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A mega-porphyritic dolerite on Long Island, Seychelles Archipelago

Published online by Cambridge University Press:  01 May 2009

J. J. Frankel
Affiliation:
School of Applied Geology, University of New South Wales, Kensington, N.S.W. 2033. Australia.

Summary

A dolerite intrusion on Long Island, Seychelles contains exceptionally large plagioclase (labradorite) phenocrysts essentially unzoned, set in a doleritic groundmass. Many of the mega-phenocrysts have a dark redbrown interior.

In the groundmass, zoned plagioclase is in a doleritic texture with a slightly titaniferous ferro-augite that has been almost completely replaced by an actinolite uralite.

The mega-phenocrysts are considered to have crystallized slowly at depth and concentrated locally in a chamber of basaltic magma. The portion of magma containing these plagioclase crystals was later injected to higher levels as dykes. Although emplaced in a granitic (continental) environment, the intrusion has oceanic basalt affinities, and in chemical composition resembles high alumina basalts.

Type
Articles
Copyright
Copyright © Cambridge University Press 1969

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References

REFERENCES

Andersen, O. 1915. An aventurine feldspar. Am. J. Sci., 4th series, 40, 351399.CrossRefGoogle Scholar
Andersen, O. 1917. Aventurine labradorite from California. Am. Min., 2, 91.Google Scholar
Baker, B. H. 1963. Geology and mineral resources of the Seychelles Archipelago. Mem. geol. Surv. Kenya. No.3, 140 p.Google Scholar
Bauer, M. 1898. Beiträge zur geologie Seychelles, inbesondere zur kenntniss des laterite. Neues Jahrb. Min. Geol. Pal., 2, 163219.Google Scholar
Divljan, S. 1960. Results of field and laboratory studies of aventurine plagioclases from some Norwegian pegmatites. Compt. rend. XXI Int. geol. Congr., Copenhagen, pt.17, Sect. 17, 94101.Google Scholar
Foster, W. R. 1955. Simple Method for the determination of the plagioclase feldspars. Am. