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On the origin of Grunty Fen and other landforms in southern Fenland, Cambridgeshire

Published online by Cambridge University Press:  01 May 2009

R. G. West
Affiliation:
Subdepartment of Quaternary Research, University of Cambridge, Downing Street, Cambridge CB2 3EA, U.K.

Abstract

Depressions and embayments of the southern Fenland margin and islands are ascribed to periglacial processes in the Devensian Stage (last cold stage) of the Pleistocene. The processes, which may be included in the general term thermokarst, include thermal erosion as an important element. The age of the active landscape evolution appears to be Late Devensian. The Crowland Bed of the Fenland Pleistocene succession is a product of these processes.

Type
Articles
Copyright
Copyright © Cambridge University Press 1991

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References

Are, F. E. 1979. The present state and problems of the investigation of permafrost shores of reservoirs. Draft Translation No. 714, Cold Regions Research and Engineering Laboratory, New Hampshire, U.S.A.Google Scholar
Are, F. E., Balobayev, V. T. & Bosikov, N. P. 1979. Characteristics of the reshaping of shorelines of thermokarst lakes of central Yakutia. Draft Translation No. 711, Cold Regions Research and Engineering Laboratory, New Hampshire, U.S.A.Google Scholar
Astbury, A. K. 1958. The Black Fens. Cambridge: Golden Head Press.Google Scholar
Bell, F. G. 1970. Late Pleistocene floras from Earith, Huntingdonshire. Philosophical Transactions of the Royal Society of London, Series B, 258, 347–78.Google ScholarPubMed
Booth, S. J. 1982. The sand and gravel resources of the country around Whittlesey, Cambridgeshire. Mineral Assessment Report of the Institute of Geological Sciences, No. 93.Google Scholar
Burn, C. R. & Lewkowicz, A. G. 1990. Canadian Land-form Examples – 17. Retrogressive thaw slumps. Canadian Geographer 34, 273–6.CrossRefGoogle Scholar
Burton, R. G. O. 1976. Possible thermokarst features in Cambridgeshire. East Midland Geographer 6, 230–40.Google Scholar
Burton, R. G. O. 1987. The role of thermokarst in landscape development in eastern England. In Periglacial Processes and Land-forms in Britain and Ireland (ed. Boardman, J.), pp. 203–8. Cambridge University Press.Google Scholar
Chapman, M. R., Detterman, R. L. & Mangus, M. D. 1964. Geology of the Killik–Etivuk Rivers Region, Alaska. United States Geological Survey Professional Paper 303-F.Google Scholar
Czudek, T. & Demek, J. 1970. Thermokarst in Siberia and its influence on the development of lowland relief. Quaternary Research 1, 103–20.CrossRefGoogle Scholar
Gallois, R. W. 1988. Geology of the country around Ely. Memoirs of the British Geological Survey, Sheet 173.Google Scholar
Gozzard, J. R. 1982. The sand and gravel resources of the country around Chatteris, Cambridgeshire. Mineral Assessment Report of the Institute of Geological Sciences, No. 124.Google Scholar
Harry, D. G. & French, H. M. 1983. The orientation and evolution of thaw lakes, south-west Banks Island, Canadian Arctic. Permafrost: Fourth International Conference, Proceedings, 456–61. Washington: National Academy Press.Google Scholar
Horton, A. 1989. Geology of the Peterborough District. Memoirs of the British Geological Survey, Sheet 158.Google Scholar
Mackay, J. R. 1963. The Mackenzie Delta Area, N.W.T. Memoir 8, Geographical Branch, Mines and Technical Surveys, Ottawa.CrossRefGoogle Scholar
Seale, R. S. 1975. Soils of the Ely District (Sheet 173). Memoirs of the Soil Survey of Great Britain.Google Scholar
Ventris, P. A. 1986. The Nar Valley. In The Nar Valley and North Norfolk, Field Guide (eds West, R. G. and Whiteman, C. A.), pp. 755. Coventry: Quaternary Research Association.Google Scholar
West, R. G. 1987. A note on the March Gravels and Fenland sea levels. Bulletin of the Geological Society of Norfolk 37, 2734.Google Scholar