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The internal tectonic fabric of minor intrusions and their potential as regional palaeostress indicators

Published online by Cambridge University Press:  01 May 2009

Graham J. Borradaile
Graham J. Borradaile
Affiliation:
Department of Geology, Lakehead University, Thunder Bay, Ontario P7B 5E1, Canada
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Abstract

A suite of late-tectonic minor intrusive rocks in the Inner Hebrides of Scotland show a well developed internal tectonic fabric. This fabric has a similar orientation in adjacent intrusions and it is usually not seen in the wall rock. It is suggested that the intrusions' tectonic fabric records the effects of palaeostress over the cooling period of the intrusions and thus provides palaeostress trajectories over a geologically short period of time over the area occupied by the swarm of intrusions.

Type
Articles
Information
Geological Magazine , Volume 123 , Issue 6 , November 1986 , pp. 665 - 671
Copyright
Copyright © Cambridge University Press 1986

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References

Berger, A. R. 1971. Dynamic analysis using dykes with oblique internal foliations. Bulletin of the Geological Society of America 82, 781–6.CrossRefGoogle Scholar
Borradaile, G. J. 1979. Strain study of the Caledonides in the Islay region S.W. Scotland: implications for strain histories and deformation mechanism in greenschists. Journal of the Geological Society of London 136, 7788.Google Scholar
Borradaile, G. J., Bayly, M. & Powell, C. Mca. 1982. Atlas of Deformational and Metamorphic Rock Fabrics. Springer-Verlag, 551 pp.Google Scholar
Cunningham-Craig, E. H., Bailey, E. B. & Wright, W. B. 1911. The Geology of Colonsay and Oronsay with Part of the Ross of Mull. Memoir. Geological Survey of the United Kingdom no. 35, 1109.Google Scholar
Dennis, J. G. 1967. International Tectonic Dictionary. Memoir no. 7, American Association of Petroleum Geologists, 196 pp.Google Scholar
Fitches, W. R. & Maltman, A. J. 1984. Tectonic development and stratigraphy at the western margin of the Caledonides: Islay and Colonsay, Scotland. Transactions of the Royal Society of Edinburgh (Earth Sciences) 75, 365–82.CrossRefGoogle Scholar
Johnson, M. R. W. & Dalziel, I. W. D. 1966. Metamorphosed lamprophyres and the late thermal history of the Moines. Geological Magazine 103, 240–9.CrossRefGoogle Scholar
Stewart, A. D. 1962. On the Torridonian sediments of Colonsay and their relationship to the main outcrop of north-west Scotland. Liverpool and Manchester Geological Journal 3, 121–56.Google Scholar
Stewart, A. D. & Hackman, B. D. 1973. Precambrian sediments of western Islay. Scottish Journal of Geology 9, 185201.Google Scholar
Watson, J. 1964. Conditions in the metamorphic Caledonides during the period of late orogenic cooling. Geological Magazine 101, 457–65.CrossRefGoogle Scholar
Watterson, J. S. 1968. Plutonic development of the Ilordleq area, South Greenland. II. Late kinematic basic dykes. Meddelelser om Grønland 185, (3) 104 pp.Google Scholar
Wilkinson, S. B. 1907. The Geology of Islay, Including Oronsay and Portions of Colonsay and Jura. Memoir. Geological Survey of the United Kingdom, 174.Google Scholar
Windley, B. F. 1970. Primary quartz ferro-dolerite/garnet amphibolite dykes in the Sukkertoppen region of West Greenland. In Mechanisms of Igneous Intrusions (ed. Newall, G. Rast, N.), pp. 7992. Geological Journal Special Issue, no. 2.Google Scholar