Glacial isostatic adjustment and post-seismic deformation in Antarctica

This chapter reviews glacial isostatic adjustment (GIA) and post-seismic deformation in Antarctica. It discusses numerical models and their inputs, and observations and inferences that have been made from them. Both processes are controlled by mantle viscosity but their forcings are different. Ongoi...

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Bibliographic Details
Published in:Geological Society, London, Memoirs
Main Authors: van der Wal, Wouter, Barletta, Valentina, Nield, Grace, van Calcar, Caroline
Other Authors: Martin, A. P., van der Wal, W.
Format: Book Part
Language:English
Published: Geological Society 2023
Subjects:
Antarc*
Antarctic
Antarctic Peninsula
Antarctica
Balleny Islands
Ice Sheet
West Antarctica
Online Access:https://orbit.dtu.dk/en/publications/d5797489-b343-4d32-81f1-c262855c6fdd
https://doi.org/10.1144/M56-2022-13
https://backend.orbit.dtu.dk/ws/files/312123773/17_gslbooks2022_13.pdf
Description
Summary:This chapter reviews glacial isostatic adjustment (GIA) and post-seismic deformation in Antarctica. It discusses numerical models and their inputs, and observations and inferences that have been made from them. Both processes are controlled by mantle viscosity but their forcings are different. Ongoing GIA induced by the loss of ice since the last glacial maximum (LGM) could have amounted to 5–15 m of global sea-level rise. However, mantle viscosity is so low in parts of West Antarctica (c. 10 18 Pa s) that changes in ice thickness over the last centuries and decades have controlled the current uplift rates there. The uplift due to GIA has promoted ice-sheet stability since the LGM, and in West Antarctica GIA is a significant negative feedback on the current decline of the ice sheet. Post-seismic deformation following the 1998 earthquake near the Balleny Islands south of New Zealand has been detected in global navigation satellite system (GNSS) data and compared to model outputs. The best-fitting viscosity for this area is c. 10 19 Pa s, similar to GIA-based estimates for the Antarctic Peninsula. Future work should focus on unifying descriptions of viscosity across geodynamic models, and integrating information from seismic, gravity, experimental and geological data.

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