Six land surface models and five global hydrological models participate in a model intercomparison project [Water Model Intercomparison Project (WaterMIP)], which for the first time compares simulation results of these different classes of models in a consistent way. In this paper, the simulation setup is described and aspects of the multimodel global terrestrial water balance are presented. All models were run at 0.5 degrees spatial resolution for the global land areas for a 15-yr period (1985-99) using a newly developed global meteorological dataset. Simulated global terrestrial evapotranspiration, excluding Greenland and Antarctica, ranges from 415 to 586 mm yr(-1) (from 60 000 to 85 000 km(3) yr(-1)), and simulated runoff ranges from 29...
Evapotranspiration (ET) plays a critical role in linking the water and energy cycles but is difficul...
The assessment of water balance components using global hydrological models is subject to climate fo...
Estimates of terrestrial water storage (TWS) variations from the Gravity Recovery and Climate Experi...
Six land surface models and five global hydrological models participate in a model intercomparison p...
International audienceSix land surface models and five global hydrological models participate in a m...
Six land surface models and five global hydrological models participate in a model intercomparison p...
The Water Model Intercomparison Project (WaterMIP) aims to compare a variety of models of the terres...
Large-scale hydrological models describing the terrestrial water balance at continental and global s...
Hydrological models have been developed in response to the need to understand the complex water cycl...
Observed streamflow data from 966 medium sized catchments (1000–5000 km2) around the globe were used...
Water is essential for all life on earth. Global population increase and climate change are projecte...
When assessing global water resources with hydrological models, it is essential to know about method...
SummaryEvapotranspiration (ET) plays a critical role in linking the water and energy cycles but is d...
The land surface water balance components simulated by 20 atmospheric global circulation models (AGC...
Evapotranspiration (ET) plays a critical role in linking the water and energy cycles but is difficul...
The assessment of water balance components using global hydrological models is subject to climate fo...
Estimates of terrestrial water storage (TWS) variations from the Gravity Recovery and Climate Experi...
Six land surface models and five global hydrological models participate in a model intercomparison p...
International audienceSix land surface models and five global hydrological models participate in a m...
Six land surface models and five global hydrological models participate in a model intercomparison p...
The Water Model Intercomparison Project (WaterMIP) aims to compare a variety of models of the terres...
Large-scale hydrological models describing the terrestrial water balance at continental and global s...
Hydrological models have been developed in response to the need to understand the complex water cycl...
Observed streamflow data from 966 medium sized catchments (1000–5000 km2) around the globe were used...
Water is essential for all life on earth. Global population increase and climate change are projecte...
When assessing global water resources with hydrological models, it is essential to know about method...
SummaryEvapotranspiration (ET) plays a critical role in linking the water and energy cycles but is d...
The land surface water balance components simulated by 20 atmospheric global circulation models (AGC...
Evapotranspiration (ET) plays a critical role in linking the water and energy cycles but is difficul...
The assessment of water balance components using global hydrological models is subject to climate fo...
Estimates of terrestrial water storage (TWS) variations from the Gravity Recovery and Climate Experi...