Antarctic Science



Supraglacial debris along the front of the Larsen-A Ice Shelf, Antarctic Peninsula


JEFFREY EVANS a1p1 and COLM Ó COFAIGH a2
a1 British Antarctic Survey, NERC, High Cross, Madingley Road, Cambridge CB3 0ET, UK
a2 Scott Polar Research Institute, University of Cambridge, Cambridge CB2 1ER, UK

Article author query
evans j   [PubMed][Google Scholar] 
cofaigh c   [PubMed][Google Scholar] 

Abstract

Semi-continuous, linear accumulations of poorly-sorted debris are present on the surface of the remnant Larsen-A Ice Shelf, Antarctic Peninsula. These accumulations form a complex of debris bands extending parallel to the front of the ice shelf for several kilometres. Landsat imagery shows that the debris bands originated as lateral moraines along the Nordenskjöld Coast. Almost 80% of clasts sampled from these debris accumulations have shape/roundness characteristics consistent with glacier transport in the zone of basal traction. Angular and very angular clasts account for 15% and 22% of clasts in the pebble- and cobble/boulder-sized fractions, respectively, and originated by rockfall from valley/nunatak sides, with subsequent passive glacier transportation. Lithological analysis indicates that the debris is derived locally from the Nordenskjöld Coast, Cape Fairweather region and interior of the Antarctic Peninsula. Episodic melt-out and resedimentation of this debris from the front of the ice shelf would deliver pulses of coarse-grained sediment to the sea floor. Therefore, coarse-grained debris can also be released along the calving margin of small polar ice shelves fringing mountainous terrain, and could potentially be confused with sediment deposited at the grounding line of Antarctic ice-shelves. Sedimentological criteria to differentiate between these environments are proposed in this paper.

(Received September 29 2002)
(Accepted June 12 2003)


Key Words: Antarctica; calving margin; glacimarine sediment; grounding line.

Correspondence:
p1 Present address: Scott Polar Research Institute, University of Cambridge, Cambridge CB2 1ER, UK, je10007@cam.ac.uk


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