Morphometry of bedrock meltwater channels on Antarctic inner continental shelves: Implications for channel development and subglacial hydrology

© 2020 The Authors Expanding multibeam bathymetric data coverage over the last two decades has revealed extensive networks of submarine channels incised into bedrock on the Antarctic inner continental shelf. The large dimensions and prevalence of the channels implies the presence of an active subgla...

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Bibliographic Details
Main Authors: Kirkham, JD, Hogan, KA, Larter, RD, Arnold, NS, Nitsche, FO, Kuhn, G, Gohl, K, Anderson, JB, Dowdeswell, JA
Format: Article in Journal/Newspaper
Language:English
Published: Elsevier BV 2020
Subjects:
Subglacial meltwater channels
Antarctica
Continental shelf
Morphometry
Subglacial lakes
Paleoglaciology
Amundsen Sea
Antarctic
Antarctic Peninsula
Debenham
The Antarctic
Alfred Wegener Institute
Antarc*
British Antarctic Survey
Ice Sheet
Scott Polar Research Institute
Online Access:https://www.repository.cam.ac.uk/handle/1810/311042
https://doi.org/10.17863/CAM.58132
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Summary:© 2020 The Authors Expanding multibeam bathymetric data coverage over the last two decades has revealed extensive networks of submarine channels incised into bedrock on the Antarctic inner continental shelf. The large dimensions and prevalence of the channels implies the presence of an active subglacial hydrological system beneath the past Antarctic Ice Sheet which we can use to learn more about inaccessible subglacial processes. Here, we map and analyse over 2700 bedrock channels situated across >100,000 km2 of continental shelf in the western Antarctic Peninsula and Amundsen Sea to produce the first inventory of submarine channels on the Antarctic inner continental shelf. Morphometric analysis reveals highly similar distributions of channel widths, depths, cross-sectional areas and geometric properties, with subtle differences between channels in the western Antarctic Peninsula compared to those in the Amundsen Sea. At 75–3400 m wide, 3–280 m deep, 160–290,000 m2 in cross-sectional area, and typically 8 times as wide as they are deep, the channels have similar morphologies to tunnel valleys and meltwater channel systems observed from other formerly glaciated landscapes despite differences in substrate geology and glaciological regime. We propose that the Antarctic bedrock channels formed over multiple glacial cycles through the episodic drainage of at least 59 former subglacial lakes identified on the inner continental shelf. This work was supported by the UK Natural Environment Research Council (NERC) [grant number NE/L002507/1]; a Debenham Scholarship from the Scott Polar Research Institute, University of Cambridge; the NERC – British Antarctic Survey Polar Science for Planet Earth programme; and the Alfred Wegener Institute, Helmholtz Centre for Polar and Marine Research programme: Polar Regions and Coasts in the changing Earth Sys- tem (PACES II). Some of the data used were collected through other pro- jects [NERC grant numbers NE/J005703/1, NE/J005746/1, NE/J005770/1 and National Science Foundation ...

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