An extreme-value analysis of projected changes in heavy precipitation is carried out for an ensemble of eight high-resolution regional climate model simulations over the European domain. The consideration of several regional climate models that are forced by different global models allows for an assessment of the robustness of the results in terms of intersimulation agreement. The extreme-value statistical method is based on a model that includes time-dependent parameters. Summer and winter are examined separately. This allows for identifying and sharpening the understanding of physical processes inducing the changes in precipitation characteristics. Thermodynamic aspects of changes in heavy precipitation are discussed. Variables that are r...
[1] Using the results from multimodel ensembles enables the assessment of model uncertainty in prese...
In this study, we investigate the change in multi-day precipitation extremes in late winter in Europ...
Possible changes in the intensity of heavy precipitation events at the end of the twenty-first cent...
An extreme-value analysis of projected changes in heavy precipitation is carried out for an ensemble...
This paper presents an overview of changes in the extreme events that are most likely to affect Euro...
An analysis of the climate of precipitation extremes as simulated by six European regional climate m...
Changes in the characteristics of daily precipitation in response to global warming may have serious...
In this publication we aim to relate observed changes in Central European extreme precipitation to t...
At regional to local scales internal variability is expected to be a dominant source of uncertainty ...
Two Regional Climate Model (RCM) projections of changes in extreme precipitation over Europe are ass...
A statistical extreme value analysis is applied to very high-resolution climate model results and ob...
Precipitation over western Europe (WE) is projected to increase (decrease) roughly northward (equato...
We perform simulations with the WRF regional climate model at 12 and 3 km grid resolution for the cu...
Climate change is likely to influence the frequency of extreme extremes - temperature, precipitation...
<p>The research presented in this thesis is aimed to understanding the changes and the simulation of...
[1] Using the results from multimodel ensembles enables the assessment of model uncertainty in prese...
In this study, we investigate the change in multi-day precipitation extremes in late winter in Europ...
Possible changes in the intensity of heavy precipitation events at the end of the twenty-first cent...
An extreme-value analysis of projected changes in heavy precipitation is carried out for an ensemble...
This paper presents an overview of changes in the extreme events that are most likely to affect Euro...
An analysis of the climate of precipitation extremes as simulated by six European regional climate m...
Changes in the characteristics of daily precipitation in response to global warming may have serious...
In this publication we aim to relate observed changes in Central European extreme precipitation to t...
At regional to local scales internal variability is expected to be a dominant source of uncertainty ...
Two Regional Climate Model (RCM) projections of changes in extreme precipitation over Europe are ass...
A statistical extreme value analysis is applied to very high-resolution climate model results and ob...
Precipitation over western Europe (WE) is projected to increase (decrease) roughly northward (equato...
We perform simulations with the WRF regional climate model at 12 and 3 km grid resolution for the cu...
Climate change is likely to influence the frequency of extreme extremes - temperature, precipitation...
<p>The research presented in this thesis is aimed to understanding the changes and the simulation of...
[1] Using the results from multimodel ensembles enables the assessment of model uncertainty in prese...
In this study, we investigate the change in multi-day precipitation extremes in late winter in Europ...
Possible changes in the intensity of heavy precipitation events at the end of the twenty-first cent...