Highly simplified approaches continue to underpin hydrological climate change impact assessments across the Earth's mountainous regions. Fully-integrated surface-subsurface models may hold far greater potential to represent the distinctive regimes of steep, geologically-complex headwater catchments. However, their utility has not yet been tested across a wide range of mountainous settings. Here, an integrated model of two adjacent calcareous Alpine headwaters that accounts for two-dimensional surface flow, three-dimensional (3D) variably-saturated groundwater flow, and evapotranspiration is presented. An energy balance-based representation of snow dynamics contributed to the model's high-resolution forcing data, and a sophisticated 3D geolo...
Performance of process-based hydrological models is usually assessed through comparison between simu...
Fully distributed models of alpine catchment surface processes typically use the geomorphological in...
Climate change is expected to strongly impact the hydrological and thermal regimes of Alpine rivers ...
Groundwater systems in mountainous headwater catchments significantly sustain downstream freshwater ...
Climate change threatens water resources in snowmelt-dependent regions by altering the fraction of s...
A reliable prediction of hydrograph responses in mountainous headwater catchments requires a mechani...
Streamflow simulation is often challenging in mountainous watersheds because of irregular topography...
The water balance in mountain regions describes the relations between precipitation, snow accumulati...
The water balance in high Alpine regions in its full complexity is so far insufficiently understood....
Mountainous catchments cover a broad range of elevations and their response to a warming climate is ...
Fully distributed models of alpine catchment surface processes typically use the geomorphological in...
This study was conducted within the project SuMaRiO (Sustainable Management of River Oases along the...
We present a travel time formulation of water and energy transport at sub-catchment scale. The deriv...
In high mountainous catchments, the spatial precipitation and therefore the overall water balance is...
Hydrological modelling of small mountainous catchments is particularly challenging because of the hi...
Performance of process-based hydrological models is usually assessed through comparison between simu...
Fully distributed models of alpine catchment surface processes typically use the geomorphological in...
Climate change is expected to strongly impact the hydrological and thermal regimes of Alpine rivers ...
Groundwater systems in mountainous headwater catchments significantly sustain downstream freshwater ...
Climate change threatens water resources in snowmelt-dependent regions by altering the fraction of s...
A reliable prediction of hydrograph responses in mountainous headwater catchments requires a mechani...
Streamflow simulation is often challenging in mountainous watersheds because of irregular topography...
The water balance in mountain regions describes the relations between precipitation, snow accumulati...
The water balance in high Alpine regions in its full complexity is so far insufficiently understood....
Mountainous catchments cover a broad range of elevations and their response to a warming climate is ...
Fully distributed models of alpine catchment surface processes typically use the geomorphological in...
This study was conducted within the project SuMaRiO (Sustainable Management of River Oases along the...
We present a travel time formulation of water and energy transport at sub-catchment scale. The deriv...
In high mountainous catchments, the spatial precipitation and therefore the overall water balance is...
Hydrological modelling of small mountainous catchments is particularly challenging because of the hi...
Performance of process-based hydrological models is usually assessed through comparison between simu...
Fully distributed models of alpine catchment surface processes typically use the geomorphological in...
Climate change is expected to strongly impact the hydrological and thermal regimes of Alpine rivers ...