Identifying geographical patterns of transient deformation in the geological sea level record

In this study, we examine the effect of transient mantle creep on the prediction of glacial isostatic adjustment (GIA) signals. Specifically, we compare predictions of relative sea level (RSL) change from GIA from a set of Earth models in which transient creep parameters are varied in a simple Burge...

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Published in:Journal of Geophysical Research: Solid Earth
Main Authors: Simon, K.M., Riva, R.E.M., Broerse, T.
Format: Article in Journal/Newspaper
Language:English
Published: 2022
Subjects:
Ice Sheet
Online Access:https://www.vliz.be/imisdocs/publications/87/381087.pdf
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spelling ftnioz:oai:imis.nioz.nl:355161 2023-05-15T16:41:15+02:00 Identifying geographical patterns of transient deformation in the geological sea level record Simon, K.M. Riva, R.E.M. Broerse, T. 2022 application/pdf https://www.vliz.be/imisdocs/publications/87/381087.pdf en eng info:eu-repo/semantics/altIdentifier/doi/doi.org/10.1029/2021jb023693 https://www.vliz.be/imisdocs/publications/87/381087.pdf info:eu-repo/semantics/openAccess %3Ci%3EJGR%3A+Solid+Earth+127%287%29%3C%2Fi%3E%3A+e2021JB023693.+%3Ca+href%3D%22https%3A%2F%2Fdx.doi.org%2F10.1029%2F2021jb023693%22+target%3D%22_blank%22%3Ehttps%3A%2F%2Fdx.doi.org%2F10.1029%2F2021jb023693%3C%2Fa%3E info:eu-repo/semantics/article info:eu-repo/semantics/publishedVersion 2022 ftnioz https://doi.org/10.1029/2021jb023693 2022-08-31T22:19:42Z In this study, we examine the effect of transient mantle creep on the prediction of glacial isostatic adjustment (GIA) signals. Specifically, we compare predictions of relative sea level (RSL) change from GIA from a set of Earth models in which transient creep parameters are varied in a simple Burgers model to a reference case with a Maxwell viscoelastic rheology. The model predictions are evaluated in two ways: first, relative to each other to quantify the effect of parameter variation, and second, for their ability to reproduce well-constrained sea level records from selected locations. Both the resolution and geographic location of the RSL observations determine whether the data can distinguish between model cases. Model predictions are most sensitive to the inclusion of transient mantle deformation in regions that are near-field and peripheral relative to former ice sheets. This sensitivity appears particularly true along the North American west coast in the region of the former Cordilleran Ice Sheet, which experienced rapid sea-level fall following deglaciation between 14 and 12 kyr BP. Relative to the Maxwell case, Burgers models better reproduce this rapid phase of regional postglacial sea-level fall. As well, computed goodness-of-fit values in this region show a clear preference for models where transient deformation is present in the whole or lower mantle, and for models where the rigidity of the Kelvin element is weakened relative to the rigidity of the Maxwell element. In contrast, model predictions of relative sea-level change in the far-field show weak sensitivity to the inclusion of transient deformation. Article in Journal/Newspaper Ice Sheet NIOZ Repository (Royal Netherlands Institute for Sea Research) Journal of Geophysical Research: Solid Earth 127 7
institution Open Polar
collection NIOZ Repository (Royal Netherlands Institute for Sea Research)
op_collection_id ftnioz
language English
description In this study, we examine the effect of transient mantle creep on the prediction of glacial isostatic adjustment (GIA) signals. Specifically, we compare predictions of relative sea level (RSL) change from GIA from a set of Earth models in which transient creep parameters are varied in a simple Burgers model to a reference case with a Maxwell viscoelastic rheology. The model predictions are evaluated in two ways: first, relative to each other to quantify the effect of parameter variation, and second, for their ability to reproduce well-constrained sea level records from selected locations. Both the resolution and geographic location of the RSL observations determine whether the data can distinguish between model cases. Model predictions are most sensitive to the inclusion of transient mantle deformation in regions that are near-field and peripheral relative to former ice sheets. This sensitivity appears particularly true along the North American west coast in the region of the former Cordilleran Ice Sheet, which experienced rapid sea-level fall following deglaciation between 14 and 12 kyr BP. Relative to the Maxwell case, Burgers models better reproduce this rapid phase of regional postglacial sea-level fall. As well, computed goodness-of-fit values in this region show a clear preference for models where transient deformation is present in the whole or lower mantle, and for models where the rigidity of the Kelvin element is weakened relative to the rigidity of the Maxwell element. In contrast, model predictions of relative sea-level change in the far-field show weak sensitivity to the inclusion of transient deformation.
format Article in Journal/Newspaper
author Simon, K.M.
Riva, R.E.M.
Broerse, T.
spellingShingle Simon, K.M.
Riva, R.E.M.
Broerse, T.
Identifying geographical patterns of transient deformation in the geological sea level record
author_facet Simon, K.M.
Riva, R.E.M.
Broerse, T.
author_sort Simon, K.M.
title Identifying geographical patterns of transient deformation in the geological sea level record
title_short Identifying geographical patterns of transient deformation in the geological sea level record
title_full Identifying geographical patterns of transient deformation in the geological sea level record
title_fullStr Identifying geographical patterns of transient deformation in the geological sea level record
title_full_unstemmed Identifying geographical patterns of transient deformation in the geological sea level record
title_sort identifying geographical patterns of transient deformation in the geological sea level record
publishDate 2022
url https://www.vliz.be/imisdocs/publications/87/381087.pdf
genre Ice Sheet
genre_facet Ice Sheet
op_source %3Ci%3EJGR%3A+Solid+Earth+127%287%29%3C%2Fi%3E%3A+e2021JB023693.+%3Ca+href%3D%22https%3A%2F%2Fdx.doi.org%2F10.1029%2F2021jb023693%22+target%3D%22_blank%22%3Ehttps%3A%2F%2Fdx.doi.org%2F10.1029%2F2021jb023693%3C%2Fa%3E
op_relation info:eu-repo/semantics/altIdentifier/doi/doi.org/10.1029/2021jb023693
https://www.vliz.be/imisdocs/publications/87/381087.pdf
op_rights info:eu-repo/semantics/openAccess
op_doi https://doi.org/10.1029/2021jb023693
container_title Journal of Geophysical Research: Solid Earth
container_volume 127
container_issue 7
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