Communications Earth & Environment (Apr 2024)

Last Interglacial subsurface warming on the Antarctic shelf triggered by reduced deep-ocean convection

  • Nicholas King-Hei Yeung,
  • Laurie Menviel,
  • Katrin J. Meissner,
  • Dipayan Choudhury,
  • Tilo Ziehn,
  • Matthew A. Chamberlain

DOI
https://doi.org/10.1038/s43247-024-01383-x
Journal volume & issue
Vol. 5, no. 1
pp. 1 – 9

Abstract

Read online

Abstract The Antarctic ice-sheet could have contributed 3 to 5 m sea-level equivalent to the Last Interglacial sea-level highstand. Such an Antarctic ice-mass loss compared to pre-industrial requires a subsurface warming on the Antarctic shelf of ~ 3 °C according to ice-sheet modelling studies. Here we show that a substantial subsurface warming is simulated south of 60 °S in an equilibrium experiment of the Last Interglacial. It averages +1.2 °C at ~ 500 m depth from 70 °W to 160 °E, and it reaches +2.4 °C near the Lazarev Sea. Weaker deep-ocean convection due to reduced sea-ice formation is the primary driver of this warming. The associated changes in meridional density gradients and surface winds lead to a weakened Antarctic Circumpolar Current and strengthened Antarctic Slope Current, which further impact subsurface temperatures. A subsurface warming on the Antarctic shelf that could trigger ice-mass loss from the Antarctic ice-sheet can thus be obtained during warm periods from reduced sea-ice formation.