Continental Shelf Record of the East Antarctic Ice Sheet Evolution: Seismo-stratigraphic Evidence from the George V Basin

Maintenance and Update Frequency: unknown Statement: Unknown The late Quaternary ice sheet/ice shelf extent in the George V Basin (East Antarctica) has been reconstructed through analyses of Chirp sub-bottom profiles, integrated with multi-channel seismic data and sediment cores. Four glacial facies...

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Bibliographic Details
Published in:Quaternary Science Reviews
Other Authors: BASFAW (custodian), Brancolini, G. (author), Commonwealth of Australia (Geoscience Australia) (owner), Commonwealth of Australia (Geoscience Australia) (pointOfContact), De Santis, L. (author), EGD (hasAssociationWith), Harris, P.T. (author), Manager Client Services (distributor), Manager Client Services (custodian), Presti, M. (author)
Format: Text
Language:unknown
Published: Australian Ocean Data Network
Subjects:
geoscientificInformation
External Publication
Scientific Journal Paper
marine
Antarctic data
geomorphology
sedimentary basins
AQ
EARTH SCIENCES
Published_External
Antarctic
East Antarctica
East Antarctic Ice Sheet
Antarc*
Antarctica
Ice Sheet
Ice Shelf
Online Access:https://researchdata.edu.au/continental-shelf-record-v-basin/683307
https://pid.geoscience.gov.au/dataset/ga/61514
https://doi.org/10.1016/j.quascirev.2004.10.009
Description
Summary:Maintenance and Update Frequency: unknown Statement: Unknown The late Quaternary ice sheet/ice shelf extent in the George V Basin (East Antarctica) has been reconstructed through analyses of Chirp sub-bottom profiles, integrated with multi-channel seismic data and sediment cores. Four glacial facies, related to the advance and retreat history of the glaciated margin, have been distinguished: Facies 1 represents outcrop of crystalline and sedimentary rocks along the steep inner shelf and comprises canyons once carved by glaciers; Facies 2 represents moraines and morainal banks and ridges with a depositional origin along the middle-inner shelf; Facies 3 represents glacial flutes along the middle-outer shelf; Facies 4 is related to ice-keel turbation at water depths <500 m along the outer shelf. A sediment drift deposit, located in the NW sector of the study area, partly overlies facies 2 and 3 and its ground-truthing provides clues to understanding their age. We have distinguished: a) an undisturbed sediment drift deposit at water depth >775 m, with drape/sheet and mound characters and numerous undisturbed sub-bottom sub-parallel reflectors (Facies MD1); b) a fluted sediment drift deposit at water depth <775 m, showing disrupted reflectors and a hummocky upper surface (Facies MD2). Radiocarbon ages of sediment cores indicate that the glacial advance producing facies MD2 corresponds to the Last Glacial Maximum (LGM) and that during the LGM the ice shelf was floating over the deep sector of the basin, leaving the sediment drift deposit undisturbed at major depths (Facies MD1). This observation further implies that: a) glacial facies underneath the sediment drift were the result of a grounding event older than the LGM, b) this sector of the East Antarctic fringe was sensitive to sea-level rise at the end of the LGM; thus potentially contributing to meltwater discharge during the last deglaciation.

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