In light of recent anthropogenic-induced climate change, a burning question at present is how these changes influence the water regime of rivers, which are of vital importance for humans as well as for biota. In this study, we investigate the changes in the hydrologic regime of two major German rivers, Elbe and Rhine, after the middle of the 20th century. Here, we use the widely adopted Range of Variability Approach (RVA) method on daily streamflow data from five (Elbe) and seven (Rhine) hydrological stations to determine the variability and spatial pattern of hydrologic alterations. We discuss the potential effect of climate change on the water regime of these two rivers, as well as other potential causes. For both rivers, we find t...
Human-induced climate change is already impacting hydrometeorological extremes in every region acros...
The Rhine basin will shift from a combined rainfall and snow melt regime to a more rainfall dominate...
Variability is present on multiple levels in the hydrological cycle, both spatially and temporally. ...
In light of recent anthropogenic-induced climate change, a burning question at present is how these ...
The impact of change on river ecosystems at the pan-European scale under various climatological and ...
© 2018 Dr. Jun WangRiver ecosystems around the world have been heavily stressed by river regulation ...
According to the ‘natural flow paradigm’, any departure from the natural flow condition will alter t...
This study investigated hydrological alterations in the sections of the Mura, Drava, and Danube rive...
Interactive impacts of climate change and human activities (e.g. hydropower production) have posed u...
River flow regimes, including long-term average flows, seasonality, low flows, high flows and other ...
Because of global warming, the hydrologic behavior of the Rhine basin is expected to shift from a co...
Global-scale information on natural river flows and anthropogenic river flow alterations is required...
Climate change inducing significant variations in the seasonal dynamics of the water cycle and hydro...
River flow dynamics play an important role for aquatic and riparian ecosystems. Climate change is pr...
The objective of this thesis is to assess the effects of climate change on the initial, transient an...
Human-induced climate change is already impacting hydrometeorological extremes in every region acros...
The Rhine basin will shift from a combined rainfall and snow melt regime to a more rainfall dominate...
Variability is present on multiple levels in the hydrological cycle, both spatially and temporally. ...
In light of recent anthropogenic-induced climate change, a burning question at present is how these ...
The impact of change on river ecosystems at the pan-European scale under various climatological and ...
© 2018 Dr. Jun WangRiver ecosystems around the world have been heavily stressed by river regulation ...
According to the ‘natural flow paradigm’, any departure from the natural flow condition will alter t...
This study investigated hydrological alterations in the sections of the Mura, Drava, and Danube rive...
Interactive impacts of climate change and human activities (e.g. hydropower production) have posed u...
River flow regimes, including long-term average flows, seasonality, low flows, high flows and other ...
Because of global warming, the hydrologic behavior of the Rhine basin is expected to shift from a co...
Global-scale information on natural river flows and anthropogenic river flow alterations is required...
Climate change inducing significant variations in the seasonal dynamics of the water cycle and hydro...
River flow dynamics play an important role for aquatic and riparian ecosystems. Climate change is pr...
The objective of this thesis is to assess the effects of climate change on the initial, transient an...
Human-induced climate change is already impacting hydrometeorological extremes in every region acros...
The Rhine basin will shift from a combined rainfall and snow melt regime to a more rainfall dominate...
Variability is present on multiple levels in the hydrological cycle, both spatially and temporally. ...