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Geomorphic signature of Antarctic submarine gullies: Implications for continental slope processes

Gales, Jennifer A.; Larter, Robert D.; Mitchell, Neil C.; Dowdeswell, Julian A.. 2013 Geomorphic signature of Antarctic submarine gullies: Implications for continental slope processes. Marine Geology, 337. 112-124. 10.1016/j.margeo.2013.02.003

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Abstract/Summary

Five quantitatively distinct gully types are identified on the Antarctic continental margin from swath bathymetric data of over 1100 individual features. The gullies differ in terms of length, width, depth, width/depth ratio, cross-sectional shape, branching order, sinuosity and spatial density. Quantitative analysis suggests that Antarctic gully morphology varies with local slope character (i.e. slope geometry, gradient), regional factors (i.e. location of cross-shelf troughs, trough mouth fans, subglacial meltwater production rates, drainage basin size), sediment yield and ice-sheet history. In keeping with interpretations of previous researchers, most gullies are probably formed by hyperpycnal flows of sediment-laden subglacial meltwater released from beneath ice-sheets grounded at the continental shelf edge during glacial maxima. The limited down-slope extent of gullies on the western Antarctic Peninsula is explained by the steep gradient and slope geometry at the mouth of Marguerite Trough, which cause flows to accelerate and entrain seawater more quickly, resulting in a reduction of the negative buoyancy effect of the sediment load. Due to pressure gradients at the ice-sheet bed caused by variations in ice thickness inside and outside palaeo-ice stream troughs, subglacial meltwater flow was generally focussed towards trough margins. This has resulted in gullies with larger cross-sectional areas and higher sinuosities at the trough margins. A unique style of gullying is observed off one part of the western Antarctic Peninsula, corresponding to an area in which the ice-sheet grounding line is not thought to have reached the shelf edge during the Last Glacial Maximum. We interpret the features in this area as the cumulative result of slope processes that operated over a long period of time in the absence of hyperpycnal meltwater flows.

Item Type: Publication - Article
Digital Object Identifier (DOI): 10.1016/j.margeo.2013.02.003
Programmes: BAS Programmes > Antarctic Funding Initiative Projects
BAS Programmes > Polar Science for Planet Earth (2009 - ) > Ice Sheets
ISSN: 0025-3227
Additional Keywords: submarine gully, Antarctica, subglacial metlwater, continental margin, geomorphology
Date made live: 01 Nov 2012 08:03 +0 (UTC)
URI: http://nora.nerc.ac.uk/id/eprint/19989

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