drier, which wo...
The response of the terrestrial water cycle to global warming is central to issues including water r...
International audienceGroundwater (GW) constitutes by far the largest volume of liquid freshwater on...
International audienceYear-to-year changes in carbon uptake by terrestrial ecosystems have an essent...
Warming and rainfall intensification linked to climate change will alter water availability in dryla...
International audienceDrylands are an essential component of the Earth System and are among the most...