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The margin of a Middle Pleistocene ice advance at Tottenhill, Norfolk, England

Published online by Cambridge University Press:  01 May 2009

P. L. Gibbard ,
R. G. West ,
R. Andrew  and
M. Pettit
P. L. Gibbard
Affiliation:
Subdepartment of Quaternary Research, Botany School, University of Cambridge, Downing Street, Cambridge CB2 3EA, U.K.
R. G. West
Affiliation:
Subdepartment of Quaternary Research, Botany School, University of Cambridge, Downing Street, Cambridge CB2 3EA, U.K.
R. Andrew
Affiliation:
Subdepartment of Quaternary Research, Botany School, University of Cambridge, Downing Street, Cambridge CB2 3EA, U.K.
M. Pettit
Affiliation:
Subdepartment of Quaternary Research, Botany School, University of Cambridge, Downing Street, Cambridge CB2 3EA, U.K.
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Abstract

Exposures at Tottenhill quarry, west Norfolk, are described. Detailed sediment logs, lateral sediment distribution and facies relationships are presented, together with palaeocurrent measurements and pebble counts. It is concluded that the sequence represents a delta-like subaquatic fan accumulation that was deposited by glacier meltwater at the eastern margin of the present Fenland. The ice must have entered the area from the west to northwest. An arctic leaf flora is associated with still water pool sediments within the fan sequence. Pollen assemblages appear to be largely derived by reworking from underlying in situ temperate stage sediments which are correlated with the Hoxnian Stage.

The age of the deposits is discussed and it is concluded that the glaciation concerned must date from the early part of the Wolstonian Stage on the basis of the previously established stratigraphical sequence in the area.

Type
Articles
Information
Geological Magazine , Volume 129 , Issue 1 , January 1992 , pp. 59 - 76
Copyright
Copyright © Cambridge University Press 1992

