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Erosion by Continental Ice Sheets*

Published online by Cambridge University Press:  30 January 2017

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Abstract

Some of the problems with earlier theories for erosion and transport by ice sheets are discussed, and it is noted that those theories cannot simply account for the often-reported finding that most till is derived from bedrock only a few tens of kilometers up-glacier. Considerations of the mass balance of debris in transport lead to the conclusion that ice sheets are capable of transporting most debris only a short distance.

The theory that the break-up of bedrock is mostly a preglacial process is developed. The advancing ice sheet collects the debris and then deposits it after a short travel. As the ice sheet first advances over the regolith, debris is frozen onto the base and is carried until basal melting due to geothermal and frictional heat causes lodgment till deposition. Most debris is deposited during the advance of the ice sheet and is carried only a short distance. A generally small amount of debris is carried at higher levels and is deposited during ice standstill and retreat as melt-out and ablation tills.

The present theory makes many predictions, among them, that most till units are not traceable over long distances, that thick till sequences represent unstable glacier margins and not necessarily long periods of glacier occupation, and that lodgment tills are to be interpreted in terms of ice advances and ablation tills in terms of ice retreats.

This paper is published in full in Journal of Geology, Vol. 86, No. 4, 1978, p. 516–24.

Type
Reports on Current Work
Copyright
Copyright © International Glaciological Society 1979

Discussion

T. J. Kemmis: I wonder if you would care to comment on how your mechanism fits the stratigraphic record left by the Laurentide ice sheet in North America? Your contentions, both of a single erosional process by continental ice sheets and of incorporation only of regolith, seem incompatible with the record left by continental ice sheets in mid-western North America. For example, an unpublished map of Hoiberg shows that the Sangamon interglacial soil in Illinois is present beneath later Wisconsin-age glacial deposits for a distance of 80 km back from the Wisconsin front, indicating that much of the existing pre-Wisconsin material was not incorporated at over a distance of 80 km up-glacier from the Wisconsin margin. Several detailed stratigraphic studies of tills in the glaciated lowlands of North America (e.g. Reference Willman and FryeWillman and Frye, 1970; Reference Karrow and LeggetKarrow, [c1976]) have shown the stratigraphic succession to consist of a sequence of texturally and mineralogically distinct calcareous tills. It is hard to envisage how these tills, which are found in the sub-surface to successively overlie one another over wide-spread areas (on the order of hundreds of square kilometres), could result solely from the incorporation or regolith.

I. M. Whillans: The main point is that there are some important problems with till provenance. I suggest regolith freeze-on as an important mechanism. Certainly some areas were covered but not eroded.

The stratigraphic descriptions For Illinois define members that cover areas of the order of 50 km by 100 km (103–104 km2). Perhaps each member is to be associated with a single glacial advance or perhaps each bed represents an advance (a bed is a subdivision of a member). It would be very interesting to determine if the compositional variations within each member can be related to a similar pattern in the bedrock and other pre-existing deposits.

Footnotes

*

Contribution No. 337 of the Institute of Polar Studies, Ohio State University, Columbus, Ohio 43210, U.S.A.

References

Karrow, P. F. [c 1976.] The texture, mineralogy, and petrography of North American tills. (In Legget, R. F., ed. Glacial till. An interdisciplinary study. [Ottawa], Royal Society of Canada in co-operation with the National Research Council of Canada, p. 8398. (Royal Society of Canada Special Publications, No. 12.)Google Scholar
Willman, H. B., and Frye, J. C. 1970. Pleistocene stratigraphy of Illinois. Illinois State Geological Survey. Bulletin 94.Google Scholar