The land surface, hydrological, and groundwater modelling communities all have expertise in simulating the hydrological processes at play in the terrestrial component of the Earth system. However, these communities, and the wider Earth system modelling community, have largely remained distinct with limited collaboration between disciplines, hindering progress in the representation of hydrological processes in the land component of Earth system models (ESMs). In order to address key societal questions regarding the future availability of water resources and the intensity of extreme events such as floods and droughts in a changing climate, these communities must come together and build on the strengths of one another to produce next-generatio...
AbstractA dynamic landscape evolution modelling platform (CLiDE) is presented that allows a variety ...
The global water cycle has been profoundly affected by human land–water management. As the changes i...
The understanding of interactions between the atmosphere, the land surface and the subsurface hydrol...
International audienceAbstract. The land surface, hydrological, and groundwater modelling communitie...
Global hydrological models (GHMs) are a useful tool in the assessment of the land surface water bala...
We develop a new large-scale hydrological and water resources model, the Community Water Model (CWat...
Catchment-scale hydrological models are widely used to represent and improve our understanding of hy...
Land surface models (LSMs) are prospective starting points to develop a global hyper-resolution mode...
Data availability at global scale is increasing exponentially. Although considerable challenges rema...
The Hydro-JULES programme is supported under NERC National Capability and delivered by UKCEH in part...
In the past, hydrological modeling of surface water resources has mainly focused on simulating the h...
With the ability to simulate historical and future global water availability on a monthly time step ...
Copyright © Author(s) 2018. This work is distributed under the Creative Commons Attribution 4.0 Lice...
Coupled climate models are multiphysics models comprising multiple separately developed codes that a...
A highly modular and scale-consistent Terrestrial Systems Modeling Platform (TerrSysMP) is presented...
AbstractA dynamic landscape evolution modelling platform (CLiDE) is presented that allows a variety ...
The global water cycle has been profoundly affected by human land–water management. As the changes i...
The understanding of interactions between the atmosphere, the land surface and the subsurface hydrol...
International audienceAbstract. The land surface, hydrological, and groundwater modelling communitie...
Global hydrological models (GHMs) are a useful tool in the assessment of the land surface water bala...
We develop a new large-scale hydrological and water resources model, the Community Water Model (CWat...
Catchment-scale hydrological models are widely used to represent and improve our understanding of hy...
Land surface models (LSMs) are prospective starting points to develop a global hyper-resolution mode...
Data availability at global scale is increasing exponentially. Although considerable challenges rema...
The Hydro-JULES programme is supported under NERC National Capability and delivered by UKCEH in part...
In the past, hydrological modeling of surface water resources has mainly focused on simulating the h...
With the ability to simulate historical and future global water availability on a monthly time step ...
Copyright © Author(s) 2018. This work is distributed under the Creative Commons Attribution 4.0 Lice...
Coupled climate models are multiphysics models comprising multiple separately developed codes that a...
A highly modular and scale-consistent Terrestrial Systems Modeling Platform (TerrSysMP) is presented...
AbstractA dynamic landscape evolution modelling platform (CLiDE) is presented that allows a variety ...
The global water cycle has been profoundly affected by human land–water management. As the changes i...
The understanding of interactions between the atmosphere, the land surface and the subsurface hydrol...