Wechselwirkungen zwischen Eis und Ozean im Weddellmeer: Studien mit einem gekoppelten Eis-Ozean-Modell des Südpolarmeeres

Quantitatively, a good agreement with observations is achieved. Investigations of sea ice-ocean interaction on the continental shelf in the southwestern Weddell Sea feature a strong correlation between fluctuations of atmospheric forcing and the variability of sea ice formation. Anomalies of meridio...

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Bibliographic Details
Main Author: Timmermann, Ralph
Other Authors: Olbers, Dirk, Beckmann, Aike, Lemke, Peter
Format: Doctoral or Postdoctoral Thesis
Language:German
Published: Universität Bremen 2000
Subjects:
sea ice-ocean interaction
ice shelf-ocean interaction
Antarctic Circumpolar Wave
interannual variability
Maud Rise
deep convection
Weddell Gyre structure
29
ddc:29
Antarctic
Astrid Ridge
Ronne Ice Shelf
Southern Ocean
The Antarctic
Weddell
Weddell Sea
Antarc*
Filchner Ronne Ice Shelf
Filchner-Ronne Ice Shelf
Ice Shelf
Sea ice
Online Access:https://media.suub.uni-bremen.de/handle/elib/1779
https://nbn-resolving.org/urn:nbn:de:gbv:46-diss000000640
Description
Summary:Quantitatively, a good agreement with observations is achieved. Investigations of sea ice-ocean interaction on the continental shelf in the southwestern Weddell Sea feature a strong correlation between fluctuations of atmospheric forcing and the variability of sea ice formation. Anomalies of meridional wind stress in the inner Weddell Sea are consistent with the phase of the Antarctic Circumpolar Wave (ACW). Positive anomalies of northward wind stress cause an increase of sea ice export in the same and of sea ice formation in the following year leading to an increased production of High Salinity Shelf Water. Driven by a varying density distribution over the continental shelf, the circulation in the Filchner-Ronne ice shelf cavity fluctuates between two modes, each of which features a characteristic distribution of basal freezing and melting regions. Thus, signals of interannual atmospheric variability propagate into the deep ocean and the sub-ice shelf cavities. The simulated Weddell Gyre features a pronounced double cell structure which is caused by the topographic effects of Maud Rise and Astrid Ridge. Flow around and across these elevations causes anomalies of vertical heat flux which affect the sea ice distribution only locally. The spring polynya in the region of Maud Rise appears as a wind-induced phenomenon which is not affected by regional topography. Deep convection in this region may be caused by modifications of the surface fresh water balance and does not depend on the existence of Maud Rise.

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