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The English Channel (La Manche): evolution, oceanography and sediment dynamics – a synthesis

By
D. Paphitis
D. Paphitis
1
School of Ocean and Earth Science, University of Southampton, National Oceanography Centre, European Way, Southampton SO14 3ZH, UK
3
Present Address: D.P. Paralia C.R.A.M. CY, Charilaou Tricouppi 8, 8020 Paphos, Cyprus
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A. C. Bastos
A. C. Bastos
1
School of Ocean and Earth Science, University of Southampton, National Oceanography Centre, European Way, Southampton SO14 3ZH, UK
4
Present Address: Departmento de Ecologia e Recursos Naturais, DERN, Universidade Federal do Espirito Santo, Av. Fernando Ferrari, s/n Goiabeiras Vitoria-Es-CEP, 29060-900, Brazil
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G. Evans
G. Evans
1
School of Ocean and Earth Science, University of Southampton, National Oceanography Centre, European Way, Southampton SO14 3ZH, UK
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M. B. Collins
M. B. Collins
1
School of Ocean and Earth Science, University of Southampton, National Oceanography Centre, European Way, Southampton SO14 3ZH, UK
2
Marine Research Division, AZTI Tecnalia, Herrera Kaia, Portu aldea z/g, E20110 Pasia, Gipuzkoa, Spain
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Published:
January 01, 2010

Abstract

The English Channel is a shallow epicontinental sea, linking the Atlantic Ocean and the North Sea. It is an excellent example of a tidally dominated shallow marine system, with limited sediment sources and extensive reworking of a relatively thin sediment cover. It is bordered and floored by a range of rock types, ranging from Palaeozoic to Tertiary in age. It has a variety of coastlines, including cliffs, rias, estuaries and coastal sediment accumulations, ranging from gravel and sand beaches with aeolian dunes to broad intertidal flats. The sediment is supplied by (i) rivers, with the French side of the system dominating the fluviatile sediment supply; (ii) erosion of cliffs and wave-cut platforms, which again is more important along the French coast; (iii) reworking of the sea floor; (iv) the breakdown ofbenthonic skeletal-debris, which is particularly important in the WSW towards the open ocean; and (v) some input (mainly of biogenic planktonic origin) from the Atlantic Ocean. The system loses fine-grained sediment to the Atlantic Ocean in the WSW and the North Sea to the ENE and as a result of estuarine infilling. Anthropogenic changes are caused mainly by large-scale dredging of coarser-grained material for the construction industry, and within some of the estuaries (e.g. in the west of England) are the dumping sites of mining waste.

The area is dominated by strong tidal currents and by waves that originate mainly from the WSW and which only affect the shallow water areas during storms. The central area of the Channel is covered by coarse-grained material, since the finer fractions have been scoured away by the tidal action; this has been identified as a 'bedload parting zone'. Wide areas are covered by sand-sized sediments, fashioned into a variety of bedforms: ripples, sandwaves, longitudinal bed-forms and sandbanks. Fine-grained sediments are confined to coastal embayments, rias, estuaries and open-coast intertidal flats. A thin superficial blanket of Holocene sediment covers an important unconformity whose final development occurred during and succeeding the Flandrian Transgression. If this is preserved, it will form an interesting sequence of deposits where the facies distribution is dominated by oceanographic processes and not merely by water depth and proximity to the coastline.

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Contents

The Micropalaeontological Society, Special Publications

Micropalaeontology, Sedimentary Environments and Stratigraphy: a Tribute to Dennis Curry (1912–2001)

Geological Society of London
Volume
4
ISBN electronic:
9781862396227
Publication date:
January 01, 2010

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