The prediction of the spatial and temporal variability of land surface states and fluxes with land surface models at high spatial resolution is still a challenge. This study compares simulation results using TerrSysMP including a 3D variably saturated groundwater flow model (ParFlow) coupled to the Community Land Model (CLM) of a 38 ha managed grassland head-water catchment in the Eifel (Germany), with soil water content (SWC) measurements from a wireless sensor network, actual evapotranspiration recorded by lysimeters and eddy covariance stations and discharge observations. TerrSysMP was discretized with a 10 × 10 m lateral resolution, variable vertical resolution (0.025–0.575 m), and the following parameterization strategies of the subsur...
Long-term measurements of high-resolution soil moisture across rolling terrain facilitate complex si...
Soil moisture is a key variable that controls the exchange of water and energy fluxes between the la...
Large-scale hydrological models are nowadays mostly calibrated using observed discharge. As a result...
Land surface models are used for a better understanding of hydrological processes and energy fluxes ...
Understanding the soil-vegetation-atmosphere continuum is essential to improve hydrological model pr...
The objective of this study is to inter-compare three spatially distributed hydrological models (Hyd...
Understanding spatial variation of soil water content and its relation with hydraulic properties is ...
A better understanding of the temporal stability of soil moisture and its relation to local and nonl...
Soil water content is a key variable in the soil, vegetation and atmosphere continuum with high spat...
Optimal management of water resources depends on the prediction capability of process-based hydrolog...
open5siSoil properties show high heterogeneity at different spatial scales and their correct charact...
Soil moisture plays a key role in the water and energy balance in soil, vegetation and atmosphere sy...
The measurement and simulation of soil moisture patterns and their spatio-temporal variability are c...
Wireless sensor network technology has recently been used for high spatial and temporal resolution s...
Soil moisture is an important variable for the cycling of water and energy at the catchment/regional...
Long-term measurements of high-resolution soil moisture across rolling terrain facilitate complex si...
Soil moisture is a key variable that controls the exchange of water and energy fluxes between the la...
Large-scale hydrological models are nowadays mostly calibrated using observed discharge. As a result...
Land surface models are used for a better understanding of hydrological processes and energy fluxes ...
Understanding the soil-vegetation-atmosphere continuum is essential to improve hydrological model pr...
The objective of this study is to inter-compare three spatially distributed hydrological models (Hyd...
Understanding spatial variation of soil water content and its relation with hydraulic properties is ...
A better understanding of the temporal stability of soil moisture and its relation to local and nonl...
Soil water content is a key variable in the soil, vegetation and atmosphere continuum with high spat...
Optimal management of water resources depends on the prediction capability of process-based hydrolog...
open5siSoil properties show high heterogeneity at different spatial scales and their correct charact...
Soil moisture plays a key role in the water and energy balance in soil, vegetation and atmosphere sy...
The measurement and simulation of soil moisture patterns and their spatio-temporal variability are c...
Wireless sensor network technology has recently been used for high spatial and temporal resolution s...
Soil moisture is an important variable for the cycling of water and energy at the catchment/regional...
Long-term measurements of high-resolution soil moisture across rolling terrain facilitate complex si...
Soil moisture is a key variable that controls the exchange of water and energy fluxes between the la...
Large-scale hydrological models are nowadays mostly calibrated using observed discharge. As a result...