The seafloor geomorphology of the Windmill Islands, Wilkes Land, East Antarctica: implications for regional ice-sheet evolution

Maintenance and Update Frequency: notPlanned Statement: Not applicable High-resolution marine sonar swath mapping, covering an area of ca. 33 km2 in the vicinity of the Windmill Islands (67° S, 110° E), Wilkes Land, east Antarctica, permits visualisation and description of the near-shore geomorpholo...

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Bibliographic Details
Published in:Geomorphology
Other Authors: CCARSON (custodian), Carson, C.J. (author), Commonwealth of Australia (Geoscience Australia) (owner), Commonwealth of Australia (Geoscience Australia) (pointOfContact), EGD (hasAssociationWith), Manager Client Services (distributor), Manager Client Services (custodian), Post, A.L. (author), Smith, J. (author), Walker, G. (author), Waring, P. (author)
Format: Text
Language:unknown
Published: Australian Ocean Data Network
Subjects:
geoscientificInformation
External Publication
Scientific Journal Paper
Antarctic data
Bathymetry
Continental Shelf
geomorphology
marine survey
AAT
Marine Geoscience
EARTH SCIENCES
GEOLOGY
Published_External
Antarctic
East Antarctica
Wilkes Land
Windmill Islands
Law Dome
Antarc*
Antarctica
Ice Sheet
Online Access:https://researchdata.edu.au/the-seafloor-geomorphology-sheet-evolution/1880568
https://pid.geoscience.gov.au/dataset/ga/90095
https://doi.org/10.1016/j.geomorph.2017.04.031
Description
Summary:Maintenance and Update Frequency: notPlanned Statement: Not applicable High-resolution marine sonar swath mapping, covering an area of ca. 33 km2 in the vicinity of the Windmill Islands (67° S, 110° E), Wilkes Land, east Antarctica, permits visualisation and description of the near-shore geomorphology of the seafloor environment in unprecedented detail and provides invaluable insight into the ice-sheet history of the region. Mesoproterozoic metamorphic basement exhibits prominent sets of parallel northwest-trending linear fault sets that probably formed during fragmentation of eastern Gondwana during the Mesozoic. The fault systems appear to control regional coastal physiographic features and have, in places, been preferentially eroded and exploited by subsequent glacial activity. Possibly the earliest formed glacially-derived geomorphological elements are networks of sub-glacial meltwater channels which are preserved on bedrock platforms and ridges. Subtle glacial lineations and streamlined landforms record evidence of the westward expansion of the grounded, Law Dome ice sheet margin, probably during the late Pleistocene Last Glacial Maximum, the direction of which coincides with glacial striae on onshore crystalline bedrock outcrops. The most striking glacial geomorphological features are sets of arcuate ridges confined mostly within glacially excavated `U-shaped valleys, exploiting and developed along bedrock fault sets. These ridge sets are interpreted as `push moraines or grounding zone features, formed during episodic retreat of highly channelised, topographically controlled ice-streams following ice surging, possibly in response to local environmental forcing during the mid-late Holocene. Minor post-glacial marine sedimentation is preserved in several small (1 km2) `isolated marine basins with shallow seaward sills.

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