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References

Allen, J. R. L. 1970. The sequence of sedimentary structures in turbidites, with special reference to dunes. Scottish Journal of Geology 6, 146–61.CrossRefGoogle Scholar
Bowen, D. Q., Rose, J., McCabe, A. M. & Sutherland, D. 1986. Correlation of Quaternary glaciations in England, Ireland, Scotland and Wales. Quaternary Science Reviews 5, 299340.CrossRefGoogle Scholar
Bristowe, C. R. & Cox, F. C. 1973. The Gipping Till: a reappraisal of East Anglian glacial stratigraphy. Journal of the Geological Society, London 129, 137.CrossRefGoogle Scholar
Cameron, T. D. J., Stoker, M. S. & Long, D. 1987. The history of Quaternary sedimentation in the UK sector of the North Sea Basin. Journal of the Geological Society, London 144, 4358.CrossRefGoogle Scholar
Church, M. & Gilbert, R. 1975. Proglacial fluvial and lacustrine environments. In Glaciofluvial and Glaciolacustrine Sedimentation (eds. Jopling, A. W. and McDonald, B. C.), pp. 22100. Society of Economic Paleontologists and Mineralogists Special Publication no. 23.CrossRefGoogle Scholar
Clapham, A. R., Tutin, T. G. & Warburg, E. F. 1962. Flora of the British Isles, 2nd ed. Cambridge University Press.Google Scholar
Cohan, J. M. 1979. Deltaic sedimentation in glacial lake Blessington, County Wicklow, Ireland. In Moraines and Varves (ed. Ch., Schl¨chter), pp. 357–67. Rotterdam: Balkema.Google Scholar
Ehlers, J., Gibbard, P. L. & Rose, J. 1991. Glaciation of Britain and Europe: general overview. In Glacial Deposits of Britain and Ireland (eds J, Ehlers, P., Gibbard and J., Rose), pp. 493501. Rotterdam: Balkema.Google Scholar
Fyfe, G. F. 1990. The effect of water depth on ice-proximal glaciolacustrine sedimentation: Salpausselkä I, southern Finland. Boreas 19, 147–64.CrossRefGoogle Scholar
Gallois, R. W. 1978 a. Geological investigations for the Wash water storage scheme. Reports of the Institute of Geological Sciences, No. 78/19.Google Scholar
Gallois, R. W. 1978 b. The Pleistocene history of west Norfolk. Bulletin of the Geological Society of the Norfolk 30, 338.Google Scholar
Gibbard, P. L. & Turner, C. 1990. Cold stage type sections: some thoughts on a difficult problem. Quaternaire 1, 3340.CrossRefGoogle Scholar
Gustavson, T. C. Ashley, G. M. & Boothroyd, J. C. 1975. Depositional sequences in glaciolacustrine deltas. In Glaciofluvial and glaciolacustrine sedimentation (eds Jopling, A. V. and McDonald, B. C.), pp. 264–80. Society of Economic Paleontologists and Mineralogists, Special Publication no. 23.CrossRefGoogle Scholar
Hall, A. R. 1980. Late Pleistocene deposits at Wing, Rutland. Philosophical Transactions of the Royal Society of London, series B, 289, 135–64.Google ScholarPubMed
Jessen, K. & Milthers, V. 1928. Stratigraphical and palaeontological studies of interglacial freshwater deposits in Jutland and north-west Germany. Danmarks Geologiske Undersøgelse, II Raekke, No. 48.Google Scholar
Jopling, A. V. & Walker, R. G. 1968. Morphology and origin of ripple-drift cross lamination, with examples from the Pleistocene of Massachusetts. Journal of Sedimentary Petrology 38, 971984.Google Scholar
Joon, B., Laban, C. & Van Der Meer, J. J. M. 1990. The Saalian glaciation in the Dutch part of the North Sea. Geologie en Mijnbouw 69, 151–8.Google Scholar
Kellaway, G. A. 1972. Development of non-diastrophic Pleistocene structures in relation to climate and physical relief in Britain. International Geological Congress, 24th Session, Montreal, section 12, 136–46.Google Scholar
Lewis, S. G. & Rose, J. 1991. Tottenhill, Norfolk (TF 639 120). In Central East Anglia and the Fen Basin, Field Guide (eds Lewis, S. G., Whiteman, C. A. and Bridgland, D. R.), pp. 145–8. Quaternary Research Association, Cambridge.Google Scholar
Maizels, J. K. 1989. Sedimentology, palaeoflow dynamics and flood history of Jökulhaup deposits: paleo-hydrology of Holocene sediment sequences in southern Iceland. Journal of Sedimentary Petrology 59, 204–33.Google Scholar
Mitchell, G. F., Penny, L. F., Shotton, F. W. & West, R. G. 1973. A correlation of the Quaternary deposits of the British Isles. Geological Society of London, Special Report 4, 99 pp.Google Scholar
Perrin, R. M. S., Rose, J. & Davies, H. 1979. The distribution, variations and origins of pre-Devensian tills in Eastern England. Philosophical Transactions of the Royal Society of London. Series B, 293, 385418.Google Scholar
Powell, R. 1990. Glacimarine processes at grounding-line fans and their growth to ice contact deltas. In Glacimarine Environments: Processes and Sediments (eds Dowdeswell, J. A. and Scourse, J. D.), pp. 5373. Geological Society Special Publication No. 53.Google Scholar
Rappol, M., Haldorsen, S., Jørgensen, P., van der Meer, J. J. M. & Stoltenberg, H. M. P. 1989. Composition and origin of petrographically- stratified thick till in the northern Netherlands and a Saalian glaciation model for the North Sea basin. Mededelingen van de Werkgroep voor Tertiare en Kwartaire Geologie 26, 3164.Google Scholar
Rose, J. 1987. The status of the Wolstonian glaciation in the British Quaternary. Quaternary Newsletter 53, 19.Google Scholar
Rust, B. P. 1977. Mass flow deposits in a Quaternary succession near Ottawa, Canada: diagnostic criteria for subaqueous outwash. Canadian Journal of Earth Sciences 14, 175–84.CrossRefGoogle Scholar
Selley, R. C. 1988. Applied Sedimentology. London, San Diego: Academic Press.Google Scholar
Shotton, F. W. 1933. The Wolstonian Stage of the British Pleistocene in and around its type area of the English Midlands. Quaternary Science Reviews 2, 261–80.CrossRefGoogle Scholar
Shotton, F. W. 1986. Glaciations in the United Kingdom. Quaternary Science Reviews 5, 293–7.CrossRefGoogle Scholar
Smith, N. & Ashley, G. 1985. Proglacial lacustrine environment. In Glacial Sedimentary Environments (eds G., Ashley, J., Shaw and N., Smith), pp. 135275. Society of Economic Paleontologists and Mineralogists Publication no. 16.CrossRefGoogle Scholar
Straw, A. 1983. Pre-Devensian glaciation of Lincolnshire (Eastern England) and adjacent areas. Quaternary Science Reviews 2, 239–60.CrossRefGoogle Scholar
Straw, A. 1991. Glacial deposits of Lincolnshire and adjoining areas. In Glacial Deposits in Britain and Ireland (eds J., Ehlers, P., Gibbard and J., Rose), pp. 213–21. Rotterdam: A. A. Balkema.Google Scholar
Sumbler, M. 1983 a. A new look at the Wolstonian glacial deposits of central England. Proceedings of the Geologists' Association 94, 2331.CrossRefGoogle Scholar
Sumbler, M. 1983 b. The type Wolstonian sequence – some further observations. Quaternary Newsletter 40, 36–9.Google Scholar
Turner, C. 1970. The Middle Pleistocene deposits at Marks Tey, Essex. Philosophical Transactions of the Royal Society of London Series B, 257, 373440.Google Scholar
Tutin, T. G. et al. 19641980. Flora Europaea. Cambridge University Press.Google Scholar
Ventris, P. A. 1984. Comments on pre-Devensian glaciation of Lincolnshire (Eastern England) and adjacent areas. Quaternary Science Reviews 3, vii–viii.CrossRefGoogle 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
Walker, R. G. 1984. Fades and Fades Models. 517 pp. Geosciences Canada reprint series No. 1. Geological Association of Canada: St John's, Newfoundland.Google Scholar
West, R. G. 1980. Pleistocene forest history in East Anglia. New Phytologist 85, 571622.CrossRefGoogle Scholar
West, R. G. 1991. Pleistocene palaeoecology of central Norfolk: a study of environments through time. Cambridge University Press.Google Scholar