Add to ORKGEstimates of future changes in extremes of multiday precipitation sums are critical for estimates of future discharge extremes of large river basins. Here we use a large ensemble of global climate model SRES A1b scenario simulations to estimate changes in extremes of 1–20 day precipitation sums over the Rhine basin, projected for the period 2071–2100 with reference to 1961–1990. We find that in winter, an increase of order 10%, for the 99th percentile precipitation sum, is approximately fixed across the selected range of multiday sums, whereas in summer, the changes become increasingly negative as the summation time lengthens. Explanations for these results are presented that have implications for simple scaling methods for creating time se...
Because of global warming, the hydrologic behavior of the Rhine basin is expected to shift from a co...
Because of global warming, the hydrologic behavior of the Rhine basin is expected to shift from a co...
Precipitation extremes will increase in a warming climate, but the response of flood magnitudes to h...
Estimates of future changes in extremes of multiday precipitation sums are critical for estimates of...
Probability estimates of the future change of extreme precipitation events are usually based on a li...
Probability estimates of the future change of extreme precipitation events are usually based on a li...
Climate change will increase winter precipitation, and in combination with earlier snowmelt it will ...
Probability estimates of the future change of extreme precipitation events are usually based on a li...
Future changes in extreme multi-day precipitation will influence the probability of floods in the ri...
Future changes in extreme multi-day precipitation will influence the probability of floods in the ri...
Future changes in extreme multi-day precipitation will influence the probability of floods in the ri...
In this study, we investigate the change in multi-day precipitation extremes in late winter in Europ...
The river Meuse is the second largest river in the Netherlands and is characterized by strong variat...
Due to global warming, the hydrologic behavior of the Rhine basin is expected to shift from a combin...
Due to global warming, the hydrologic behavior of the Rhine basin is expected to shift from a combin...
Because of global warming, the hydrologic behavior of the Rhine basin is expected to shift from a co...
Because of global warming, the hydrologic behavior of the Rhine basin is expected to shift from a co...
Precipitation extremes will increase in a warming climate, but the response of flood magnitudes to h...
Estimates of future changes in extremes of multiday precipitation sums are critical for estimates of...
Probability estimates of the future change of extreme precipitation events are usually based on a li...
Probability estimates of the future change of extreme precipitation events are usually based on a li...
Climate change will increase winter precipitation, and in combination with earlier snowmelt it will ...
Probability estimates of the future change of extreme precipitation events are usually based on a li...
Future changes in extreme multi-day precipitation will influence the probability of floods in the ri...
Future changes in extreme multi-day precipitation will influence the probability of floods in the ri...
Future changes in extreme multi-day precipitation will influence the probability of floods in the ri...
In this study, we investigate the change in multi-day precipitation extremes in late winter in Europ...
The river Meuse is the second largest river in the Netherlands and is characterized by strong variat...
Due to global warming, the hydrologic behavior of the Rhine basin is expected to shift from a combin...
Due to global warming, the hydrologic behavior of the Rhine basin is expected to shift from a combin...
Because of global warming, the hydrologic behavior of the Rhine basin is expected to shift from a co...
Because of global warming, the hydrologic behavior of the Rhine basin is expected to shift from a co...
Precipitation extremes will increase in a warming climate, but the response of flood magnitudes to h...