This paper demonstrates a framework for producing probabilistic flood risk estimates, focusing on two sections of the Rhine River. We used an ensemble of six (bias-corrected) regional climate model (RCM) future simulations to create a 3000-year time-series through resampling. This was complemented with 12 global climate model (GCM)-based future time-series, constructed by resampling observed time-series of daily precipitation and temperature and modifying these to represent future climate conditions using an advanced delta change approach. We used the resampled time-series as input in the hydrological model Hydrologiska Byråns Vattenbalansavdelning (HBV)-96 to simulate daily discharge and extreme discharge quantiles for return periods up to...
In this work we evaluate the implications of climate change for future fluvial flood risk in Europe,...
We analyze changes in flood hazard in Europe as simulated by the hydrological model LISFLOOD when dr...
Assessing flood hazard in climate changes depends critically on the scenarios and projections of cli...
This paper demonstrates a framework for producing probabilistic flood risk estimates, focusing on tw...
Climate change will increase winter precipitation, and in combination with earlier snowmelt it will ...
We assess future flood hazard in view of climate change at pan-European scale using a large ensemble...
Climate change increases flood probabilities in the Rhine river basin, which complicates long-term f...
Probability estimates of the future change of extreme precipitation events are usually based on a li...
In Europe, water management is moving from flood defense to a risk management approach, which takes ...
An approach to considering changes in flooding probability in the integrated assessment of climate c...
[1] We analyze changes in flood hazard in Europe by examining extreme discharge levels as simulated ...
Flood damages have exhibited a rapid upward trend, both globally and in Europe, faster than populati...
Flood damages have exhibited a rapid upward trend, both globally and in Europe, faster than populati...
In this work we evaluate the implications of climate change for future fluvial flood risk in Europe,...
Climate change is expected to significantly affect flooding regimes of river systems in the future. ...
In this work we evaluate the implications of climate change for future fluvial flood risk in Europe,...
We analyze changes in flood hazard in Europe as simulated by the hydrological model LISFLOOD when dr...
Assessing flood hazard in climate changes depends critically on the scenarios and projections of cli...
This paper demonstrates a framework for producing probabilistic flood risk estimates, focusing on tw...
Climate change will increase winter precipitation, and in combination with earlier snowmelt it will ...
We assess future flood hazard in view of climate change at pan-European scale using a large ensemble...
Climate change increases flood probabilities in the Rhine river basin, which complicates long-term f...
Probability estimates of the future change of extreme precipitation events are usually based on a li...
In Europe, water management is moving from flood defense to a risk management approach, which takes ...
An approach to considering changes in flooding probability in the integrated assessment of climate c...
[1] We analyze changes in flood hazard in Europe by examining extreme discharge levels as simulated ...
Flood damages have exhibited a rapid upward trend, both globally and in Europe, faster than populati...
Flood damages have exhibited a rapid upward trend, both globally and in Europe, faster than populati...
In this work we evaluate the implications of climate change for future fluvial flood risk in Europe,...
Climate change is expected to significantly affect flooding regimes of river systems in the future. ...
In this work we evaluate the implications of climate change for future fluvial flood risk in Europe,...
We analyze changes in flood hazard in Europe as simulated by the hydrological model LISFLOOD when dr...
Assessing flood hazard in climate changes depends critically on the scenarios and projections of cli...