Modeled wintertime precipitation over the Atlantic Gulf Stream region is shown to be sensitive to the horizontal resolution of the driving Global Circulation Model (GCM). By contrasting simulations with the EC-Earth GCM over a range of horizontal resolutions (T159, T319, T799), it is shown that especially the precipitation extremes become more populated if resolution is higher. Higher resolution also appears to strengthen the communication from the sea surface toward the troposphere. With increasing resolution, deep convection over the Gulf Stream region, diagnosed via wind-convergence and vertical motion, occurs more frequently and the former is in better agreement with observations. Likewise the frequency increase of the precipitation ext...
The Gulf Stream (GS) plays a key role in shaping the North Atlantic climate. Moreover, the associate...
One key question regarding current climate models is whether the projection of climate extremes conv...
Warm advection by the Gulf Stream creates a characteristic ‘tongue’ of warm water leaving a strong i...
Modeled wintertime precipitation over the Atlantic Gulf Stream region is shown to be sensitive to th...
To investigate the influence of atmospheric model resolution on the representation of daily precipit...
We have investigated the horizontal resolution dependence of the ocean–atmosphere coupling along the...
Extreme weather events can have serious impacts on human society as well as on ecosystems. Future an...
We investigate the ability of a global atmospheric general circulation model (AGCM) to reproduce obs...
Current climate models produce quite heterogeneous projections for the responses of precipitation ex...
Current climate models produce quite heterogeneous projections for the responses of precipitation ex...
One key question regarding current climate models is whether the projection of climate extremes conv...
<p>In this study, the authors investigate the effect of GCM spatial resolution on modeled precipitat...
Five non-eddy-resolving oceanic general circulation models driven by atmospheric fluxes derived from...
The mechanism by which the Gulf Stream sea surface temperature (SST) front anchors a band of precipi...
The Gulf Stream (GS) plays a key role in shaping the North Atlantic climate. Moreover, the associate...
One key question regarding current climate models is whether the projection of climate extremes conv...
Warm advection by the Gulf Stream creates a characteristic ‘tongue’ of warm water leaving a strong i...
Modeled wintertime precipitation over the Atlantic Gulf Stream region is shown to be sensitive to th...
To investigate the influence of atmospheric model resolution on the representation of daily precipit...
We have investigated the horizontal resolution dependence of the ocean–atmosphere coupling along the...
Extreme weather events can have serious impacts on human society as well as on ecosystems. Future an...
We investigate the ability of a global atmospheric general circulation model (AGCM) to reproduce obs...
Current climate models produce quite heterogeneous projections for the responses of precipitation ex...
Current climate models produce quite heterogeneous projections for the responses of precipitation ex...
One key question regarding current climate models is whether the projection of climate extremes conv...
<p>In this study, the authors investigate the effect of GCM spatial resolution on modeled precipitat...
Five non-eddy-resolving oceanic general circulation models driven by atmospheric fluxes derived from...
The mechanism by which the Gulf Stream sea surface temperature (SST) front anchors a band of precipi...
The Gulf Stream (GS) plays a key role in shaping the North Atlantic climate. Moreover, the associate...
One key question regarding current climate models is whether the projection of climate extremes conv...
Warm advection by the Gulf Stream creates a characteristic ‘tongue’ of warm water leaving a strong i...