Add to ORKG[1] Experiments employing an adjustment of the pressure field in the ocean component of a coupled climate system model are undertaken in both ocean-only and coupled experiments to assess the climatic impacts of reducing the systematic errors in the North Atlantic Current. This conservative and adiabatic adjustment process substantially decreases North Atlantic Ocean SST biases and locally reverses the associated surface heat flux balance in both model configurations. Ice concentrations in the Labrador Sea increase as the oceanic surface heat fluxes are displaced by the adjustment. Downstream, in the Nordic Seas, the subsurface ocean responds favorably to this adjustment, as the vertical profiles of potential temperature and salinity converg...
An increase in atmospheric CO2 concentration and the resulting global warming are typically associat...
Starting to resolve the oceanic mesoscale in climate models is a step change in model fidelity. This...
Many state‐of‐the‐art climate models do not simulate the Atlantic Water (AW) layer in the Arctic Oce...
The North Atlantic cold bias, associated with a too zonal path of the North Atlantic Current and a m...
The North Atlantic cold bias, associated with the misplacement of the North Atlantic Current (NAC) a...
We implemented an explicit forcing of the complete lunisolar tides into an ocean model which is part...
Two significant changes in ocean heat uptake that occur in the vicinity of sea ice cover in response...
International audienceMost state-of-the art global coupled models simulate a weakening of the Atlant...
There are significant discrepancies between observational datasets of Arctic sea ice concentrations ...
Starting to resolve the oceanic mesoscale in climate models is a step change in model fidelity. This...
Current state-of-the-art climate models fail to capture accurately the path of the Gulf Stream and N...
The ocean heat transport from the North Atlantic to the Barents Sea impacts the sea ice extent and t...
The growing attention on mechanisms that can provide predictability on interannual-to-decadal time s...
The change in ocean net surface heat flux plays an important role in the climate system. It is close...
A steady decline in Arctic sea ice has been observed over recent decades. General circulation models...
An increase in atmospheric CO2 concentration and the resulting global warming are typically associat...
Starting to resolve the oceanic mesoscale in climate models is a step change in model fidelity. This...
Many state‐of‐the‐art climate models do not simulate the Atlantic Water (AW) layer in the Arctic Oce...
The North Atlantic cold bias, associated with a too zonal path of the North Atlantic Current and a m...
The North Atlantic cold bias, associated with the misplacement of the North Atlantic Current (NAC) a...
We implemented an explicit forcing of the complete lunisolar tides into an ocean model which is part...
Two significant changes in ocean heat uptake that occur in the vicinity of sea ice cover in response...
International audienceMost state-of-the art global coupled models simulate a weakening of the Atlant...
There are significant discrepancies between observational datasets of Arctic sea ice concentrations ...
Starting to resolve the oceanic mesoscale in climate models is a step change in model fidelity. This...
Current state-of-the-art climate models fail to capture accurately the path of the Gulf Stream and N...
The ocean heat transport from the North Atlantic to the Barents Sea impacts the sea ice extent and t...
The growing attention on mechanisms that can provide predictability on interannual-to-decadal time s...
The change in ocean net surface heat flux plays an important role in the climate system. It is close...
A steady decline in Arctic sea ice has been observed over recent decades. General circulation models...
An increase in atmospheric CO2 concentration and the resulting global warming are typically associat...
Starting to resolve the oceanic mesoscale in climate models is a step change in model fidelity. This...
Many state‐of‐the‐art climate models do not simulate the Atlantic Water (AW) layer in the Arctic Oce...