Integrated terrestrial system models predict the coupled water, energy and biogeochemical cycles. Simulations with these models are affected by uncertainties of model parameters, initial and boundary conditions, atmospheric forcings and the biophysical processes. Data assimilation (DA) can quantify and reduce the uncertainty. This has been tested intensively for single compartment models, but far less for integrated models with multiple compartments. We constructed a virtual reality (VR) with a coupled land surface-subsurface model under the Terrestrial Systems Modeling Platform, which mimics the Neckar catchment in southern Germany. Soil moisture and groundwater level (GWL) data extracted from the simulated VR are used as measurements to b...
Land surface models (LSMs) use a large cohort of parameters and state variables to simulate the wate...
Soil moisture predictions from land surface models are important in hydrological, ecological, and me...
In a synthetic study we explore the potential of using surface soil moisture measurements obtained f...
Integrated terrestrial system models predict the coupled water, energy and biogeochemical cycles. Si...
Land surface‐subsurface modeling combined with data assimilation was applied on the Rollesbroich hil...
Soil moisture is an important variable for the cycling of water and energy at the catchment/regional...
Combining numerical models, which simulate water and energy fluxes in the subsurface-landsurface-atm...
Accurate and reliable hydrologic simulations are important for many applications, such as water reso...
As an important source of water for human beings, groundwater plays a significant role in human prod...
The linkage between root zone soil moisture and groundwater is either neglected or simplified in mos...
Accurate and reliable hydrologic simulations are important for many applications such as water resou...
We explore the possibility of using remotely sensed soil moisture data and in situ discharge observa...
Accurate and reliable hydrologic simulations are important for many applications such as water resou...
Understanding the soil-vegetation-atmosphere continuum is essential to improve hydrological model pr...
Accurate and reliable hydrologic simulations are important for many applications such as water resou...
Land surface models (LSMs) use a large cohort of parameters and state variables to simulate the wate...
Soil moisture predictions from land surface models are important in hydrological, ecological, and me...
In a synthetic study we explore the potential of using surface soil moisture measurements obtained f...
Integrated terrestrial system models predict the coupled water, energy and biogeochemical cycles. Si...
Land surface‐subsurface modeling combined with data assimilation was applied on the Rollesbroich hil...
Soil moisture is an important variable for the cycling of water and energy at the catchment/regional...
Combining numerical models, which simulate water and energy fluxes in the subsurface-landsurface-atm...
Accurate and reliable hydrologic simulations are important for many applications, such as water reso...
As an important source of water for human beings, groundwater plays a significant role in human prod...
The linkage between root zone soil moisture and groundwater is either neglected or simplified in mos...
Accurate and reliable hydrologic simulations are important for many applications such as water resou...
We explore the possibility of using remotely sensed soil moisture data and in situ discharge observa...
Accurate and reliable hydrologic simulations are important for many applications such as water resou...
Understanding the soil-vegetation-atmosphere continuum is essential to improve hydrological model pr...
Accurate and reliable hydrologic simulations are important for many applications such as water resou...
Land surface models (LSMs) use a large cohort of parameters and state variables to simulate the wate...
Soil moisture predictions from land surface models are important in hydrological, ecological, and me...
In a synthetic study we explore the potential of using surface soil moisture measurements obtained f...