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Physical models of magmatic intrusion during thrusting

โœ Scribed by Olivier Galland; Jean De Bremond d'Ars; Peter R. Cobbold; Erwan Hallot

Publisher
John Wiley and Sons
Year
2003
Tongue
English
Weight
191 KB
Volume
15
Category
Article
ISSN
0954-4879

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โœฆ Synopsis

Abstract

To investigate how magma rises through the brittle upper crust in a context of compressional tectonics, we have performed experiments on scaled physical models. Powdered silica (having a cohesion of 300โ€ƒPa and an angle of internal friction of 38ยฐ) was used to represent brittle crust. A vegetable oil (with a Newtonian viscosity of 10^โˆ’2^โ€ƒPaยทs at 50โ€ƒยฐC) was used to represent magma. A moving piston shortened the models in a box, while oil was injected steadily at the base. On cooling to room temperature, the oil solidified. The resulting intrusions were thin sills, dykes and laccoliths. Their shapes and emplacement modes depended on the ratio R between rates of shortening and injection. From shapes and orientations of intrusions, we infer that hydraulic fracturing was one mechanism of emplacement. Unconsolidated intrusions strongly influenced thrust formation. On the basis of our experiments, we suggest that magmas in orogenic belts can rise along thrust faults.

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