Hostname: page-component-cd9895bd7-7cvxr Total loading time: 0 Render date: 2024-12-26T21:43:20.056Z Has data issue: false hasContentIssue false

Late Quaternary Glaciation of the Eastern Queen Elizabeth Islands, N.W.T., Canada: Alternative Models

Published online by Cambridge University Press:  20 January 2017

John England*
Affiliation:
Department of Geography, University of Alberta, Edmonton, Alberta, T6G 2H4 Canada

Abstract

It has been suggested that during the last glaciation the Innuitian Ice Sheet existed over the eastern Queen Elizabeth Islands. This is based on the pattern of postglacial emergence over this area and the timing of driftwood penetration into the interisland channels. Alternative interpretations of both sets of data raise questions about the presence of the Innuitian Ice Sheet at this time. Field observations on northeastern Ellesmere Island, plus additional data pertaining to the presence of multiple tills and “old” radiometric dates on lacustrine deposits, shelly tills, and raised marine features suggest that the maximum glaciation over this region, equivalent to the Innuitian Ice Sheet, predates the last glaciation, Palaeoclimatic conditions are also discussed in relation to these data. It is suggested that during the last glaciation of the Queen Elizabeth Islands there was a convergent but not coalescent advance of the existing upland ice-fields. This noncontiguous ice cover over the Queen Elizabeth Islands is termed the Franklin Ice Complex. It is suggested that the term Innuitian Ice Sheet be reserved for contiguous older glaciations over this same area.

Type
Research Article
Copyright
University of Washington

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Andrews, J.T., (1970a). Present and postglacial rates of uplift for glaciated northern and eastern North America derived from postglacial uplift curves. Canadian Journal of Earth Science 7 703715.CrossRefGoogle Scholar
Andrews, J.T., (1970b). A geomorphic study of postglacial uplift with particular reference to Arctic Canada. Institute of British Geographers 156Special Publication No. 2.Google Scholar
Andrews, J.T., (1973a). The Wisconsin ice sheet: dispersal centers, problems of rates of retreat and climatic implications. Arctic and Alpine Research 5 185199.Google Scholar
Andrews, J.T., (1973b). Late Quaternary variations in oxygen and carbon isotopic compositions in Canadian Arctic marine bivalves. Palaeogeography, Palaeoclimatology, Palaeoecology 14 187192.Google Scholar
Andrews, J.T., Ives, J.D., (1972). Late- and post-glacial events (<10,000 BP) in the eastern Canadian Arctic with particular reference to the Cockburn moraines and break-up of the Laurentide Ice Sheet. Vassari, Y., Hyvarinen, H., Hicks, S. Climatic Changes in Arctic Areas in the Last Ten Thousand Years, A symposium held at Oulanka and Kevo 4–10 October 1971 Acta University Oulu 149174A3.Google Scholar
Arnold, K.C., (1965). Aspects of the glaciology of Meighen Island, Northwest Territories, Canada. Journal of Glaciology 5 399410.CrossRefGoogle Scholar
Barnett, D.M., Dredge, L.A., Edlund, S.A., (1976). Terrain Inventory: Bathurst, Cornwallis, and adjacent islands, Northwest Territories. Report of Activities, Geological Survey of Canada 201204Paper 76-1A.Google Scholar
Barr, W., (1971). Postglacial isostatic movement in northern Devon Island: a reappraisal. Arctic 24 249268.CrossRefGoogle Scholar
Bendix-Almgreen, S.E., Fristrup, B., Nichols, R.L., (1967). Notes on the geology and geomorphology of the Carey Øer, North-West Greenland. Meddelelser Om Grønland 164 118.Google Scholar
Blake, W. Jr., (1964). Preliminary account of the glacial history of Bathurst Island, Arctic Archipelago. Geological Survey of Canada 8Paper 64-30.Google Scholar
Blake, W. Jr., (1970). Studies of glacial history in Arctic Canada. I. Pumice, radiocarbon dates, and differential postglacial uplift in the eastern Queen Elizabeth Islands. Canadian Journal of Earth Science 7 634664.CrossRefGoogle Scholar
Blake, W. Jr., (1972). Climatic implications of radiocarbon-dated driftwood in the Queen Elizabeth Islands, Arctic Canada. Vasari, Y., Hyvarinen, H., Hicks, S. Climatic Changes in Arctic Areas during the Last Ten Thousand Years. A symposium held at Oulanka and Kevo 4–10 October 1971 Acta Univ. Oulu 77104A3, Geol. 1.Google Scholar
Blake, W. Jr., (1974). Studies of glacial history in Arctic Canada. II. Interglacial peat deposits on Bathurst Island. Canadian Journal of Earth Science 11 10251042.CrossRefGoogle Scholar
Blake, W. Jr., (1975). Radiocarbon age determinations and postglacial emergence at Cape Storm, southern Ellesmeres Island, Arctic Canada. Geografiska Annaler 57 171Ser. A.Google Scholar
Boesch, H., (1963). Notes on the geomorphological history. Axel Heiberg Island, Preliminary Report 1961–1962. McGill University Montreal 163167.Google Scholar
Brassard, G.R., (1971). The Mosses of northern Ellesmere Island, Arctic Canada. Ecology and Phytogeography, with an analysis for the Queen Elizabeth Islands. The Bryologist 74 234281.Google Scholar
Bryson, R.A., Wendland, W.M., Ives, J.D., Andrews, J.T., (1969). Radiocarbon isochrones on the disintegration of the Laurentide Ice Sheet. Arctic and Alpine Research 1 114.Google Scholar
Caflisch, T., (1972). Limnological investigations in Colour and Phantom Lakes. Axel Heiberg Island Research Projects McGill University, International Geographical Union 4956Miscellaneous Papers. F. Muller and Members of the Expedition.Google Scholar
Christie, R.L., (1967). Reconnaissance of the surficial geology of northeastern Ellesmere Island, Arctic Archipelago. Geological Survey of Canada, Bulletin 138 50(map).Google Scholar
Craig, B.G., Fyles, J.G., (1960). Pleistocene geology of Arctic Canada. Geological Survey of Canada 21Paper 60-10.Google Scholar
Dansgaard, W.S., Johnsen, J.J., Clausen, H.B., Langway, C.C. Jr., (1971). Climatic record revealed by the Camp Century ice core. Turekian, K.K. Late Cenozoic Glacial Ages Yale University Press 3756.Google Scholar
Davies, W.E., (1972). Landscape of Northern Greenland. C.R.R.E.L., Special Report 164 Cold Regions Research and Engineering Laboratory Hanover, New Hampshire 67.Google Scholar
Donn, W.L., Ewing, M., (1966). A theory of ice ages III. Science 152 17061712.Google Scholar
Dyck, W., Fyles, J.G., (1962). Geological Survey of Canada radiocarbon dates I. Radiocarbon 4 1326.Google Scholar
Dyck, W., Fyles, J.G., (1963). Geological Survey of Canada radiocarbon dates II. Radiocarbon 5 3955.Google Scholar
Dyck, W., Fyles, J.G., (1964). Geological Survey of Canada radiocarbon dates III. Radiocarbon 6 167181.Google Scholar
Dyck, W., Fyles, J.G., Blake, W. Jr., (1965). Geological Survey of Canada Radiocarbon dates IV. Radiocarbon 7 2446.Google Scholar
Dyck, W., Lowden, J., Fyles, J.G., Blake, W. Jr., (1966). Geological Survey of Canada radiocarbon dates V. Radiocarbon 8 96127.CrossRefGoogle Scholar
England, J., (1974). The glacial geology of Archer Fiord/Lady Franklin Bay, northeastern Ellesmere Island, N.W.T., Canada. University of Colorado Unpubl. Ph.D. Thesis.Google Scholar
England, J., (1976). Postglacial isobases and uplift curves in the Canadian and Greenland High Arctic. Arctic and Alpine Research 8 6178.CrossRefGoogle Scholar
England, J., Andrews, J.T., (1973). Broughton Island—a reference area for Wisconsin and Holocene chronology and sea level changes on eastern Baffin Island. Boreas 2 1732.CrossRefGoogle Scholar
Ewing, M., Donn, W.L., (1956). A theory of Ice Ages. Science 123 10611066.CrossRefGoogle ScholarPubMed
