Mesoscale atmospheric circulations over the southwestern Ross Sea sector, Antarctica

In this study the mesoscale atmospheric circulation over the southwestern Ross Sea sector during winter is examined. The hydrostatic meso-gamma-scale atmospheric model MAR (Modele Atmospherique Regional) is used. Polar night is assumed, and an idealized large-scale situation is prescribed, with zero...

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Bibliographic Details
Main Authors: Gallee, H., Jehuda Neumann Memorial Symposium on Mesoscale Modeling and Climate History
Other Authors: UCL - Autre
Format: Conference Object
Language:English
Published: Amer Meteorological Soc 1996
Subjects:
Antarctic
McMurdo Station
Ross Island
Ross Sea
Terra Nova Bay
The Antarctic
Antarc*
Antarctica
Ice Sheet
polar night
Sea ice
Online Access:http://hdl.handle.net/2078.1/62892
https://doi.org/10.1175/1520-0450(1996)035<1129:MACOTS>2.0.CO;2
Description
Summary:In this study the mesoscale atmospheric circulation over the southwestern Ross Sea sector during winter is examined. The hydrostatic meso-gamma-scale atmospheric model MAR (Modele Atmospherique Regional) is used. Polar night is assumed, and an idealized large-scale situation is prescribed, with zero geostrophic forcing. The impact of a partial sea-ice cover on the atmospheric circulation is assessed by prescribing lead fractions in the range of the observed values (i.e., between 0% and 30%). Simulations show that the propagation of katabatic airstreams over Terra Nova Bay is facilitated by the presence of leads because the identity of cold, dense, katabatic air is better marked in warmer environmental maritime conditions. Boundary layer fronts and mesocyclone activity are associated with the katabatic airstreams. They are enhanced by the presence of leads. In particular, when the lead fraction is prescribed to be between 20% and 30%, the model simulates mesocyclone intensities comparable to those observed. Taking into account that such a lead fraction is situated in the upper range of the observed values in the central Ross Sea during winter, these results suggest that winter Ross Sea mesocyclones could nor always result from a pure mesoscale forcing. In contrast to the summer situation, no snow precipitation occurs for the simulated winter case, probably because of the too-low absolute humidity content of the air. Such model behavior is in agreement with the observations, which reveal a summer precipitation maximum at McMurdo Station on Ross Island. It is also found that the position of the simulated mesocyclone over Terra Nova Bay is nor sensitive to the lead fraction. Furthermore, this meteorological situation favors the advection of relatively mild and moist maritime air over a long distance in the ice-sheet interior. This process, which is referred to as a moist-air intrusion, could affect the Antarctic ice-sheet mass balance.

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