Abstract Precipitation extremes and small-scale variability are essential drivers in many climate change impact studies. However, the spatial resolution currently achieved by global climate models (GCMs) and regional climate models (RCMs) is still insufficient to correctly identify the fine structure of precipitation intensity fields. In the absence of a proper physically based representation, this scale gap can be at least temporarily bridged by adopting a stochastic rainfall downscaling technique. In this work, a precipitation downscaling chain is introduced where the global 40-yr ECMWF Re-Analysis (ERA-40) (at about 120-km resolution) is dynamically downscaled using the Protheus RCM at 30-km resolution. The RCM precipitati...
General circulation models (GCMs) are the primary tools for evaluating the possible impacts of clima...
International audienceGiven the coarse spatial resolution of General Circulation Models, finer scale...
Various downscaling techniques have been developed to bridge the scale gap between global climate mo...
Abstract A method is introduced for stochastic rainfall downscaling that can be easil...
Stochastic rainfall downscaling methods usually do not take into account orographic effects or loca...
Precipitation downscaling improves the coarse resolution and poor representation of precipitation in...
Stochastic rainfall downscaling methods usually do not take into account orographic effects or local...
Much of our knowledge about future changes in precipitation relies on global (GCM) and/or regional c...
International audienceIn the absence of a full deterministic modelling of small-scale rainfall, it i...
Precipitation is highly variable in space and time; hence, rain gauge time series generally exhibit ...
This study extends a stochastic downscaling methodology to generation of an ensemble of hourly time ...
To improve the level skill of climate models (CMs) in reproducing the statistics of daily rainfall a...
Given the coarse spatial resolution of General Circulation Models, finer scale projections of variab...
Precipitation downscaling improves the coarse resolution and poor representation of precipitation in...
High-resolution climate data O(1km) at the catchment scale can be of great value to both hydrologica...
General circulation models (GCMs) are the primary tools for evaluating the possible impacts of clima...
International audienceGiven the coarse spatial resolution of General Circulation Models, finer scale...
Various downscaling techniques have been developed to bridge the scale gap between global climate mo...
Abstract A method is introduced for stochastic rainfall downscaling that can be easil...
Stochastic rainfall downscaling methods usually do not take into account orographic effects or loca...
Precipitation downscaling improves the coarse resolution and poor representation of precipitation in...
Stochastic rainfall downscaling methods usually do not take into account orographic effects or local...
Much of our knowledge about future changes in precipitation relies on global (GCM) and/or regional c...
International audienceIn the absence of a full deterministic modelling of small-scale rainfall, it i...
Precipitation is highly variable in space and time; hence, rain gauge time series generally exhibit ...
This study extends a stochastic downscaling methodology to generation of an ensemble of hourly time ...
To improve the level skill of climate models (CMs) in reproducing the statistics of daily rainfall a...
Given the coarse spatial resolution of General Circulation Models, finer scale projections of variab...
Precipitation downscaling improves the coarse resolution and poor representation of precipitation in...
High-resolution climate data O(1km) at the catchment scale can be of great value to both hydrologica...
General circulation models (GCMs) are the primary tools for evaluating the possible impacts of clima...
International audienceGiven the coarse spatial resolution of General Circulation Models, finer scale...
Various downscaling techniques have been developed to bridge the scale gap between global climate mo...