International audienceThe ice thickness distribution (ITD) is one of the core constituents of modern sea ice models. The ITD accounts for the unresolved spatial variability of sea ice thickness within each model grid cell. While there is a general consensus on the added physical realism brought by the ITD, how to discretize it remains an open question. Here, we use the ocean-sea ice general circulation model, Nucleus for European Modelling of the Ocean (NEMO) version 3.6 and Louvain-la-Neuve sea Ice Model (LIM) version 3 (NEMO3.6-LIM3), forced by atmospheric reanalyses to test how the ITD discretization (number of ice thickness categories, positions of the category boundaries) impacts the simulated mean Arctic and Antarctic sea ice states. ...
Thesis (Ph. D.)--University of Washington, 1998.Arctic sea ice may be unusually sensitive to greenho...
International audienceA set of hindcast simulations with the new version 3.6 of the Nucleus for Euro...
A newly developed global climate model ECHAM6-FESOM with unstructured mesh and high resolution is us...
International audienceThe ice thickness distribution (ITD) is one of the core constituents of modern...
The ice thickness distribution (ITD) is one of the core constituents of modern sea ice models. The I...
The ice thickness distribution (ITD) is one of thecore constituents of modern sea ice models. The IT...
This study assesses the impact of different sea ice thickness distribution (ITD) discretizations on ...
A key parameterization in sea ice models describes the subgrid scale ice thickness distribution. Bas...
This paper is the first part of a twofold contribution dedicated to the new version of the Louvain-l...
The impact of a subgrid-scale ice thickness distribution (ITD) and two standard ice strength formula...
Two hindcast (1983-2007) simulations are performed with the global, ocean-sea ice models NEMO-LIM2 a...
The impact of a subgrid-scale ice thickness distribution (ITD) and two standard ice strength formula...
A key parameterization in sea ice models describes the sub-grid scale ice thickness distribution. Ba...
Thesis (Ph. D.)--University of Washington, 1998.Arctic sea ice may be unusually sensitive to greenho...
International audienceA set of hindcast simulations with the new version 3.6 of the Nucleus for Euro...
A newly developed global climate model ECHAM6-FESOM with unstructured mesh and high resolution is us...
International audienceThe ice thickness distribution (ITD) is one of the core constituents of modern...
The ice thickness distribution (ITD) is one of the core constituents of modern sea ice models. The I...
The ice thickness distribution (ITD) is one of thecore constituents of modern sea ice models. The IT...
This study assesses the impact of different sea ice thickness distribution (ITD) discretizations on ...
A key parameterization in sea ice models describes the subgrid scale ice thickness distribution. Bas...
This paper is the first part of a twofold contribution dedicated to the new version of the Louvain-l...
The impact of a subgrid-scale ice thickness distribution (ITD) and two standard ice strength formula...
Two hindcast (1983-2007) simulations are performed with the global, ocean-sea ice models NEMO-LIM2 a...
The impact of a subgrid-scale ice thickness distribution (ITD) and two standard ice strength formula...
A key parameterization in sea ice models describes the sub-grid scale ice thickness distribution. Ba...
Thesis (Ph. D.)--University of Washington, 1998.Arctic sea ice may be unusually sensitive to greenho...
International audienceA set of hindcast simulations with the new version 3.6 of the Nucleus for Euro...
A newly developed global climate model ECHAM6-FESOM with unstructured mesh and high resolution is us...