Soil moisture supply and atmospheric demand for water independently limit - and profoundly affect - vegetation productivity and water use during periods of hydrologic stress. Disentangling the impact of these two drivers on ecosystem carbon and water cycling is difficult because they are often correlated, and experimental tools for manipulating atmospheric demand in the field are lacking. Consequently, the role of atmospheric demand is often not adequately factored into experiments or represented in models. Here we show that atmospheric demand limits surface conductance and evapotranspiration to a greater extent than soil moisture in many biomes, including mesic forests that are of particular importance to the terrestrial carbon sink. Furth...
Elevated vapor pressure deficit (VPD) due to drought and warming is well-known to limit canopy stoma...
The land biosphere is a crucial component of the Earth system that interacts with the atmosphere in ...
Climate warming, altered precipitation and nitrogen deposition may critically affect plant growth an...
Soil moisture supply and atmospheric demand for water independently limit - and profoundly affect - ...
Warming and rainfall intensification linked to climate change will alter water availability in dryla...
International audienceYear-to-year changes in carbon uptake by terrestrial ecosystems have an essent...
Terrestrial ecosystems carbon and water cycles are tightly coupled through photosynthesis and evapot...
Ecosystem water-use efficiency (WUE) is an important metric linking the global land carbon and water...
The reservoir of soil water is exchanged with the atmosphere through evaporative processes, which ar...
Over the last six decades the terrestrial biosphere has sequestered on average about 29% of the anth...
Dryland ecosystems provide a unique opportunity to study the effects of water limitation on ecosyste...
Experiments show that elevated atmospheric CO2 (eCO(2)) often enhances plant photosynthesis and prod...
The ongoing changes in the global climate expose the world's ecosystems not only to increasing CO2 c...
Effects of climate change on the ecosystem productivity and water fluxes have been studied in variou...
Drylands occur world-wide and are particularly vulnerable to climate change since dryland ecosystems...
Elevated vapor pressure deficit (VPD) due to drought and warming is well-known to limit canopy stoma...
The land biosphere is a crucial component of the Earth system that interacts with the atmosphere in ...
Climate warming, altered precipitation and nitrogen deposition may critically affect plant growth an...
Soil moisture supply and atmospheric demand for water independently limit - and profoundly affect - ...
Warming and rainfall intensification linked to climate change will alter water availability in dryla...
International audienceYear-to-year changes in carbon uptake by terrestrial ecosystems have an essent...
Terrestrial ecosystems carbon and water cycles are tightly coupled through photosynthesis and evapot...
Ecosystem water-use efficiency (WUE) is an important metric linking the global land carbon and water...
The reservoir of soil water is exchanged with the atmosphere through evaporative processes, which ar...
Over the last six decades the terrestrial biosphere has sequestered on average about 29% of the anth...
Dryland ecosystems provide a unique opportunity to study the effects of water limitation on ecosyste...
Experiments show that elevated atmospheric CO2 (eCO(2)) often enhances plant photosynthesis and prod...
The ongoing changes in the global climate expose the world's ecosystems not only to increasing CO2 c...
Effects of climate change on the ecosystem productivity and water fluxes have been studied in variou...
Drylands occur world-wide and are particularly vulnerable to climate change since dryland ecosystems...
Elevated vapor pressure deficit (VPD) due to drought and warming is well-known to limit canopy stoma...
The land biosphere is a crucial component of the Earth system that interacts with the atmosphere in ...
Climate warming, altered precipitation and nitrogen deposition may critically affect plant growth an...