Petermann Ice Shelf May Not Recover After a Future Breakup

Overview

Journal Nat Commun

Specialty Biology

Date 2022 May 9

PMID 35534467

Authors

Henning Akesson

Mathieu Morlighem

Johan Nilsson

Christian Stranne

Martin Jakobsson

Affiliations

Soon will be listed here.

Abstract

Floating ice shelves buttress inland ice and curtail grounded-ice discharge. Climate warming causes melting and ultimately breakup of ice shelves, which could escalate ocean-bound ice discharge and thereby sea-level rise. Should ice shelves collapse, it is unclear whether they could recover, even if we meet the goals of the Paris Agreement. Here, we use a numerical ice-sheet model to determine if Petermann Ice Shelf in northwest Greenland can recover from a future breakup. Our experiments suggest that post-breakup recovery of confined ice shelves like Petermann's is unlikely, unless iceberg calving is greatly reduced. Ice discharge from Petermann Glacier also remains up to 40% higher than today, even if the ocean cools below present-day temperatures. If this behaviour is not unique for Petermann, continued near-future ocean warming may push the ice shelves protecting Earth's polar ice sheets into a new retreated high-discharge state which may be exceedingly difficult to recover from.

Citing Articles

Regional ice flow piracy following the collapse of Midgaard Glacier in Southeast Greenland.

Huiban F, Millan R, Kjeldsen K, Andresen C, Domgaard M, Dehecq A Nat Commun. 2024; 15(1):9976.

PMID: 39557823 PMC: 11574000. DOI: 10.1038/s41467-024-54045-z.

Three-dimensional topology dataset of folded radar stratigraphy in northern Greenland.

Franke S, Bons P, Streng K, Mundel F, Binder T, Weikusat I Sci Data. 2023; 10(1):525.

PMID: 37550324 PMC: 10406887. DOI: 10.1038/s41597-023-02339-0.

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