Ice sheet retreat and glacio-isostatic adjustment in Lützow-Holm Bay, East Antarctica

The East Antarctic Ice Sheet has relatively few field data to constrain its past volume and contribution to global sea-level change since the Last Glacial Maximum. We provide new data on deglaciation history and develop new relative sea-level (RSL) curves along an 80 km transect (from Skallen to Ska...

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Bibliographic Details
Published in:Quaternary science reviews 2017-08, Vol.169, p.85-98
Main Authors: Verleyen, Elie, Tavernier, Ines, Hodgson, Dominic A., Whitehouse, Pippa L., Kudoh, Sakae, Imura, Satoshi, Heirman, Katrien, Bentley, Michael J., Roberts, Steve J., De Batist, Marc, Sabbe, Koen, Vyverman, Wim
Format: Article
Language:English
Subjects:
Antarctica
Coastal geomorphology
Glacial isostatic adjustment (GIA) models
Holocene
Isolation lakes
Neotectonics
Raised beaches
Sea level changes
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Summary:The East Antarctic Ice Sheet has relatively few field data to constrain its past volume and contribution to global sea-level change since the Last Glacial Maximum. We provide new data on deglaciation history and develop new relative sea-level (RSL) curves along an 80 km transect (from Skallen to Skarsvnes, Langhovde and the Ongul Islands) in Lützow Holm Bay, East Antarctica. The geological constraints were compared with output from two Glacial Isostatic Adjustment (GIA) models. The minimum radiocarbon age for regional deglaciation is c. 11,240 cal. yr BP on West Ongul Island with progressively younger deglaciation ages approaching the main regional ice outflow at Shirase Glacier. Marked regional differences in the magnitude and timing of RSL change were observed. More in particular, in Skarvsnes a minimum marine limit of 32.7 m was inferred, which is c. 12.7 m higher than previously published evidence, and at least 15 m higher than that reported in the other three ice-free areas. Current GIA model predictions slightly underestimate the rate of Late Holocene RSL fall at Skallen, Langhovde, and West Ongul, but provide a reasonable fit to the reconstructed minimum marine limit at these sites. GIA model predictions are unable to provide an explanation for the shape of the reconstructed RSL curve at Skarvsnes. We consider a range of possible explanations for the Skarvsnes RSL data and favour an interpretation where the anomalously high marine limit and rate of RSL fall is due to reactivation of a local fault. •Relative sea level (RSL) curves are developed for Lützow-Holm Bay, East Antarctica.•Regional differences in the rate of RSL fall are likely underlain by neotectonics.•GIA models slightly underestimate the rate of RSL fall in 3 out of the 4 regions.•GIA Models are unable to provide an explanation for RSL changes in one region.
ISSN:0277-3791
1873-457X
DOI:10.1016/j.quascirev.2017.06.003