Antarctic upper mantle rheology

Ivins, E.R., W. van der Wal, D.A. Wiens, A.J. Lloyd, and L. Caron (2021), Antarctic upper mantle rheology, Downloaded from, doi:10.1144/M56-2020-19.
Abstract

The Antarctic mantle and lithosphere are known to have large lateral contrasts in seismic velocity and tectonic history. These contrasts suggest differences in the response timescale of mantle flow across the continent, similar to those documented between the northeastern and southwestern upper mantle of North America. Glacial isostatic adjustment and geodynamical modelling rely on independent estimates of lateral variability in effective viscosity. Recent improvements in imaging techniques and the distribution of seismic stations now allow resolution of both lateral and vertical variability of seismic velocity, making detailed inferences about lateral viscosity variations possible. Geodetic and palaeosea-level investigations of Antarctica provide quantitative ways of independently assessing the 3D mantle viscosity structure. While observational and causal connections between inferred lateral viscosity variability and seismic velocity changes are qualitatively reconciled, significant improvements in the quantitative relations between effective viscosity anomalies and those imaged by P- and S-wave tomography have remained elusive. Here we describe several methods for estimating effective viscosity from S-wave velocity. We then present and compare maps of the viscosity variability beneath Antarctica based on the recent S-wave velocity model ANT-20 using three different approaches.

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Research Program
Interdisciplinary Science Program (IDS)
Earth Surface & Interior Program (ESI)
Cryospheric Science Program (CSP)
Mission
GRACE-FO
Funding Sources
NASA’s Earth Surface and Interior Focus Area Program (grant
NNH15ZDA001N-ESI to E.R. Ivins), the Sea-Level Change Science Team (grant NNH16ZDA001N-SLCT to E.R. Ivins), the GRACE Follow-On Science Team (grant NNH19ZDA001N-GRACEFO to E.R. Ivins) and the NASA Cryosphere Program (grant NNH13ZDA001N-SLR to E.R. Ivins)

 

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