We discuss the performance of the Finite Element Ocean Model (FESOM) on locally eddy-resolving global unstructured meshes. In particular, the utility of the mesh design approach whereby mesh horizontal resolution is varied as half the Rossby radius in most of the model domain is explored. Model simulations on such a mesh (FESOM-XR) are compared with FESOM simulations on a smaller-size mesh, where refinement depends only on the pattern of observed variability (FESOM-HR). We also compare FESOM results to a simulation of the ocean model of the Max Planck Institute for Meteorology (MPIOM) on a tripolar regular grid with refinement toward the poles, which uses a number of degrees of freedom similar to FESOM-XR. The mesh design strategy, which re...
Ocean model biases such as the North West corner cold bias connected to the location of the Gulf Str...
There is mounting evidence that resolving mesoscale eddies and western boundary currents as well as ...
A newly developed coastal model, FESOM-C, based on three-dimensional unstructured meshes and finite ...
If unstructured meshes are refined to locally represent eddy dynamics in ocean circulation models, a...
Mesoscale eddies contribute to the dynamics of ocean circulation in many important ways. Resolving ...
Unstructured-mesh models are common in coastal ocean modeling, but their applications are still at t...
Unstructured meshes are common in coastal modeling, but still rarely used for modeling the large-sca...
Nesting in large-scale ocean modeling is used for local refinement to resolve eddy dynamics that w...
The Finite Element Sea Ice-Ocean Model (FESOM) is the first global ocean general circulation model...
If meshes with variable resolution, in particular, unstructured meshes are refined to improve the ...
There is mounting evidence that resolving mesoscale eddies and western boundary currents as well as ...
Modeled projections of climate change typically do not include a well-resolved ocean mesoscale due t...
We analyse the ENSO-like variability in the newly established global climate model ECHAM-FESOM. Thi...
Abstract. Version 2 of the unstructured-mesh Finite-Element Sea ice–Ocean circulation Model (FESOM) ...
Unstructured meshes offer geometric flexibility. In the context of large-scale ocean modeling they ...
Ocean model biases such as the North West corner cold bias connected to the location of the Gulf Str...
There is mounting evidence that resolving mesoscale eddies and western boundary currents as well as ...
A newly developed coastal model, FESOM-C, based on three-dimensional unstructured meshes and finite ...
If unstructured meshes are refined to locally represent eddy dynamics in ocean circulation models, a...
Mesoscale eddies contribute to the dynamics of ocean circulation in many important ways. Resolving ...
Unstructured-mesh models are common in coastal ocean modeling, but their applications are still at t...
Unstructured meshes are common in coastal modeling, but still rarely used for modeling the large-sca...
Nesting in large-scale ocean modeling is used for local refinement to resolve eddy dynamics that w...
The Finite Element Sea Ice-Ocean Model (FESOM) is the first global ocean general circulation model...
If meshes with variable resolution, in particular, unstructured meshes are refined to improve the ...
There is mounting evidence that resolving mesoscale eddies and western boundary currents as well as ...
Modeled projections of climate change typically do not include a well-resolved ocean mesoscale due t...
We analyse the ENSO-like variability in the newly established global climate model ECHAM-FESOM. Thi...
Abstract. Version 2 of the unstructured-mesh Finite-Element Sea ice–Ocean circulation Model (FESOM) ...
Unstructured meshes offer geometric flexibility. In the context of large-scale ocean modeling they ...
Ocean model biases such as the North West corner cold bias connected to the location of the Gulf Str...
There is mounting evidence that resolving mesoscale eddies and western boundary currents as well as ...
A newly developed coastal model, FESOM-C, based on three-dimensional unstructured meshes and finite ...