Ewing, M., Donn, W.L., (1958). A theory of Ice Ages II. Science 127 11591162.Google Scholar
Falconer, G., Andrews, J.T., Ives, J.D., (1965a). Late-Wisconsin end moraines in northern Canada. Science 147 608610.Google Scholar
Falconer, G., Ives, J.D., Løken, O.H., Andrews, J.T., (1965b). Major end moraines in eastern and central Arctic Canada. Geographical Bulletin 7 137153.Google Scholar
Flint, R.F., (1971). Glacial and Quaternary geology. Wiley New York .Google Scholar
Fyles, J.G., (1965). Surficial geology, western Queen Elizabeth Islands. Report of Activities, Geological Survey of Canada 35Paper 65-1.Google Scholar
Hattersley-Smith, G., (1969). Glacial features of Tanquary Fiord and adjoining areas of Northern Ellesmere Island, N.W.T.. Journal of Glaciology 8 2350.CrossRefGoogle Scholar
Hattersley-Smith, G., (1955). Northern Ellesmere Island, 1953 and 1954. Arctic 8 236other members of the expedition.Google Scholar
Hodgson, D.A., (1973). Landscape, and late-glacial history, head of Vendon Fiord, Ellesmere Island. Geological Survey of Canada 129136Paper 73-1.Google Scholar
Hopkins, D.M., (1972). The paleogeography and climatic history of Beringia during late Cenozoic time. Inter-Nord 12 121150.Google Scholar
Hunkins, K., Be, A.W.H., Opdyke, N.D., Mathieu, G., (1971). The late Cenozoic history of the Arctic Ocean. Turekian, K.K. Late Cenozoic Glacial Ages Yale University Press 215237.Google Scholar
Kind, N.V., (1967). Radiocarbon Chronology in Siberia. Hopkins, D.M. The Bering Land Bridge Stanford University Press 172192.Google Scholar
Koerner, R.M., (1966). Accumulation on the Devon Island ice cap, Northwest Territories, Canada. Journal of Glaciology 6 383392.Google Scholar
Krinsley, D.B., (1963). Glacial geology. Davies, W.E., Krinsley, D.B., Nicol, A.H. Geology of the North Star Bugy area, Northwest Greenland Meddelelser om Grønland 162 4866.Google Scholar
Lamb, H.H., Woodroffe, A., (1970). Atmospheric circulation during the last Ice Age. Quaternary Research 1 2958.Google Scholar
Leech, R.E., (1966). The spiders (Araneida) of Hazen Camp 81°49′ N, 71°18′ W. Quaestiones entomologicae 2 153212.Google Scholar
Løken, Ø.H., (1966). Baffin Island refugia older than 54,000 years. Science 153 13781380.CrossRefGoogle Scholar
Long, A., Mielke, J.E., (1967). Smithsonian Institution radiocarbon measurements IV. Radiocarbon 9 368381.Google Scholar
Lowdon, J.A., Robertson, I.M., Blake, W. Jr., (1971). Geological Survey of Canada radiocarbon dates XI. Geological Survey of Canada, Paper 71-7 255324.Google Scholar
Lowden, J.A., Blake, W. Jr., (1973). Geological Survey of Canada radiocarbon dates XIII.. Geological Survey of Canada, Paper 73-7 61.Google Scholar
Mathews, J.V., (1974). Wisconsin environment of interior Alaska: pollen and macro fossil analysis of a 27 meter core from the Isabella Basin (Fairbanks Alaska). Canadian Journal of Earth Science 11 828841.Google Scholar
Mielke, J.E., Long, A., (1969). Smithsonian Institution radiocarbon measurements V. Radiocarbon 11 163182.Google Scholar
Miller, G.H., Dyke, A.S., (1974). Proposed extent of late Wisconsin Laurentide Ice on eastern Baffin Island. Geology 2 125130.Google Scholar
Müller, F., (1966). Evidence of climatic fluctuations on Axel Heiberg Island, Canadian Arctic Archipelago. Google Scholar
Fletcher, J.O. Proceedings of Symposium on the Arctic Heat Budget and Atmospheric Circulation. Rand Corp Santa Monica 135156.Google Scholar
Müller, F., (1973). Symposium Discussion, IGU/INQUA Symposium held at the 22nd International Geographical Congress. Montreal, Canada, August 15, 1972 Arctic and Alpine Research 5 231.Google Scholar
Pheasant, D.R., (1971). The glacial chronology and glacio-isostasy of the Narpaing/Quajon Fiord area, Cumberland Peninsula, Baffin Island. University of Colorado Unpubl. Ph.D. Thesis.Google Scholar
Pheasant, D.R., Andrews, J.T., (1973). Wisconsin glacial chronology and relative sea level movements, Narpaing Fiord, Broughton Island area, eastern Baffin Island, N.W.T.. Canadian Journal of Earth Science 10 16211641.Google Scholar
Prest, V.K., (1969). Retreat of Wisconsin and recent ice in North America. Geological Survey of Canada Map 1257A.Google Scholar
Prest, V.K., (1970). Quaternary geology of Canada. Douglas, R.J. Geology and economic minerals of Canada. 5th ed. Economic Geology Report Geological Survey of Canada Ottawa 676764.Google Scholar
Shaw, D.M., Donn, W.L., (1971). A thermodynamic study of arctic palaeoclimatology. Quaternary Research 1 175187.Google Scholar
Sim, V.W., (1961). A note on high-level marine shells, Ellesmere Island, N.W.T.. Geographical Bulletin 16 120123.Google Scholar
Smith, D.I., (1959). Geomorphology. Operation Hazen. Narrative and Preliminary Reports, 1957–1958 Defense Research Board Canada 5860.Google Scholar
Smith, D.I., (1961). The glaciation of northern Ellesmere Island. Folia Geographica Danica 9 224234.Google Scholar
Tanner, W.F., (1965). Cause and development of an ice age. Journal of Glaciology 73 413430 Journal of Glaciology 73 93.Google Scholar
Tedrow, J.C.F., (1970). Soil investigations in Inglefield Land, Greenland. Meddelelser Om Grønland 188 93.Google Scholar
Troelsen, J.C., (1952). Geological investigations in Ellesmere Island. Arctic 5 199210.Google Scholar
Walcott, R.I., (1970a). Flexural rigidity, thickness and viscosity of the lithosphere. Journal of Geophysical Research 75 39413954.Google Scholar
Walcott, R.I., (1970b). Isostatic response to loading of the crust in Canada. Canadian Journal of Earth Science 7 716727.Google Scholar
Walcott, R.I., (1972). Late Quaternary vertical movements in eastern North America: Quantitative evidence of glacio-isostatic rebound. Review of Geophysics and Space Physics 10 849884.CrossRefGoogle Scholar
Williams, J., Barry, R.G., Washington, W.M., (1974). Simulation of the atmospheric circulation using the NCAR global circulation model with Ice Age boundary conditions. Journal of Applied Meteorology 13 305317.Google Scholar