The representation of the thermal and hydrological states in land surface models is important for a realistic simulation of land-atmosphere coupling processes. The available evidence indicates that the simulation of subsurface thermodynamics in Earth system models is inaccurate due to a zero-heat-flux bottom boundary condition being imposed too close to the surface. To assess the influence of soil model depth on the simulated terrestrial energy and subsurface thermal state, sensitivity experiments have been carried out in piControl, historical, and RCP scenarios. A deeper bottom boundary condition placement has been introduced into the JSBACH land surface model by enlarging the vertical stratification from 5 to 12 layers, thereby expanding ...
We assess the sensitivity of a subsurface thermodynamic model to the depth of its lower-boundary con...
The objective of this work is to develop a Simple Land-Interface Model (SLIM) that captures the seas...
The anthropogenically-intensified greenhouse effect has caused a radiative imbalance at the top of t...
The representation of the thermal and hydrological states in land surface models is important for a ...
The impact of various modifications of the JSBACH land surface model to represent soil temperature a...
The impact of various modifications of the JSBACH land surface model to represent soil temperature a...
Previous analytical and simulation-based analyses suggest that deeper land surface models are needed...
[1] A one-dimensional soil model is used to estimate the influence of the position of the bottom bou...
Previous analytical and simulation-based analyses suggest that deeper land surface models are needed...
The land is a pivotal component of the Earth and its climate system since many processes of natural ...
Shallow bottom boundary conditions (BBCs) in the soil components of general circulation models (GCMs...
International audienceThis paper describes the implementation of an improved soil thermodynamics in ...
Modeling soil thermal dynamics at high latitudes and altitudes requires representations of physical ...
The land (or ‘terrestrial’) biosphere strongly influences the exchange of carbon, energy and water ...
Climate models have traditionally only represented heat and water fluxes within relatively shallow s...
We assess the sensitivity of a subsurface thermodynamic model to the depth of its lower-boundary con...
The objective of this work is to develop a Simple Land-Interface Model (SLIM) that captures the seas...
The anthropogenically-intensified greenhouse effect has caused a radiative imbalance at the top of t...
The representation of the thermal and hydrological states in land surface models is important for a ...
The impact of various modifications of the JSBACH land surface model to represent soil temperature a...
The impact of various modifications of the JSBACH land surface model to represent soil temperature a...
Previous analytical and simulation-based analyses suggest that deeper land surface models are needed...
[1] A one-dimensional soil model is used to estimate the influence of the position of the bottom bou...
Previous analytical and simulation-based analyses suggest that deeper land surface models are needed...
The land is a pivotal component of the Earth and its climate system since many processes of natural ...
Shallow bottom boundary conditions (BBCs) in the soil components of general circulation models (GCMs...
International audienceThis paper describes the implementation of an improved soil thermodynamics in ...
Modeling soil thermal dynamics at high latitudes and altitudes requires representations of physical ...
The land (or ‘terrestrial’) biosphere strongly influences the exchange of carbon, energy and water ...
Climate models have traditionally only represented heat and water fluxes within relatively shallow s...
We assess the sensitivity of a subsurface thermodynamic model to the depth of its lower-boundary con...
The objective of this work is to develop a Simple Land-Interface Model (SLIM) that captures the seas...
The anthropogenically-intensified greenhouse effect has caused a radiative imbalance at the top of t...