Ross Gyre variability modulates oceanic heat supply toward the West Antarctic continental shelf

Channing J. Prend; Graeme A. MacGilchrist; Georgy E. Manucharyan; Rachel Q. Pang; Ruth Moorman; Andrew F. Thompson; Stephen M. Griffies; Matthew R. Mazloff; Lynne D. Talley; Sarah T. Gille

doi:10.1038/s43247-024-01207-y

Communications Earth & Environment (Jan 2024)

Ross Gyre variability modulates oceanic heat supply toward the West Antarctic continental shelf

Channing J. Prend,
Graeme A. MacGilchrist,
Georgy E. Manucharyan,
Rachel Q. Pang,
Ruth Moorman,
Andrew F. Thompson,
Stephen M. Griffies,
Matthew R. Mazloff,
Lynne D. Talley,
Sarah T. Gille

Affiliations

Channing J. Prend: School of Oceanography, University of Washington
Graeme A. MacGilchrist: Atmospheric and Oceanic Sciences Program, Princeton University
Georgy E. Manucharyan: School of Oceanography, University of Washington
Rachel Q. Pang: Atmospheric and Oceanic Sciences Program, Princeton University
Ruth Moorman: Environmental Science and Engineering, California Institute of Technology
Andrew F. Thompson: Environmental Science and Engineering, California Institute of Technology
Stephen M. Griffies: Atmospheric and Oceanic Sciences Program, Princeton University
Matthew R. Mazloff: Scripps Institution of Oceanography, University of California San Diego
Lynne D. Talley: Scripps Institution of Oceanography, University of California San Diego
Sarah T. Gille: Scripps Institution of Oceanography, University of California San Diego

DOI: https://doi.org/10.1038/s43247-024-01207-y
Journal volume & issue: Vol. 5, no. 1
pp. 1 – 10

Abstract

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Abstract West Antarctic Ice Sheet mass loss is a major source of uncertainty in sea level projections. The primary driver of this melting is oceanic heat from Circumpolar Deep Water originating offshore in the Antarctic Circumpolar Current. Yet, in assessing melt variability, open ocean processes have received considerably less attention than those governing cross-shelf exchange. Here, we use Lagrangian particle release experiments in an ocean model to investigate the pathways by which Circumpolar Deep Water moves toward the continental shelf across the Pacific sector of the Southern Ocean. We show that Ross Gyre expansion, linked to wind and sea ice variability, increases poleward heat transport along the gyre’s eastern limb and the relative fraction of transport toward the Amundsen Sea. Ross Gyre variability, therefore, influences oceanic heat supply toward the West Antarctic continental slope. Understanding remote controls on basal melt is necessary to predict the ice sheet response to anthropogenic forcing.

Published in Communications Earth & Environment

ISSN: 2662-4435 (Online)
Publisher: Nature Portfolio
Country of publisher: United Kingdom
LCC subjects: Science: Geology; Geography. Anthropology. Recreation: Environmental sciences
Website: https://www.nature.com/commsenv/

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