The improvement of process representations in hydrological models is often only driven by the modelers' knowledge and data availability. We present a comprehensive comparison between two hydrological models of different complexity that is developed to support (1) the understanding of the differences between model structures and (2) the identification of the observations needed for model assessment and improvement. The comparison is conducted on both space and time and by aggregating the outputs at different spatiotemporal scales. In the present study, mHM, a process‐based hydrological model, and ParFlow‐CLM, an integrated subsurface‐surface hydrological model, are used. The models are applied in a mesoscale catchment in Germany. Both models...
This study compares two modeling platforms, ParFlow.WRF (PF.WRF) and the Terrestrial Systems Modelin...
High-resolution large-scale predictions of hydrologic states and fluxes are important for many regio...
The objective of this study is to inter-compare three spatially distributed hydrological models (Hyd...
The improvement of process representations in hydrological models is often only driven by the modele...
Process-based hydrological models have a long history dating back to the 1960s. Criticized by some a...
Five hydrological models with different spatial resolutions and process descriptions were applied to...
In the context of the repeated droughts that have affected central Europe over the last years (2018–...
This paper explores the development and application of distributed hydrological models, focusing on ...
Contemplating the Meuse or any other river of the world, one may wonder about the journey of rain in...
Model fidelity and accuracy in process representations have been the crux of scientific hydrological...
The “Wilde Gera ” is an interflow and snow melt dominated highland headwater catchment in the Thurin...
International audienceEmphasizing the physical intricacies of integrated hydrology and feedbacks in ...
Hydrological models are designed to represent the interactions between thephysical process and the w...
High-resolution, coupled, process-based hydrology models, in which subsurface, land-surface, and ene...
This work advances a unified approach to process-based hydrologic modeling to enable con- trolled and...
This study compares two modeling platforms, ParFlow.WRF (PF.WRF) and the Terrestrial Systems Modelin...
High-resolution large-scale predictions of hydrologic states and fluxes are important for many regio...
The objective of this study is to inter-compare three spatially distributed hydrological models (Hyd...
The improvement of process representations in hydrological models is often only driven by the modele...
Process-based hydrological models have a long history dating back to the 1960s. Criticized by some a...
Five hydrological models with different spatial resolutions and process descriptions were applied to...
In the context of the repeated droughts that have affected central Europe over the last years (2018–...
This paper explores the development and application of distributed hydrological models, focusing on ...
Contemplating the Meuse or any other river of the world, one may wonder about the journey of rain in...
Model fidelity and accuracy in process representations have been the crux of scientific hydrological...
The “Wilde Gera ” is an interflow and snow melt dominated highland headwater catchment in the Thurin...
International audienceEmphasizing the physical intricacies of integrated hydrology and feedbacks in ...
Hydrological models are designed to represent the interactions between thephysical process and the w...
High-resolution, coupled, process-based hydrology models, in which subsurface, land-surface, and ene...
This work advances a unified approach to process-based hydrologic modeling to enable con- trolled and...
This study compares two modeling platforms, ParFlow.WRF (PF.WRF) and the Terrestrial Systems Modelin...
High-resolution large-scale predictions of hydrologic states and fluxes are important for many regio...
The objective of this study is to inter-compare three spatially distributed hydrological models (Hyd...