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Genesis of the Antarctic Slope Current in West Antarctica

Andrew F. Thompson, Kevin Speer, Lena M. Schulze Chretien

2020Geophysical Research Letters60 citationsDOIOpen Access PDF

Abstract

Abstract The stability of the West Antarctic Ice Sheet (WAIS) depends on ocean heat transport toward its base and remains a source of uncertainty in sea level rise prediction. The Antarctic Slope Current (ASC), a major boundary current of the ocean's global circulation, serves as a dynamic gateway for heat transport toward Antarctica. Here, we use observations collected from the Bellingshausen Sea to propose a mechanistic explanation for the initiation of the westward‐flowing ASC. Waters modified throughout the Bellingshausen Sea by ocean‐sea‐ice and ocean‐ice‐shelf interactions are exported to the continental slope in a narrow, topographically steered western boundary current. This focused outflow produces a localized front at the shelf break that supports the emerging ASC. This mechanism emphasizes the importance of buoyancy forcing, integrated over the continental shelf, as opposed to local wind forcing, in the generation mechanism and suggests the potential for remote control of melt rates of WAIS' largest ice shelves.

Topics & Concepts

GeologyCurrent (fluid)OceanographyAntarctic ice sheetContinental shelfOutflowSea iceBoundary currentOcean currentFront (military)Forcing (mathematics)ClimatologyIce shelfCryosphereCryospheric studies and observationsClimate variability and modelsGeology and Paleoclimatology Research
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