O'Brien, Philip E. et al. (2004): Prydz channel fan and the history of extreme ice advances in Prydz Bay

Leg/Site/Hole:
ODP 188
ODP 188 1167
Identifier:
2004-083826
georefid
10.2973/odp.proc.sr.188.016.2004
doi
Creator:
O'Brien, Philip E.
Australian Geological Survey Organisation, Petroleum and Marine Division, Canberra, Australia
author
Cooper, Alan K.
Australian Geological Survey Organisation, Australia
author
Florindo, Fabio
Ocean Drilling Program, United States
author
Handwerger, David A.
University of Leicester, United Kingdom
author
Lavelle, Mark
University of Nebraska, United States
author
Passchier, Sandra
University of Texas at Arlington, United States
author
Pospichal, James J.
Oxford University, United Kingdom
author
Quilty, Patrick G.
Istituto Nazionale di Geofisica e Vulcanologia, Italy
author
Richter, Carl
Norwegian Polar Institute, Norway
author
Theissen, Kevin M.
Christan-Albrechts-Universitaet zu Kiel, Federal Republic of Germany
author
Whitehead, Jason M.
University of Utah, United States
author
Identification:
Prydz channel fan and the history of extreme ice advances in Prydz Bay
2004
In: Cooper, Alan K., O'Brien, Philip E., Richter, Carl, Barr, Samantha R., Bohaty, Steven M., Claypool, George E., Damuth, John E., Erwin, Patrick S., Florindo, Fabio, Forsberg, Carl Fredrik, Gruetzner, Jens, Handwerger, David A., Januszczak, Nicole N., Kaiko, Alexander, Kryc, Kelly A., Lavelle, Mark, Passchier, Sandra, Pospichal, James J., Quilty, Patrick G., Rebesco, Michele A., Strand, Kari O., Taylor, Brian, Theissen, Kevin M., Warnke, Detlef A., Whalen, Patricia A., Whitehead, Jason M., Williams, Trevor, Proceedings of the Ocean Drilling Program; scientific results; Prydz Bay-Cooperation Sea, Antarctica; glacial history and paleoceanography; covering Leg 188 of the cruises of the drilling vessel JOIDES Resolution; Fremantle, Australia, to Hobart, Tasmania; Sites 1165-1167; 10 January-11 March 2000
Texas A&M University, Ocean Drilling Program, College Station, TX, United States
188
During the late Neogene, the Lambert Glacier-Amery Ice Shelf drainage system flowed across Prydz Bay in an ice stream that reached the shelf edge and built a trough mouth fan on the upper continental slope. The adjacent banks saw mostly subglacial till deposition beneath slower-moving ice. The fan consists mostly of debris flow deposits derived from the melting out of subglacial debris at the grounding line at the continental shelf edge. Thick debris flow intervals are separated by thin mudstone horizons deposited when the ice had retreated from the shelf edge. Age control at Ocean Drilling Program Site 1167 indicates that the bulk of the trough mouth fan was deposited prior to approximately 780 ka with as few as three debris flow intervals deposited since then. This stratigraphy indicates that extreme advances of the Lambert Glacier-Amery Ice Shelf system ceased during the mid-Pleistocene. Possible causes for this change are progressive over-deepening of the inner shelf, a reduction in maximum ice volumes in the interior of the East Antarctic Ice Sheet caused by temperature change, and a change in the interaction of Milankovich cycles and the response time of the ice sheet.
English
Serial
Coverage:Geographic coordinates:
North:-66.2400
West:72.1700East: 72.1800
South:-66.2400
Stratigraphy; Amery Ice Shelf; Antarctic ice sheet; Antarctica; Cenozoic; climate change; cores; cycles; depositional environment; glacial geology; ice sheets; Lambert Glacier; Leg 188; Mac Robertson Land; Milankovitch theory; Neogene; Ocean Drilling Program; ocean floors; ODP Site 1167; paleoclimatology; Pleistocene; Prydz Bay; Quaternary; sedimentation; sedimentation rates; Southern Ocean; Tertiary; upper Neogene;
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