Bounds on the Time–history and Holocene Mass Budget of Antarctica from Sea–level Records in SE Tunisia

Bounds on the Time–history and Holocene Mass Budget of Antarctica from Sea–level Records in SE Tunisia

Solving the sea–level equation for a Maxwell Earth, we analyze the sensitivity of Holocene sea–level records in SE Tunisia to the time–history of remote ice sheets. Assuming that mantle viscosity increases moderately with depth, we find that in this region the sea–level variations driven by the Nort...

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Bibliographic Details
Published in:Pure and applied geophysics Vol. 166; no. 8-9; pp. 1319 - 1341
Main Authors: Stocchi, P., Colleoni, F., Spada, G.
Format: Journal Article
Language:English
Published: Basel Birkhäuser-Verlag 01-09-2009
Springer Nature B.V
Subjects:
Antarctica
Budgeting
Catastrophic events
Chronology
Earth and Environmental Science
Earth Sciences
Geodetics
Geophysics
Geophysics/Geodesy
Glaciers
Holocene
Ice
Marine
Mathematical analysis
Mathematical models
Melting
Meltwater
Sea level
MED, Tunisia
PS, Antarctica
MED, Eastern Mediterranean
MED, Western Mediterranean
mantle viscosity
Holocene sea–level changes
South east Tunisia
Catastrophic rise events
glacio–isostatic adjustment
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Summary:Solving the sea–level equation for a Maxwell Earth, we analyze the sensitivity of Holocene sea–level records in SE Tunisia to the time–history of remote ice sheets. Assuming that mantle viscosity increases moderately with depth, we find that in this region the sea–level variations driven by the Northern Hemisphere ice sheets cancel, so that the late–Holocene sea–level high–stand suggested by the geological record merely reflects the melting history of Antarctica. New insight into the history of this ice sheet is obtained analyzing the information contained in a revised set of relative sea–level observations for sites across the Mediterranean covering the last 8 kyrs. From a trial–and–error misfit analysis, it holds true that in this region the match between model predictions and observations improves when the volume of water released from Antarctica is well below the value imposed by the ICE3G chronology and when a sudden meltwater pulse is allowed between 8 and 7 kyrs before present, corresponding to the epoch of the catastrophic rise event known as CRE3.
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ISSN:0033-4553
1420-9136
DOI:10.1007/s00024-009-0488-z