Nature Communications (Sep 2023)

Antarctic evidence for an abrupt northward shift of the Southern Hemisphere westerlies at 32 ka BP

  • Abhijith U. Venugopal,
  • Nancy A. N. Bertler,
  • Jeffrey P. Severinghaus,
  • Edward J. Brook,
  • Giuseppe Cortese,
  • James E. Lee,
  • Thomas Blunier,
  • Paul A. Mayewski,
  • Helle A. Kjær,
  • Lionel Carter,
  • Michael E. Weber,
  • Richard H. Levy,
  • Rebecca L. Pyne,
  • Marcus J. Vandergoes

DOI
https://doi.org/10.1038/s41467-023-40951-1
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 8

Abstract

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Abstract High-resolution ice core records from coastal Antarctica are particularly useful to inform our understanding of environmental changes and their drivers. Here, we present a decadally resolved record of sea-salt sodium (a proxy for open-ocean area) and non-sea salt calcium (a proxy for continental dust) from the well-dated Roosevelt Island Climate Evolution (RICE) core, focusing on the time period between 40–26 ka BP. The RICE dust record exhibits an abrupt shift towards a higher mean dust concentration at 32 ka BP. Investigating existing ice-core records, we find this shift is a prominent feature across Antarctica. We propose that this shift is linked to an equatorward displacement of Southern Hemisphere westerly winds. Subsequent to the wind shift, data suggest a weakening of Southern Ocean upwelling and a decline of atmospheric CO2 to lower glacial values, hence making this shift an important glacial climate event with potentially important insights for future projections.