Geological constraints on glacio-isostatic adjustment models of relative sea-level change during deglaciation of Prince Gustav Channel,Antarctic Peninsula |
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| Authors: | Stephen J. Roberts Dominic A. Hodgson Mieke Sterken Pippa L. Whitehouse Elie Verleyen Wim Vyverman Koen Sabbe Andrea Balbo Michael J. Bentley Steven G. Moreton |
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| Affiliation: | 1. Institute of Paleobiology, Polish Academy of Sciences, Twarda 51/55, 00-818 Warszawa, Poland;2. Polish Geological Institute, National Research Institute, Rakowiecka 4, 00-975 Warszawa, Poland;3. Shell Exploration and Production Company, 150 N Dairy Ashford, Houston, TX 77079, USA;4. Department of Earth Science, Rice University, 6100 Main St., MS 126, Houston, TX 77005, USA;1. Centre for Geographical Studies -IGOT, Universidade de Lisboa, Portugal;2. Department of Géographie & Centre d''Études Nordiques, Université Laval, Canada;3. Institute of Earth Sciences Jaume Almera, CSIC, Spain;4. Centro de Investigación, Seguimiento y Evaluación, Guadarrama National Park, Spain;5. Centre de Recerca Ecològica i Aplicacions Forestals (CREAF-CSIC), Spain;6. Centre for Hidrographic Studies (CEDEX), Spain;7. Department of Earth Sciences, University of Bristol, UK;8. University Institute of Geology, University of A Coruña, Spain |
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| Abstract: | The recent disintegration of Antarctic Peninsula ice shelves, and the associated accelerated discharge and retreat of continental glaciers, has highlighted the necessity of quantifying the current rate of Antarctic ice mass loss and the regional contributions to future sea-level rise. Observations of present day ice mass change need to be corrected for ongoing glacial isostatic adjustment, a process which must be constrained by geological data. However, there are relatively little geological data on the geometry, volume and melt history of the Antarctic Peninsula Ice Sheet (APIS) after Termination 1, and during the Holocene so the glacial isostatic correction remains poorly constrained. To address this we provide field constraints on the timing and rate of APIS deglaciation, and changes in relative sea-level (RSL) for the north-eastern Antarctic Peninsula based on geomorphological evidence of former marine limits, and radiocarbon-dated marine-freshwater transitions from a series of isolation basins at different altitudes on Beak Island. Relative sea-level fell from a maximum of c. 15 m above present at c. 8000 cal yr BP, at a rate of 3.91 mm yr?1 declining to c. 2.11 mm yr?1 between c. 6900–2900 cal yr BP, 1.63 mm yr?1 between c. 2900–1800 cal yr BP, and finally to 0.29 mm yr?1 during the last c. 1800 years. The new Beak Island RSL curve improves the spatial coverage of RSL data in the Antarctic. It is in broad agreement with some glacio-isostatic adjustment models applied to this location, and with work undertaken elsewhere on the Antarctic Peninsula. These geological and RSL constraints from Beak Island imply significant thinning of the north-eastern APIS by the early Holocene. Further, they provide key data for the glacial isostatic correction required by satellite-derived gravity measurements of contemporary ice mass loss, which can be used to better assess the future contribution of the APIS to rising sea-levels. |
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