Mechanisms and controls on the formation of sand intrusions

doi:10.1144/0016-764902-025

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Journal of the Geological Society; 2002; v. 159; issue.5; p. 605-617;
DOI: 10.1144/0016-764902-025
© 2002 Geological Society of London

Original Article

Mechanisms and controls on the formation of sand intrusions

RICHARD J. H. JOLLY¹^,2 & LIDIA LONERGAN¹

¹ ¹Department of Earth Science and Engineering, Imperial College, Royal School of Mines, Prince Consort Road, London SW7 2BP, UK (e-mail: l.lonergan@ic.ac. uk)
² ²Present address: BP Exploration, Chertsey Road, Sunbury-on-Thames TW16 7LN, UK

Sandstone intrusions are found in all sedimentary environmentsbut have been reported most commonly from deep-water settings.They also appear to be more frequently developed in tectonicallyactive settings where applied tectonic stresses facilitate developmentof high fluid pressures within the sediments. A variety of mechanismshave been cited as triggers for clastic intrusions. These includeseismicity induced liquefaction, application of tectonic stresses,excess pore fluid pressures generated by deposition-relatedprocesses and the influx of an overpressured fluid from deeperwithin the basin into a shallow sand body. The formation ofsandstone dykes and sills is investigated here by consideringthem as natural hydraulic fractures. When the seal on an unconsolidated,overpressured sand body fails the resulting steep hydraulicgradient may cause the sand to fluidize. The fluidized slurrycan then inject along pre-existing or new fractures to formclastic intrusions. The scale and the geometry of an intrusivecomplex is governed by the stress state, depth and pre-existingjoints or faults within the sedimentary succession, as wellas the nature of the host sediments. For the simplest tectonicsetting, where the maximum stress in a basin is vertical (gravitationalloading), small irregular intrusions commonly result in theformation of sills at shallow depths within a few metres ofthe surface, whereas at greater depth dykes and sills formingclastic intrusion networks are more typical. A simple relationshipis derived to calculate the maximum burial depth at which adyke–sill complex forms as a function of the source-bedto sill height, the bulk density of the surrounding sediments,and the ratio of the vertical to horizontal effective stresses,K₀. When applied to three examples of large-scale dyke–sillcomplexes developed within Paleocene and Eocene deep-water reservoirsand bodies of the North Sea, maximum burial depths in a rangeof 375 to c. 500 m, 450–700 m and 550–850 m areestimated for intrusion of each of the three complexes.

Key Words: soft sediment deformation mechanism • sandstone dykes • sandstone sills • sand volcanoes

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