Add to ORKGArtículo de publicación ISIThe hydrological discharge (HD) model of Max Planck Institute for Meteorology is forced by a variety of climate model datasets to investigate the future of discharge in the Euphrates−Tigris Basin. The data include daily time series of surface runoff and sub-surface runoff outputs of 2 global climate models (GCMs) (the SRES A1B scenario simulation of ECHAM5/MPIOM and the RCP 4.5 scenario simulation of MPI-ESM-LR) and the dynamically downscaled outputs of ECHAM5/MPIOM and NCAR-CCSM3 scenario (SRES A1FI, A2 and B1) simulations. The suite of simulations enables a comprehensive analysis of the projected river discharge, and allows a comparison between CMIP5 simulations of MPI-ESM-LR and CMIP3 results from its p...
The river Meuse is the second largest river in the Netherlands and is characterized by strong variat...
SummaryDrought severity and related socio-economic impacts are expected to increase due to climate c...
Drought severity and related socio-economic impacts are expected to increase due to climate change. ...
Artículo de publicación ISIThe hydrological discharge (HD) model of Max Planck Institute for Meteoro...
The hydrological discharge (HD) model of Max Planck Institute for Meteorology is forced by a variety...
The hydrological discharge (HD) model of Max Planck Institute for Meteorology is forced by a variety...
Hydro-climatic effects of future climate change in the Euphrates-Tigris Basin are investigated using...
The discharge of freshwater into oceans represents a fundamental process in the global climate syste...
The discharge of freshwater into oceans represents a fundamental process in the global climate syste...
The discharge of freshwater into oceans represents a fundamental process in the global climate syste...
In the current study, two regional climate models (MM5 and REMO) driven by different global boundary...
In the current study, two regional climate models (MM5 and REMO) driven by different global boundary...
This study makes a thorough global assessment of the effects of climate change on hydrological regi...
Climate change will increase winter precipitation, and in combination with earlier snowmelt it will ...
As an initial step in assessing the prospect of using global hydrological models (GHMs) for hydrolog...
The river Meuse is the second largest river in the Netherlands and is characterized by strong variat...
SummaryDrought severity and related socio-economic impacts are expected to increase due to climate c...
Drought severity and related socio-economic impacts are expected to increase due to climate change. ...
Artículo de publicación ISIThe hydrological discharge (HD) model of Max Planck Institute for Meteoro...
The hydrological discharge (HD) model of Max Planck Institute for Meteorology is forced by a variety...
The hydrological discharge (HD) model of Max Planck Institute for Meteorology is forced by a variety...
Hydro-climatic effects of future climate change in the Euphrates-Tigris Basin are investigated using...
The discharge of freshwater into oceans represents a fundamental process in the global climate syste...
The discharge of freshwater into oceans represents a fundamental process in the global climate syste...
The discharge of freshwater into oceans represents a fundamental process in the global climate syste...
In the current study, two regional climate models (MM5 and REMO) driven by different global boundary...
In the current study, two regional climate models (MM5 and REMO) driven by different global boundary...
This study makes a thorough global assessment of the effects of climate change on hydrological regi...
Climate change will increase winter precipitation, and in combination with earlier snowmelt it will ...
As an initial step in assessing the prospect of using global hydrological models (GHMs) for hydrolog...
The river Meuse is the second largest river in the Netherlands and is characterized by strong variat...
SummaryDrought severity and related socio-economic impacts are expected to increase due to climate c...
Drought severity and related socio-economic impacts are expected to increase due to climate change. ...