Deglaciation-Induced Spatially Variable Sea Level Change: A Simple-Model Case Study for the Greenland and Antarctic Ice Sheets

Deglaciation-Induced Spatially Variable Sea Level Change: A Simple-Model Case Study for the Greenland and Antarctic Ice Sheets

Some studies on deglaciation-induced sea level change provide only a global average change, thus neglecting the fact that sea level change is spatially variable. This is due mainly to the gravitational and visco-elastic feedback effects of the changing surface mass loads. In order to address this ap...

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Main Authors: M. Kuhn, W.E. Featherstone, O. Makarynskyy, W. Keller
Format: Article
Language:English
Published: SAGE Publishing 2010-06-01
Series:International Journal of Ocean and Climate Systems
Online Access:https://doi.org/10.1260/1759-3131.1.2.67
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spelling doaj-7227feb765584aeb807f900986eeaeb82020-11-25T01:46:19ZengSAGE PublishingInternational Journal of Ocean and Climate Systems1759-31311759-314X2010-06-01110.1260/1759-3131.1.2.6710.1260_1759-3131.1.2.67Deglaciation-Induced Spatially Variable Sea Level Change: A Simple-Model Case Study for the Greenland and Antarctic Ice SheetsM. Kuhn0W.E. Featherstone1O. Makarynskyy2W. Keller3 Western Australian Centre for Geodesy and The Institute of Geoscience Research, Curtin University of Technology, GPO Box U1987, Perth WA 6845, Australia Western Australian Centre for Geodesy and The Institute of Geoscience Research, Curtin University of Technology, GPO Box U1987, Perth WA 6845, Australia Now at: Asia-Pacific Applied Science Associates, PO Box 7650, Cloisters Square, Perth WA 6850, Australia Geodaetisches Institute, Universitaet Stuttgart, Geschwister-Scholl-Strasse 24/D, D-70174 Stuttgart, GermanySome studies on deglaciation-induced sea level change provide only a global average change, thus neglecting the fact that sea level change is spatially variable. This is due mainly to the gravitational and visco-elastic feedback effects of the changing surface mass loads. In order to address this apparent misconception and raise further awareness, we provide a conceptual example based on a simulated total melt of the Greenland and Antarctic ice sheets. This would give a global average sea level change of about 64 m. However, due to the changed distribution of gravitating masses, the sea-level change depends on location, with a range of about −27 m to +79 m (i.e., sea-level will even fall in some places). This spatial dependency has several implications, such as >10% biases in global average sea-level change estimates based only on tide-gauge records, flooding of almost 10% of current land areas, an increase of the length of day by almost a half a second and a northward move of the centre of mass (geocentre) by about 20 m.https://doi.org/10.1260/1759-3131.1.2.67
collection DOAJ
language English
format Article
sources DOAJ
author M. Kuhn
W.E. Featherstone
O. Makarynskyy
W. Keller
spellingShingle M. Kuhn
W.E. Featherstone
O. Makarynskyy
W. Keller
Deglaciation-Induced Spatially Variable Sea Level Change: A Simple-Model Case Study for the Greenland and Antarctic Ice Sheets
International Journal of Ocean and Climate Systems
author_facet M. Kuhn
W.E. Featherstone
O. Makarynskyy
W. Keller
author_sort M. Kuhn
title Deglaciation-Induced Spatially Variable Sea Level Change: A Simple-Model Case Study for the Greenland and Antarctic Ice Sheets
title_short Deglaciation-Induced Spatially Variable Sea Level Change: A Simple-Model Case Study for the Greenland and Antarctic Ice Sheets
title_full Deglaciation-Induced Spatially Variable Sea Level Change: A Simple-Model Case Study for the Greenland and Antarctic Ice Sheets
title_fullStr Deglaciation-Induced Spatially Variable Sea Level Change: A Simple-Model Case Study for the Greenland and Antarctic Ice Sheets
title_full_unstemmed Deglaciation-Induced Spatially Variable Sea Level Change: A Simple-Model Case Study for the Greenland and Antarctic Ice Sheets
title_sort deglaciation-induced spatially variable sea level change: a simple-model case study for the greenland and antarctic ice sheets
publisher SAGE Publishing
series International Journal of Ocean and Climate Systems
issn 1759-3131
1759-314X
publishDate 2010-06-01
description Some studies on deglaciation-induced sea level change provide only a global average change, thus neglecting the fact that sea level change is spatially variable. This is due mainly to the gravitational and visco-elastic feedback effects of the changing surface mass loads. In order to address this apparent misconception and raise further awareness, we provide a conceptual example based on a simulated total melt of the Greenland and Antarctic ice sheets. This would give a global average sea level change of about 64 m. However, due to the changed distribution of gravitating masses, the sea-level change depends on location, with a range of about −27 m to +79 m (i.e., sea-level will even fall in some places). This spatial dependency has several implications, such as >10% biases in global average sea-level change estimates based only on tide-gauge records, flooding of almost 10% of current land areas, an increase of the length of day by almost a half a second and a northward move of the centre of mass (geocentre) by about 20 m.
url https://doi.org/10.1260/1759-3131.1.2.67
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