Land surface models (LSMs) must accurately simulate observed energy and water fluxes during droughts in order to provide reliable estimates of future water resources. We evaluated 8 different LSMs (14 model versions) for simulating evapotranspiration (ET) during periods of evaporative drought (Edrought) across six flux tower sites. Using an empirically defined Edrought threshold (a decline in ET below the observed 15th percentile), we show that LSMs simulated 58 Edrought days per year, on average, across the six sites, ~3 times as many as the observed 20 d. The simulated Edrought magnitude was ~8 times greater than observed and twice as intense. Our findings point to systematic biases across LSMs when simulating water and energy fluxes unde...
The sensitivity of evapotranspiration (ET) to soil moisture storage plays an important role in the l...
Abstract: Physically-based atmospheric models of evapotranspiration (ET) that consider the Penman co...
A key aspect of the land surface response to the atmosphere is how quickly it dries after a rainfall...
Surface fluxes from land surface models (LSMs) have traditionally been evaluated against monthly, se...
Surface fluxes from land surface models (LSMs) have traditionally been evaluated against monthly, se...
This research evaluated the performance of Land Surface Models (LSMs) in simulating droughts, examin...
Land surface models underpin coupled climate model projections of droughts and heatwaves. However, t...
Future climate change has the potential to increase drought in many regions of the globe, making it ...
The latent heat of evapotranspiration (ET) plays an important role in the assessment of drought seve...
We tested four land surface parameterization schemes against long-term (5 months) area-averaged obse...
There is a lack of high‐quality global observations to evaluate soil drying impacts on surface fluxe...
There is a lack of high-quality global observations to evaluate soil drying impacts on surface fluxe...
Evapotranspiration (ET) plays an important role in land-atmosphere coupling of energy, water, and ca...
The main hydrologic feedback from the land-surface to the atmosphere is the evapotranspiration, ET, ...
International audiencePlant activity in semi-arid ecosystems is largely controlled by pulses of prec...
The sensitivity of evapotranspiration (ET) to soil moisture storage plays an important role in the l...
Abstract: Physically-based atmospheric models of evapotranspiration (ET) that consider the Penman co...
A key aspect of the land surface response to the atmosphere is how quickly it dries after a rainfall...
Surface fluxes from land surface models (LSMs) have traditionally been evaluated against monthly, se...
Surface fluxes from land surface models (LSMs) have traditionally been evaluated against monthly, se...
This research evaluated the performance of Land Surface Models (LSMs) in simulating droughts, examin...
Land surface models underpin coupled climate model projections of droughts and heatwaves. However, t...
Future climate change has the potential to increase drought in many regions of the globe, making it ...
The latent heat of evapotranspiration (ET) plays an important role in the assessment of drought seve...
We tested four land surface parameterization schemes against long-term (5 months) area-averaged obse...
There is a lack of high‐quality global observations to evaluate soil drying impacts on surface fluxe...
There is a lack of high-quality global observations to evaluate soil drying impacts on surface fluxe...
Evapotranspiration (ET) plays an important role in land-atmosphere coupling of energy, water, and ca...
The main hydrologic feedback from the land-surface to the atmosphere is the evapotranspiration, ET, ...
International audiencePlant activity in semi-arid ecosystems is largely controlled by pulses of prec...
The sensitivity of evapotranspiration (ET) to soil moisture storage plays an important role in the l...
Abstract: Physically-based atmospheric models of evapotranspiration (ET) that consider the Penman co...
A key aspect of the land surface response to the atmosphere is how quickly it dries after a rainfall...