Litcius/Paper detail

Regional sea-level highstand triggered Holocene ice sheet thinning across coastal Dronning Maud Land, East Antarctica

Yûsuke Suganuma, Heitaro Kaneda, Martim Mas e Braga, Takeshige Ishiwa, Takushi Koyama, Jennifer C. H. Newall, Jun’ichi Okuno, Takashi Obase, Fuyuki Saito, Irina Rogozhina, Jane Lund Andersen, Moto Kawamata, Motohiro Hirabayashi, Nathaniel A. Lifton, Ola Fredin, Jon Harbor, Arjen P. Stroeven, Ayako Abe‐Ouchi

2022Communications Earth & Environment24 citationsDOIOpen Access PDF

Abstract

Abstract The East Antarctic Ice Sheet stores a vast amount of freshwater, which makes it the single largest potential contributor to future sea-level rise. However, the lack of well-constrained geological records of past ice sheet changes impedes model validation, hampers mass balance estimates, and inhibits examination of ice loss mechanisms. Here we identify rapid ice-sheet thinning in coastal Dronning Maud Land from Early to Middle Holocene (9000–5000 years ago) using a deglacial chronology based on in situ cosmogenic nuclide surface exposure dates from central Dronning Maud Land, in concert with numerical simulations of regional and continental ice-sheet evolution. Regional sea-level changes reproduced from our refined ice-load history show a highstand at 9000–8000 years ago. We propose that sea-level rise and a concomitant influx of warmer Circumpolar Deep Water triggered ice shelf breakup via the marine ice sheet instability mechanism, which led to rapid thinning of upstream coastal ice sheet sectors.

Topics & Concepts

GeologyIce sheetAntarctic ice sheetOceanographyHoloceneThinningCosmogenic nuclideIce shelfFuture sea levelIce streamGreenland ice sheetPhysical geographySea iceCryosphereClimatologyGeographyForestryAstrophysicsCosmic rayPhysicsCryospheric studies and observationsGeology and Paleoclimatology ResearchPolar Research and Ecology