Multiple cosmogenic nuclides document complex Pleistocene exposure history of glacial drifts in Terra Nova Bay (northern Victoria Land, Antarctica)

Abstract Geomorphological and glacial geological surveys and multiple cosmogenic nuclide analyses ( 10 Be, 26 Al, and 21 Ne) allowed us to reconstruct the chronology of variations prior to the last glacial maximum of the East Antarctic Ice Sheet (EAIS) and valley glaciers in the Terra Nova Bay regio...

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Bibliographic Details
Published in:Quaternary Research
Main Authors: Di Nicola, Luigia, Strasky, Stefan, Schlüchter, Christian, Salvatore, Maria Cristina, Akçar, Naki, Kubik, Peter W., Christl, Marcus, Kasper, Haino Uwe, Wieler, Rainer, Baroni, Carlo
Format: Article in Journal/Newspaper
Language:English
Published: Cambridge University Press (CUP) 2009
Subjects:
Antarctic
Victoria Land
East Antarctic Ice Sheet
Terra Nova Bay
Antarc*
Antarctica
Ice Sheet
Online Access:http://dx.doi.org/10.1016/j.yqres.2008.07.004
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Summary:Abstract Geomorphological and glacial geological surveys and multiple cosmogenic nuclide analyses ( 10 Be, 26 Al, and 21 Ne) allowed us to reconstruct the chronology of variations prior to the last glacial maximum of the East Antarctic Ice Sheet (EAIS) and valley glaciers in the Terra Nova Bay region. Glacially scoured coastal piedmonts with round-topped mountains occur below the highest local erosional trimline. They represent relict landscape features eroded by extensive ice overriding the whole coastal area before at least 6 Ma (pre-dating the build-up of the Mt. Melbourne volcanic field). Since then, summit surfaces were continuously exposed and well preserved under polar condition with negligible erosion rates on the order of 17 cm/Ma. Complex older drifts rest on deglaciated areas above the younger late-Pleistocene glacial drift and below the previously overridden summits. The combination of stable and radionuclide isotopes documents complex exposure histories with substantial periods of burial combined with minimal erosion. The areas below rounded summits were repeatedly exposed and buried by ice from local and outlet glaciers. The exposure ages of the older drift(s) indicate multiple Pleistocene glacial cycles, which did not significantly modify the pre-existing landscape.

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