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Ice-shelf retreat drives recent Pine Island Glacier speedup

Ian Joughin, Daniel Shapero, Ben Smith, Pierre Dutrieux, Mark Barham

2021Science Advances176 citationsDOIOpen Access PDF

Abstract

Speedup of Pine Island Glacier over the past several decades has made it Antarctica's largest contributor to sea-level rise. The past speedup is largely due to grounding-line retreat in response to ocean-induced thinning that reduced ice-shelf buttressing. While speeds remained fairly steady from 2009 to late 2017, our Copernicus Sentinel 1A/B-derived velocity data show a >12% speedup over the past 3 years, coincident with a 19-km retreat of the ice shelf. We use an ice-flow model to simulate this loss, finding that accelerated calving can explain the recent speedup, independent of the grounding-line, melt-driven processes responsible for past speedups. If the ice shelf's rapid retreat continues, it could further destabilize the glacier far sooner than would be expected due to surface- or ocean-melting processes.

Topics & Concepts

SpeedupGlacierIce shelfGeologyThinningOceanographyIce streamSea iceIce calvingClimatologyCryosphereGeomorphologyGeographyPregnancyComputer scienceGeneticsOperating systemForestryBiologyLactationCryospheric studies and observationsWinter Sports Injuries and PerformanceLandslides and related hazards
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