In order to better understand the global coastal systems and the dangers and risks associated with them, it is important to examine the atmosphere, the land, hydrology, the ocean and especially their interactions
A set of five simulations for river runoff and total phosphorus transport within the European riverine system, driven by human activity and climate change. These simulations were carried out with the Hydrological
For the Helsinki Commission (HELCOM), annual waterborne basin inflows of total nitrogen (N) and total phosphorus (P) were compiled for the seven main Baltic Sea sub-basins (Sect. 1.1). In order to allow
1 Dataset description
In ocean model or Earth System model applications, the riverine freshwater inflow is an important flux affecting salinity and marine stratification in coastal areas. However, in
For the Helsinki Commission (HELCOM), annual waterborne basin inflows of total nitrogen (N) and total phosphorus (P) were compiled for the seven main Baltic Sea sub-basins (Sect. 1.1). In order to allow
Under the heading of the OSPAR convention (Sect. 1.1), the IGC-EMO database of daily freshwater inflows and nutrient loads was compiled by van Leeuwen and Lenhart (2021), which covers the major rivers
1 Dataset description In ocean model or Earth System model applications, the riverine freshwater inflow is an important flux affecting salinity and marine stratification in coastal areas. However, in climate
Model runs over Europe were conducted within the ESM project (www.esm-project.net/) for the Frontier Simulations supporting the water and matter fluxes from the European landmass to receiving water bodies
The data of this experiment have been used in (Hagemann et al., 2020). It comprise daily data of surface runoff and subsurface runoff (drainage) from JSBACH and MPI-HM and simulated daily discharges (river
This experiment comprises data that have been used in Hagemann et al. (submitted). It comprises daily data of surface runoff and subsurface runoff from HydroPy and simulated daily discharges (river runoff)
This datasets contains simulation output for the global hydrological models HydroPy and MPI-HM. Both used meteorological forcing from the GSWP3 dataset for the period 1979-2014 and a 50 years spinup period.
Hindcast simulation of total phosphorus and river runoff over Europe using the Hydrological Discharge model (Hagemann et al. 2020) driven with HydroPy (Stake and Hagemann, 2021) and Global Soil Wetness
Historical simulation of total phosphorus and river runoff over Europe using the Hyrological Discharge model (Hagemann et al. 2020) driven with HydroPy (Stake and Hagemann, 2021) and the global Earth system
SSP1-RCP2.6 scenario simulation of total phosphorus and river runoff over Europe using the Hydrological Discharge model (Hagemann et al. 2020) driven with HydroPy (Stake and Hagemann, 2021) and the global
SSP3-RCP7.0 scenario simulation of total phosphorus and river runoff over Europe using the Hydrological Discharge model (Hagemann et al. 2020) driven with HydroPy (Stake and Hagemann, 2021) and the global