The Water Model Intercomparison Project (WaterMIP) aims to compare a variety of models of the terrestrial hydrological cycle, and to produce multi-model ensemble estimates of the state of the world’s water resources for the 20th and 21st centuries. WaterMIP is a joint activity between the EU Water and Global Change (WATCH) FP6 project and the Global Water System Project (GWSP)
Global water models (GWMs) simulate the terrestrial water cycle on the global scale and are used to ...
Six land surface models and five global hydrological models participate in a model intercomparison p...
Assessing global freshwater resources and human water demand is of value for a number of needs but c...
Global water models (GWMs) simulate the terrestrial water cycle on the global scale and are used to ...
International audienceAbstract. Global water models (GWMs) simulate the terrestrial water cycle on t...
Six land surface models and five global hydrological models participate in a model intercomparison p...
Global water models (GWMs) simulate the terrestrial water cycle, on the global scale, and are used t...
Six land surface models and five global hydrological models participate in a model intercomparison p...
Hydrological models have been developed in response to the need to understand the complex water cycl...
Global water models (GWMs) simulate the terrestrial water cycle on the global scale and are used to ...
Global water models (GWMs) simulate the terrestrial water cycle on the global scale and are used to ...
Six land surface models and five global hydrological models participate in a model intercomparison p...
Assessing global freshwater resources and human water demand is of value for a number of needs but c...
Global water models (GWMs) simulate the terrestrial water cycle on the global scale and are used to ...
International audienceAbstract. Global water models (GWMs) simulate the terrestrial water cycle on t...
Six land surface models and five global hydrological models participate in a model intercomparison p...
Global water models (GWMs) simulate the terrestrial water cycle, on the global scale, and are used t...
Six land surface models and five global hydrological models participate in a model intercomparison p...
Hydrological models have been developed in response to the need to understand the complex water cycl...
Global water models (GWMs) simulate the terrestrial water cycle on the global scale and are used to ...
Global water models (GWMs) simulate the terrestrial water cycle on the global scale and are used to ...
Six land surface models and five global hydrological models participate in a model intercomparison p...
Assessing global freshwater resources and human water demand is of value for a number of needs but c...