Pathways of Inter‐Basin Exchange From the Bellingshausen Sea to the Amundsen Sea

Author:

Flexas M. Mar1ORCID,Thompson Andrew F.1ORCID,Robertson Megan L.1,Speer Kevin2,Sheehan Peter M. F.3ORCID,Heywood Karen J.3ORCID

Affiliation:

1. California Institute of Technology Pasadena CA USA

2. Florida State University Tallahassee FL USA

3. University of East Anglia, Centre for Ocean and Atmospheric Sciences, School of Environmental Sciences Norfolk UK

Abstract

AbstractThe West Antarctic Ice Sheet is experiencing rapid thinning of its floating ice shelves, largely attributed to oceanic basal melt. Numerical models suggest that the Bellingshausen Sea has a key role in setting water properties in the Amundsen Sea and further downstream. Yet, observations confirming these pathways of volume and tracer exchange between coast and shelf break and their impact on inter‐sea exchange remain sparse. Here we analyze the circulation and distribution of glacial meltwater at the boundary between the Bellingshausen Sea and the Amundsen Sea using a combination of glider observations from January 2020 and hydrographic data from instrumented seals. Meltwater distributions over previously unmapped western regions of the continental shelf and slope reveal two distinct meltwater cores with different optical backscatter properties. At Belgica Trough, a subsurface meltwater peak is linked with hydrographic properties from Venable Ice Shelf. West of Belgica Trough, the vertical structure of meltwater concentration changes, with peak values occurring at greater depths and denser isopycnals. Hydrographic analysis suggests that the western (deep) meltwater core is supplied from the eastern part of Abbot Ice Shelf, and is exported to the shelf break via a previously‐overlooked bathymetric trough (here named Seal Trough). Hydrographic sections constructed from seal data reveal that the Antarctic Coastal Current extends west past Belgica Trough, delivering meltwater to the Amundsen Sea. Each of these circulation elements has distinct dynamical implications for the evolution of ice shelves and water masses both locally and downstream, in the Amundsen Sea and beyond.

Funder

National Science Foundation

National Aeronautics and Space Administration

H2020 European Research Council

Publisher

American Geophysical Union (AGU)

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