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The '''Weald–Artois anticline''' is a large [[anticline]], a geological structure running between the regions of the [[Weald]] in southern [[England]] and the [[Artois]] in northeastern [[France]]. The fold formed during the [[Alpine orogeny]], from the late [[Oligocene]] to middle [[Miocene]]. The [[fold (geology)|folding]] resulted in [[tectonic uplift|uplift]] of about 180 metres,<ref>[http://www-qpg.geog.cam.ac.uk/research/projects/tertiaryrivers/neog.html Tertiary Rivers: Neogene (Miocene and Pliocene)], [[Cambridge Quaternary]], [[Cambridge University]]</ref> though concurrent [[erosion]] may have substantially reduced the actual height of the resulting [[chalk]] ridges.
The '''Weald–Artois anticline''' is a large [[anticline]], a geological structure running between the regions of the [[Weald]] in southern [[England]] and the [[Artois]] in northeastern [[France]]. The fold formed during the [[Alpine orogeny]], from the late [[Oligocene]] to middle [[Miocene]]. The [[fold (geology)|folding]] resulted in [[tectonic uplift|uplift]] of about 180 metres,<ref>[http://www-qpg.geog.cam.ac.uk/research/projects/tertiaryrivers/neog.html Tertiary Rivers: Neogene (Miocene and Pliocene)], [[Cambridge Quaternary]], [[Cambridge University]]</ref> though concurrent [[erosion]] may have substantially reduced the actual height of the resulting [[chalk]] ridges.


As is the case with all anticlines, older rock strata are found in the core of the structure. These are in this case [[Upper Jurassic]] and [[Lower Cretaceous]] strata. The eastern part of the ridge, the Weald of [[Kent]], [[Sussex]] and [[Surrey]] has been greatly eroded, with the presumed chalk surface removed to expose older, Lower Cretaceous rocks ([[Wealden Group]]) and a small area of Upper Jurassic [[Purbeck Beds]].<ref>Gallois R.W. & Edmunds M.A. (4th Ed 1965), ''The Wealden District'', British Regional Geology series, British Geological Survey, ISBN 011884078-9</ref> On the French side of the English Channel more Upper Jurassic rocks crop out in a small area around [[Boulogne-sur-Mer]] and [[Desvres]], where mainly [[Upper Jurassic]] deposits are exposed.<ref>''Carte Géologique de la France'', BRGM, Orléans</ref> At the flanks of the anticline outcrops of the (younger) Upper Cretaceous [[Chalk Group|Chalk]] occur. The chalk survives as a rim of inward-facing [[escarpment]]s, forming the [[North Downs]] and [[South Downs]]. The Chalk forms characteristic white [[cliff]]s on both sides of the English Channel, an example are the [[white cliffs of Dover]].
As is the case with all anticlines, older rock strata are found in the core of the structure. These are in this case [[Upper Jurassic]] and [[Lower Cretaceous]] strata. The eastern part of the ridge, the Weald of [[Kent]], [[Sussex]] and [[Surrey]] has been greatly eroded, with the presumed chalk surface removed to expose older, Lower Cretaceous rocks ([[Wealden Group]]) and a small area of Upper Jurassic [[Purbeck Beds]].<ref>Gallois R.W. & Edmunds M.A. (4th Ed 1965), ''The Wealden District'', British Regional Geology series, British Geological Survey, ISBN 011884078-9</ref> On the French side of the English Channel more [[Upper Jurassic]] rocks crop out in a small area around [[Boulogne-sur-Mer]] and [[Desvres]].<ref>''Carte Géologique de la France'', BRGM, Orléans</ref> At the flanks of the anticline outcrops of the (younger) Upper Cretaceous [[Chalk Group|Chalk]] occur. The chalk survives as a rim of inward-facing [[escarpment]]s, forming the [[North Downs]] and [[South Downs]]. The Chalk forms characteristic white [[cliff]]s on both sides of the English Channel, an example are the [[white cliffs of Dover]].


==Formation of the English Channel==
==Formation of the English Channel==

Revision as of 20:55, 28 March 2010

Geologic map of southeast England and the region around the English Channel, showing the Weald-Artois anticline in its regional context.

The Weald–Artois anticline is a large anticline, a geological structure running between the regions of the Weald in southern England and the Artois in northeastern France. The fold formed during the Alpine orogeny, from the late Oligocene to middle Miocene. The folding resulted in uplift of about 180 metres,[1] though concurrent erosion may have substantially reduced the actual height of the resulting chalk ridges.

As is the case with all anticlines, older rock strata are found in the core of the structure. These are in this case Upper Jurassic and Lower Cretaceous strata. The eastern part of the ridge, the Weald of Kent, Sussex and Surrey has been greatly eroded, with the presumed chalk surface removed to expose older, Lower Cretaceous rocks (Wealden Group) and a small area of Upper Jurassic Purbeck Beds.[2] On the French side of the English Channel more Upper Jurassic rocks crop out in a small area around Boulogne-sur-Mer and Desvres.[3] At the flanks of the anticline outcrops of the (younger) Upper Cretaceous Chalk occur. The chalk survives as a rim of inward-facing escarpments, forming the North Downs and South Downs. The Chalk forms characteristic white cliffs on both sides of the English Channel, an example are the white cliffs of Dover.

Formation of the English Channel

The white cliffs of Dover as seen from Cap Gris-Nez. The Straits of Dover were carved out of the anticline surface layer, presumably chalk, by glacial lake outburst floods

The English Channel itself is geologically speaking a very young feature, with no relation to the Weald-Artois Anticline. The anticline continues uninterrupted in the subsurface of the Channel.

During the Pleistocene an ice sheet blocked the flow of rivers including the Thames and Rhine to the North Sea, resulting in a large proglacial lake to the northeast of the ridge. To the southwest, low-lying land connected the island that is now Great Britain to continental Europe. Two overtoppings of this ridge severed this peninsular connection.

  • The first glacial lake outburst flood occurred approximately 425,000 years ago, resulting in a waterfall of up to a million cubic meters per second that gouged out the Straits of Dover and flooded the low-lying land.
  • The second, which may have been larger than the first, occurred approximately 225,000 years ago and finally severed the slender peninsula.[4][5]

During the most recent, Devensian glacial period, lowering of sea levels joined the British Isles once more to the continental mainland of Europe.

References

  1. ^ Tertiary Rivers: Neogene (Miocene and Pliocene), Cambridge Quaternary, Cambridge University
  2. ^ Gallois R.W. & Edmunds M.A. (4th Ed 1965), The Wealden District, British Regional Geology series, British Geological Survey, ISBN 011884078-9
  3. ^ Carte Géologique de la France, BRGM, Orléans
  4. ^ Schiermeier, Quirin (2007-07-18). "The megaflood that made Britain an island". Nature. Retrieved 2008-01-31.
  5. ^ Marks, Paul (2007-07-18). "Dam-busting "megaflood" made Britain an island". New Scientist. Retrieved 2008-01-31.


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