none16siA dominant paradigm for mid-latitude air-sea interaction identifies the synoptic-scale atmospheric “noise” as the main driver for the observed ocean surface variability. While this conceptual model successfully holds over most of the mid-latitude ocean surface, its soundness over frontal zones (including western boundary currents; WBC) characterized by intense mesoscale activity, has been questioned in a number of studies suggesting a driving role for the small scale ocean dynamics (mesoscale oceanic eddies) in the modulation of air-sea interaction. In this context, climate models provide a powerful experimental device to inspect the emerging scale-dependent nature of mid-latitude air-sea interaction. This study assesses the impact ...
We have investigated the horizontal resolution dependence of the ocean–atmosphere coupling along the...
Starting to resolve the oceanic mesoscale in climate models is a step change in model fidelity. This...
The ability of six climate models to capture the observed coupling between SST and surface wind stre...
Abstract: A dominant paradigm for mid-latitude air-sea interaction identifies the synoptic-scale atm...
Northern Hemisphere western boundary currents, like the Gulf Stream, are key regions for cyclogenesi...
A three-dimensional, regional coupled atmosphere-ocean model with full physics is developed to study...
The Gulf Stream (GS) plays a key role in shaping the North Atlantic climate. Moreover, the associate...
Mesoscale variability of currents in the Gulf of Mexico (GoM) can affect oceanic heat advection and ...
The ocean carries more heat poleward than the atmosphere at low latitudes, whilst the reverse occurs...
Western Boundary Currents, such as the Gulf Stream, are regions of vivid air-sea interaction. Mesosc...
The emerging picture of frontal scale air–sea interaction derived from high-resolution satellite obs...
The two-dimensional, Advanced Regional Prediction System (ARPS) has been coupled with the Princeton ...
International audienceSpectral analyses of the sea surface temperature (SST) in the Simple Ocean Dat...
Five non-eddy-resolving oceanic general circulation models driven by atmospheric fluxes derived from...
The dependence of the air–sea interactions over the North Atlantic on the ocean dynamics is explored...
We have investigated the horizontal resolution dependence of the ocean–atmosphere coupling along the...
Starting to resolve the oceanic mesoscale in climate models is a step change in model fidelity. This...
The ability of six climate models to capture the observed coupling between SST and surface wind stre...
Abstract: A dominant paradigm for mid-latitude air-sea interaction identifies the synoptic-scale atm...
Northern Hemisphere western boundary currents, like the Gulf Stream, are key regions for cyclogenesi...
A three-dimensional, regional coupled atmosphere-ocean model with full physics is developed to study...
The Gulf Stream (GS) plays a key role in shaping the North Atlantic climate. Moreover, the associate...
Mesoscale variability of currents in the Gulf of Mexico (GoM) can affect oceanic heat advection and ...
The ocean carries more heat poleward than the atmosphere at low latitudes, whilst the reverse occurs...
Western Boundary Currents, such as the Gulf Stream, are regions of vivid air-sea interaction. Mesosc...
The emerging picture of frontal scale air–sea interaction derived from high-resolution satellite obs...
The two-dimensional, Advanced Regional Prediction System (ARPS) has been coupled with the Princeton ...
International audienceSpectral analyses of the sea surface temperature (SST) in the Simple Ocean Dat...
Five non-eddy-resolving oceanic general circulation models driven by atmospheric fluxes derived from...
The dependence of the air–sea interactions over the North Atlantic on the ocean dynamics is explored...
We have investigated the horizontal resolution dependence of the ocean–atmosphere coupling along the...
Starting to resolve the oceanic mesoscale in climate models is a step change in model fidelity. This...
The ability of six climate models to capture the observed coupling between SST and surface wind stre...