Journal
JOURNAL OF GLACIOLOGY
Volume 66, Issue 257, Pages 485-495Publisher
CAMBRIDGE UNIV PRESS
DOI: 10.1017/jog.2020.20
Keywords
Antarctic glaciology; calving; ice shelves; ice velocity; ice; ocean interactions
Funding
- Natural Environment Research Council [NE/R000824/1]
- NERC [NE/R000719/1, NE/R000824/1, bas0100033] Funding Source: UKRI
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Evolving conditions at the terminus of Thwaites Glacier will be important in determining the rate of its future sea-level contribution over the coming decades. Here, we use remote-sensing observations to investigate recent changes (2000-2018) in the structure and velocity of Thwaites Glacier and its floating tongue. We show that the main trunk of Thwaites Glacier has accelerated by 38% over this period, while its previously intact floating tongue has transitioned to a weaker melange of fractured icebergs bounded by sea ice. However, the rate of structural weakening and acceleration was not uniform across the observational period and we identify two periods of rapid acceleration and structural weakening (2006-2012; 2016-2018), separated by a period of deceleration and re-advance of the structurally-intact shear margin boundary (2012-2015). The timing of these accelerations/decelerations strongly suggests a link to variable ocean forcing. The weakened tongue now has some dependency on landfast sea ice for structural integrity and is vulnerable to changes in landfast ice persistency. Future reductions in landfast sea ice could manifest from changes in climate and/or the imminent removal of the B-22A iceberg from the Thwaites embayment. Such changes could have important implications for the integrity of the ice tongue and future glacier discharge.
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