Add to ORKGTraditionally, land-surface models (LSMs) provide bottom boundary conditions (or surface fluxes) for weather and climate models in the form of reflected solar radiation, upward emission of long-wave radiation, and turbulent exchanges of heat, moisture, a
Abstract: Most current land surface models (LSMs) coupled to regional climate models (RCMs) have bee...
The current model capabilities in the context of land surface interactions with the atmosphere inclu...
International audienceThis work is motivated by the identification of the land-atmosphere interactio...
Understanding and quantifying the interaction of the atmosphere with underlying water surfaces is of...
Abstract Land surface models (LSMs) are a vital tool for understanding, projecting, and predicting t...
The topics covered include the following: land and climate modeling; sensitivity studies; the proces...
The land surface is a key component of climate models. It controls the partitioning of available ene...
This technical note describes version 1 of this LSM land surface model. In this model, land surface ...
The evolution of disciplinary silos and increasingly narrow disciplinary boundaries have together re...
A model that computes the fluxes of energy and momentum between the land surface and the atmosphere ...
Land–atmosphere (L-A) interactions are a main driver of Earth’s surface water and energy budgets; as...
Land-surface models (LSMs) are increasingly called upon to represent not only the exchanges of energ...
Land surface models have an increasing scope. Initially designed to capture the feedbacks between th...
Land surface models have an increasing scope. Initially designed to capture the feedbacks between th...
Abstract: Most current land surface models (LSMs) coupled to regional climate models (RCMs) have bee...
The current model capabilities in the context of land surface interactions with the atmosphere inclu...
International audienceThis work is motivated by the identification of the land-atmosphere interactio...
Understanding and quantifying the interaction of the atmosphere with underlying water surfaces is of...
Abstract Land surface models (LSMs) are a vital tool for understanding, projecting, and predicting t...
The topics covered include the following: land and climate modeling; sensitivity studies; the proces...
The land surface is a key component of climate models. It controls the partitioning of available ene...
This technical note describes version 1 of this LSM land surface model. In this model, land surface ...
The evolution of disciplinary silos and increasingly narrow disciplinary boundaries have together re...
A model that computes the fluxes of energy and momentum between the land surface and the atmosphere ...
Land–atmosphere (L-A) interactions are a main driver of Earth’s surface water and energy budgets; as...
Land-surface models (LSMs) are increasingly called upon to represent not only the exchanges of energ...
Land surface models have an increasing scope. Initially designed to capture the feedbacks between th...
Land surface models have an increasing scope. Initially designed to capture the feedbacks between th...
Abstract: Most current land surface models (LSMs) coupled to regional climate models (RCMs) have bee...
The current model capabilities in the context of land surface interactions with the atmosphere inclu...
International audienceThis work is motivated by the identification of the land-atmosphere interactio...