A model is put forward which focuses on the dynamical evolution of the spatial distribution of snow water equivalent (SWE). We make use of the fact that when the accumulation and ablation process of the snow reservoir is modelled as a summation of a gamma-distributed variable, both skewed distributions, typical of alpine areas, and more normal distributions, typical of forested areas, can be accounted for. A particular problem is to represent fractional snow-covered area (SCA) within the distribution framework. The change in SCA as a response to a melting event is explicitly linked to the shape of the distribution of SWE and is estimated as the probability of non-exceedance of the melted amount from a scaled version of the spatial distribut...
Areas having a seasonal snowpack experience a risk of melt-floods. The magnitude of such a flood is ...
Snow depletion curves, required as input to many snowmelt models, relate the time-varying snow-cover...
Fully distributed models of alpine catchment surface processes typically use the geomorphological in...
A model is put forward which focuses on the dynamical evolution of the spatial distribution of snow ...
A simulation exercise has been performed to study the temporal development of snow covered area and ...
The spatial distribution of snow water equivalent (SWE) is modelled as a two parameter gamma distrib...
A good estimate of the spatial probability density function (PDF) of snow water equivalent (SWE) pro...
Snow is an important and complicated element in hydrological modelling. The traditional catchment h...
Snow-courses data have been collected in order to investigate the temporal variability of snow distr...
Representation of sub-element scale variability in snow accumulation and ablation is increasingly re...
The representation of the spatial frequency distribution of snow water equivalent (SWE) in the rainf...
General circulation models (GCMs), or stand-alone models that are forced by the output from GCMs, ar...
We analyze the parameterization of sub-grid scale variability in snow accumulation and melt models f...
Snow in the mountains is essential for the water cycle in cold regions. The complexity of the snow p...
Modeling snow redistribution by wind and avalanches in hydrological studies in alpine catchments is ...
Areas having a seasonal snowpack experience a risk of melt-floods. The magnitude of such a flood is ...
Snow depletion curves, required as input to many snowmelt models, relate the time-varying snow-cover...
Fully distributed models of alpine catchment surface processes typically use the geomorphological in...
A model is put forward which focuses on the dynamical evolution of the spatial distribution of snow ...
A simulation exercise has been performed to study the temporal development of snow covered area and ...
The spatial distribution of snow water equivalent (SWE) is modelled as a two parameter gamma distrib...
A good estimate of the spatial probability density function (PDF) of snow water equivalent (SWE) pro...
Snow is an important and complicated element in hydrological modelling. The traditional catchment h...
Snow-courses data have been collected in order to investigate the temporal variability of snow distr...
Representation of sub-element scale variability in snow accumulation and ablation is increasingly re...
The representation of the spatial frequency distribution of snow water equivalent (SWE) in the rainf...
General circulation models (GCMs), or stand-alone models that are forced by the output from GCMs, ar...
We analyze the parameterization of sub-grid scale variability in snow accumulation and melt models f...
Snow in the mountains is essential for the water cycle in cold regions. The complexity of the snow p...
Modeling snow redistribution by wind and avalanches in hydrological studies in alpine catchments is ...
Areas having a seasonal snowpack experience a risk of melt-floods. The magnitude of such a flood is ...
Snow depletion curves, required as input to many snowmelt models, relate the time-varying snow-cover...
Fully distributed models of alpine catchment surface processes typically use the geomorphological in...