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Observations of the grounding-line area at a floating glacier terminus

Published online by Cambridge University Press:  20 January 2017

Ross D. Powell
Affiliation:
Department of Geology, Northern Illinois University, DeKalb, IL 60115, U.S.A.
Michael Dawber
Affiliation:
Department of Geology, Northern Illinois University, DeKalb, IL 60115, U.S.A.
James N. McInnes
Affiliation:
Department of Geology, Northern Illinois University, DeKalb, IL 60115, U.S.A.
Alex R. Pyne
Affiliation:
Antarctic Research Centre, Victoria University of Wellington, Wellington, New Zealand
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Abstract

A robotic submarine was used for the first observations of a grounding-line area of a floating glacier. The site was Mackay Glacier which terminates as a floating glacier tongue in the Ross Sea, at latitude 77°S. Half of the 20 m thick basal debris layers in Mackay Glacier are deposited as subglacial till in the last 1.8 km that the glacier remains grounded. Subglacial till observed at and beyond the grounding line varies rapidly in texture and rheology spatially, occurring as a flat sheet, as flow-parallel flutes, or as bank forms into which it has been pushed at the grounding line. Very little free- flowing subglacial water was present during the observations, and no major subglacial water discharges appear to have occurred in the past. The other half of the basal debris is melted out up to 1.5 km in front of the grounding line, producing a sheet of glacimarine sediment as shelfstone diamicton and mud draped on subglacial till. Both till and glacimarine sediment may be turbated by icebergs. This simple model of till overlain by shelfstone diamicton and mud is a direct contrast to sedimentary depositional systems at tide-water termini of temperate glaciers.

Information

Type
Research Article
Copyright
Copyright © International Glaciological Society 1996
Figure 0

Fig. 1. ROV dive-site locations (numbers) with water depth directly at each hole and sampled icebergs (triangles) at the Mackay Glacier Tongue, located at Granite Harbour in McMurdo Sound, Ross Sea, Antarctica. The terminus is shown in its 1994 position, and dive sites shown within the tongue were occupied in field seasons before 1994 when the terminus had a different geometry. Breaks in the terminus outline are large chasms. Dive site 8 is the pinning-point location.

Figure 1

Fig. 2. Images collected during ROV dises at and near the grounding line of Mackay Glacier. Relative scales are given in the description of each image because absolute scales were not determined for every image during ROV dives. Scenes (a)–(e) depict the wide variety of conditions at the grounding line: (a) subglacial till with a very high angle of repose indicating a high degree of consolidation (clasts are large pebbles and cobbles) (note scalloped melt cusps on the ice surface); (b) subglacial till with a lesser degree of consolidation and a higher mud content than in (a) (clast in left foreground is a boulder); (c) fluted subglacial till coming out from under the grounding line which is floating on the right and grounded with a vertical cliff on the dark ridge in the left background (flutes are about 0.5 m high); (d) angular clasts of rubble at the grounding line with a 6 cm-diameter scallop in the foreground; and (e) the glacier sole with scalloped melt-cusp surface directly in contact with bedrock (scallop shells on bedrock to the left are 6 cm across). Images (f)–(l) are from proglacial sub-glacier-tongue environments: (f) shelftstone diamicton with boulders forming a local hardground; (g) fluted till similar to that at the grounding line into which a boulder has been dropped from the base of the floating glacier tongue about 10 m above the sea floor; (h) a crag-and-tail feature formed in the lee of a large boulder independent of flutes; (i) an irregular subglacial till surface probably produced by instant freezing of pore water in the till by pressure release as the tongue rapidly lifted from its bed during a grounding-line retreat (relief on the sea floor is about 0.5 m); (j) a block of ice very rich with debris lying on the sea floor under the glacier tongue (the block is about 2 m long); (k) a recently calved iceberg that has rotated such that its keel came down onto the sea floor in a rich epibenthic community — a large boulder with an attached sponge and feather star rests against the keel; and (l) a small push ridge about 0.5 m high, formed during a wallow by an iceberg.

Figure 2

Fig. 3. Conceptual model of important sedimentary processes and deposits of the Mackay Glacier Tongue. The general setting (a) shows basal debris being transported to the grounding line where the longue has both a vertical wall of a basal crevasse and a slope down to the sea floor. Beyond the grounding line, basal debris is eventually melted out from the glacier, icebergs detach from the tongue to produce wallows or scours and there is a local pinning point on a bedrock high. Specific enlarged areas show major deposits and morphological features: (b) at the grounding line of a basal crevasse cliff, (c) on the sea floor beyond the grounding line, and (d) at the pinning point. Three idealized facies sequences (e) show the variability in facies that may be produced under different local conditions. All sketches are not to scale, for ease in depicting important features.