We apply a physical climate storyline approach to an autumn flood event in the West Coast of Norway caused by an atmospheric river to demonstrate the value and challenges of higher spatial and temporal resolution in simulating flood impacts. We use a modelling chain whose outputs are familiar and used operationally, for example to issue flood warnings. With two different versions of a hydrological model, we show that (1) the higher spatial resolution between the global and regional climate model is necessary to realistically simulate the high spatial variability of precipitation in this mountainous region and (2) only with hourly data are we able to capture the fast flood-generating processes leading to the peak streamflow. The higher resol...
Knowledge about flood generating processes can be beneficial for numerous applications. Especially ...
The impact of climate change on flooding in the river Meuse is assessed on a daily basis using spati...
[Departement_IRSTEA]Eaux [TR1_IRSTEA]ARCEAUPrecipitation is the key factor controlling the high-freq...
We apply a physical climate storyline approach to an autumn flood event in the West Coast of Norway ...
The aim of this study is to investigate extreme precipitation events caused by atmospheric rivers an...
The aim of this study is to investigate extreme precipitation events caused by atmospheric rivers an...
Flooding events associated with extreme precipitation have had large impacts in Norway. It is well k...
Floods due to intense rainfall are a major hazard to both people and infrastructure in western Norwa...
Climate change is one of the greatest threats currently facing the world's environment. In Norway, a...
Floods cause extensive damage, especially if they affect large regions. Assessments of current, loca...
[1] We analyze changes in flood hazard in Europe by examining extreme discharge levels as simulated ...
Floods have been the most reported natural disaster in Europe. Recent advances in climate modelling ...
We analyze changes in flood hazard in Europe as simulated by the hydrological model LISFLOOD when dr...
Global warming is generally expected to increase the magnitude and frequency of extreme precipitatio...
Global warming is generally expected to increase the magnitude and frequency of extreme precipitatio...
Knowledge about flood generating processes can be beneficial for numerous applications. Especially ...
The impact of climate change on flooding in the river Meuse is assessed on a daily basis using spati...
[Departement_IRSTEA]Eaux [TR1_IRSTEA]ARCEAUPrecipitation is the key factor controlling the high-freq...
We apply a physical climate storyline approach to an autumn flood event in the West Coast of Norway ...
The aim of this study is to investigate extreme precipitation events caused by atmospheric rivers an...
The aim of this study is to investigate extreme precipitation events caused by atmospheric rivers an...
Flooding events associated with extreme precipitation have had large impacts in Norway. It is well k...
Floods due to intense rainfall are a major hazard to both people and infrastructure in western Norwa...
Climate change is one of the greatest threats currently facing the world's environment. In Norway, a...
Floods cause extensive damage, especially if they affect large regions. Assessments of current, loca...
[1] We analyze changes in flood hazard in Europe by examining extreme discharge levels as simulated ...
Floods have been the most reported natural disaster in Europe. Recent advances in climate modelling ...
We analyze changes in flood hazard in Europe as simulated by the hydrological model LISFLOOD when dr...
Global warming is generally expected to increase the magnitude and frequency of extreme precipitatio...
Global warming is generally expected to increase the magnitude and frequency of extreme precipitatio...
Knowledge about flood generating processes can be beneficial for numerous applications. Especially ...
The impact of climate change on flooding in the river Meuse is assessed on a daily basis using spati...
[Departement_IRSTEA]Eaux [TR1_IRSTEA]ARCEAUPrecipitation is the key factor controlling the high-freq...