Surface fluxes from land surface models (LSMs) have traditionally been evaluated against monthly, seasonal or annual mean states. The limited ability of LSMs to reproduce observed evaporative fluxes under water-stressed conditions has been previously noted, but very few studies have systematically evaluated these models during rainfall deficits. We evaluated latent heat fluxes simulated by the Community Atmosphere Biosphere Land Exchange (CABLE) LSM across 20 flux tower sites at sub-annual to inter-annual timescales, in particular focusing on model performance during seasonal-scale rainfall deficits. The importance of key model processes in capturing the latent heat flux was explored by employing alternative representations of hydrology, le...
Future climate change has the potential to increase drought in many regions of the globe, making it ...
Knowledge of soil–vegetation–atmosphere energy exchange processes is essential for examining the res...
The quantification of energy interactions among land surface, atmosphere, and surface vegetation is ...
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...
Land surface models (LSMs) must accurately simulate observed energy and water fluxes during droughts...
Land surface models underpin coupled climate model projections of droughts and heatwaves. However, t...
We tested four land surface parameterization schemes against long-term (5 months) area-averaged obse...
Precipitation changes the physiological characteristics of an ecosystem. Because land-surface models...
Evapotranspiration (ET) plays an important role in land-atmosphere coupling of energy, water, and ca...
The structure and function of vegetation regulates fluxes across the biosphere-atmosphere interface ...
Correct representations of root functioning, such as root water uptake and hydraulic redistribution,...
A key aspect of the land surface response to the atmosphere is how quickly it dries after a rainfall...
A key aspect of the land surface response to the atmosphere is how quickly it dries after a rainfall...
International audienceLand Surface Models (LSMs) are essential to reproduce biophysical processes mo...
Future climate change has the potential to increase drought in many regions of the globe, making it ...
Knowledge of soil–vegetation–atmosphere energy exchange processes is essential for examining the res...
The quantification of energy interactions among land surface, atmosphere, and surface vegetation is ...
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...
Land surface models (LSMs) must accurately simulate observed energy and water fluxes during droughts...
Land surface models underpin coupled climate model projections of droughts and heatwaves. However, t...
We tested four land surface parameterization schemes against long-term (5 months) area-averaged obse...
Precipitation changes the physiological characteristics of an ecosystem. Because land-surface models...
Evapotranspiration (ET) plays an important role in land-atmosphere coupling of energy, water, and ca...
The structure and function of vegetation regulates fluxes across the biosphere-atmosphere interface ...
Correct representations of root functioning, such as root water uptake and hydraulic redistribution,...
A key aspect of the land surface response to the atmosphere is how quickly it dries after a rainfall...
A key aspect of the land surface response to the atmosphere is how quickly it dries after a rainfall...
International audienceLand Surface Models (LSMs) are essential to reproduce biophysical processes mo...
Future climate change has the potential to increase drought in many regions of the globe, making it ...
Knowledge of soil–vegetation–atmosphere energy exchange processes is essential for examining the res...
The quantification of energy interactions among land surface, atmosphere, and surface vegetation is ...