Fluidization of wet sediments during the emplacement and cooling of various igneous bodies

Fluidization of wet sediments during the emplacement and cooling of various igneous bodies

During the emplacement and cooling of igneous bodies, fluidization of wet sediment by water vapour may occur by heating, or by pressure relief during the opening of fractures. Momentary fluidization causes sediment reconstitution and local transport. Continuous fluidization can result in substantial...

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Bibliographic Details
Published in:Journal of the Geological Society Vol. 139; no. 1; pp. 21 - 33
Main Author: Kokelaar, B. Peter
Format: Journal Article
Language:English
Published: Geological Society of London 01-01-1982
The Geological Society of London
Subjects:
andesites
ash-flow tuffs
Ayrshire Coast
Capel Volcanic Formation
clastic rocks
cooling
Devonian
emplacement
Europe
fluidization
genesis
Great Britain
igneous and metamorphic rocks
igneous rocks
intrusions
Midland Valley
Moelwyn Hills
Old Red Sandstone
Ordovician
Paleozoic
petrology
Ramsey Island
rhyolites
Scotland
sedimentary rocks
sills
Snowotonia
United Kingdom
volcanic rocks
Wales
water vapor
Western Europe
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Summary:During the emplacement and cooling of igneous bodies, fluidization of wet sediment by water vapour may occur by heating, or by pressure relief during the opening of fractures. Momentary fluidization causes sediment reconstitution and local transport. Continuous fluidization can result in substantial sediment displacement. Theoretical considerations show that fluidization due to heating is not likely to occur at depths where pressure is much greater than 312 bars. Studies of the emplacement of sills of andesite (Ayrshire), fluid rhyolite (Ramsey Island) and viscous rhyolite (Moelwyn Hills) recognize a wide range of phenomena attributable to wet sediment fluidization and in places modify existing interpretations. The transgressive bases of the subaqueously welded ash-flow tuffs of the Capel Curig Volcanic Formation are consistent with emplacement attended by fluidization of the subjacent sediment. Evidently fluidization is a means by which large volumes of wet sediment can be replaced by igneous material with minimal disturbance of the remaining host. Also, fluidization can result in exceptionally complex contact relationships between sedimentary host and intrusive rocks, and can cause fractures formed during cooling to be thoroughly pervaded by sediment. Fluidization is commonly associated with the formation of peperites.
ISSN:0016-7649
2041-479X
DOI:10.1144/gsjgs.139.1.0021