London-Brabant Island Totally Explained

Everything about The London-brabant Island totally explained

The London-Brabant Island goes under a number of names such as London Island, London Platform, London-Brabant Massif, Wales-Brabant Massif or, in French texts, Anticlinal ardennais du Brabant, Terre de St-Georges et du Brabant or Bloc du Midland et du Brabant. It was an anticlinal ridge extending from the Rhineland to the sites of East Anglia and the middle Thames. In a sense, it still exists but in Britain, it's buried. It was part of the terrane, Avalonia. Compass points mentioned below relate to the modern orientation of the island.

Formation

To state events very simply, the rocks of which it's formed are mainly of the Precambrian, Cambrian, Ordovician and Silurian but the anticlinal folding came with the Caledonian Orogeny at the end of the Silurian and in the early Devonian, when the continent was drifting through the southern latitudes. As it passed through the dry latitudes represented today by the Namib Desert¹, it was eroded and the soils became Laterite represented by the Old Red Sandstone which shows its presence in the red soils of Devonshire. The strata, particularly of the Precambrian are complex. They are also poorly understood because they're beyond the reach of most boreholes.

The Carboniferous

The period from which the island has exercised most economic influence on modern Europe was the Carboniferous. As the continent was drifting past the Equator, on the island's shores, there grew a rich tropical forest swamp. On the island's southern shore, it left the Dinantian, Namurian and Westphalian coal fields of France, Belgium and western Germany. See Aachener Revier

(in German).
To its northwest, the thinner crust between it and the Market Weighton Axis was crumpled between the blocks leaving low ridges of wet land between strips of water such as the Widmerpool Gulf. On the wet land, the coal fields of Leicestershire, Nottinghamshire and Derbyshire were deposited. These extend further east but are now at ever greater depth. At the modern east Yorkshire and north Lincolnshire coast for example, their upper surface is at about 2km depth. These Carboniferous beds are part of a system linking with those of Westphalia, around the north side of the island. On the north Norfolk coast, the line of the Carboniferous shore roughly coincides with the modern one.²

The Permian and Triassic

As the continent drifted northwards, away from the Equator, through the latitudes represented today by the Sahara desert, the erosion was renewed. This time, the lateritic soils are represented by the New Red Sandstone and the red soils of Leicestershire and Rutland.
The early Permian was the time of the height of the Variscan earth movements as the crust to the south was crushed against the island. The great disturbances seen at the surface in Brittany, the Ardennes and the Rhineland also lie below the Paris Basin. They fade out in the gentler anticline of the downs and Weald of southern England which overlies the edge of the island. The axis of this anticline is normally called the northern Variscan front. However, the chalk of the downs is Upper Cretaceous, so the process continued well after the Permian. The point in the present context is that the stability of the island contrasts with the relatively unstable crust to its south, which was forced into a long mountain ridge.
To the north, economically important things were happening. Western Britain was pushed up as part of the Variscan Orogeny while the east of Britain, including the island began to subside leaving a broad basin, north of the island and south of Scandinavia. This formed a shallow sea in a very dry climate. Desert sands and salt basins were a result but there are also mudstones. This provided the alternating porous and imperveous rocks which have trapped the gas escaping when the coal measures, below were subjected to geothermal heat. This has left a group of gas fields off the Norfolk coast. That is to say, off the coast of the island.

Rhaetic Transgression

In the early Jurassic, the Rhaetic sea flooded much of the Permian plain. On the margin of the London-Brabant Island, the estuarine conditions which left the Lower Estuarine Series prevailed for a while before the sea rose so as to deposit the Lincolnshire Limestones before falling again so that the Upper Estuarine Series was left. Again the sea rose to deposit the Blisworth Limestone, the Blisworth Clay and the Upper Jurassic clays.
The same general pattern occurred in France leaving the Paris Basin flooded from Anjou to Luxembourg.

Cretaceous

By the Cretaceous the island had sunk much further in relation to the sea level. Before the end of the period, the British end was buried in Upper Cretaceous chalk. This happened because the Pacific Ocean bed swelled up causing the world’s seas to rise but also, the process released much carbon dioxide. That caused global warming, melted the ice caps and was slowly converted to calcium carbonate which was precipitated in the water.

Modern existence

It is now best viewed as a block of dense crust floating deeply sunk into the mantle and overlain with less dense superficial rocks. It depresses the Moho to depths greater than 40 kilometres as against a figure at the top of the continental shelf of about thirty and less than fifteen below oceanic depths.³ The map shows that there's some tendency for such seismic activity as there's in the region, to occur around the margin of the massif. It was into this pattern that the 2008 Lincolnshire earthquake, marked by an orange star, fell.

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