Litcius/Paper detail

Observed interannual changes beneath Filchner-Ronne Ice Shelf linked to large-scale atmospheric circulation

Tore Hattermann, Keith W. Nicholls, Hartmut Hellmer, Peter E. D. Davis, Markus Janout, Svein Østerhus, Elisabeth Schlosser, Gerd Rohardt, Torsten Kanzow

2021Nature Communications59 citationsDOIOpen Access PDF

Abstract

Floating ice shelves are the Achilles' heel of the Antarctic Ice Sheet. They limit Antarctica's contribution to global sea level rise, yet they can be rapidly melted from beneath by a warming ocean. At Filchner-Ronne Ice Shelf, a decline in sea ice formation may increase basal melt rates and accelerate marine ice sheet mass loss within this century. However, the understanding of this tipping-point behavior largely relies on numerical models. Our new multi-annual observations from five hot-water drilled boreholes through Filchner-Ronne Ice Shelf show that since 2015 there has been an intensification of the density-driven ice shelf cavity-wide circulation in response to reinforced wind-driven sea ice formation in the Ronne polynya. Enhanced southerly winds over Ronne Ice Shelf coincide with westward displacements of the Amundsen Sea Low position, connecting the cavity circulation with changes in large-scale atmospheric circulation patterns as a new aspect of the atmosphere-ocean-ice shelf system.

Topics & Concepts

Ice shelfGeologyAntarctic sea iceSea iceOceanographyIce divideIce sheetIce streamFast iceCryosphereClimatologyCryospheric studies and observationsWinter Sports Injuries and PerformanceLandslides and related hazards