Large-scale hydrological drought studies have demonstrated spatial and temporal patterns in observed trends, and considerable difference exists among global hydrological models in their ability to reproduce these patterns. In this study a controlled modeling experiment has been set up to systematically explore the role of climate and physical catchment structure (soils and groundwater systems) to better understand underlying drought-generating mechanisms. Daily climate data (1958–2001) of 1495 grid cells across the world were selected that represent Köppen–Geiger major climate types. These data were fed into a conceptual hydrological model. Nine realizations of physical catchment structure were defined for each grid cell, i.e., th...
Contemporary understanding of the impacts of climate change on global drought characteristics (e.g.,...
Drought occurrence is analyzed over global land areas for 1950-2000 using soil moisture data from a ...
Climate change will very likely impact future hydrological drought characteristics across the world....
Large-scale hydrological drought studies have demonstrated spatial and temporal patterns in observed...
Drought is a natural hazard, caused by a lack of water availability, which can have a large impact ...
Drought propagation through the terrestrial hydrological cycle is associated with a change in drough...
Drought is a severe natural disaster resulting in high economic loss and huge ecological and societ...
Hydrological drought characteristics (drought in groundwater and streamflow) likely will change in t...
Hydrological drought characteristics (drought in groundwater and streamflow) likely will change in ...
Drought is a natural hazard that occurs at many temporal and spatial scales and has severe environme...
Hydrological drought, defined as below-average streamflow conditions, can be triggered by different ...
The large impacts of drought on society, economy and environment urge for a thorough investigation. ...
Large-scale models are often applied to study past drought (forced with global reanalysis datasets) ...
Climate change very likely impacts future hydrological drought characteristics across the world. Her...
We normally see hydrological drought as a period of low streamflow and/or groundwater levels caused ...
Contemporary understanding of the impacts of climate change on global drought characteristics (e.g.,...
Drought occurrence is analyzed over global land areas for 1950-2000 using soil moisture data from a ...
Climate change will very likely impact future hydrological drought characteristics across the world....
Large-scale hydrological drought studies have demonstrated spatial and temporal patterns in observed...
Drought is a natural hazard, caused by a lack of water availability, which can have a large impact ...
Drought propagation through the terrestrial hydrological cycle is associated with a change in drough...
Drought is a severe natural disaster resulting in high economic loss and huge ecological and societ...
Hydrological drought characteristics (drought in groundwater and streamflow) likely will change in t...
Hydrological drought characteristics (drought in groundwater and streamflow) likely will change in ...
Drought is a natural hazard that occurs at many temporal and spatial scales and has severe environme...
Hydrological drought, defined as below-average streamflow conditions, can be triggered by different ...
The large impacts of drought on society, economy and environment urge for a thorough investigation. ...
Large-scale models are often applied to study past drought (forced with global reanalysis datasets) ...
Climate change very likely impacts future hydrological drought characteristics across the world. Her...
We normally see hydrological drought as a period of low streamflow and/or groundwater levels caused ...
Contemporary understanding of the impacts of climate change on global drought characteristics (e.g.,...
Drought occurrence is analyzed over global land areas for 1950-2000 using soil moisture data from a ...
Climate change will very likely impact future hydrological drought characteristics across the world....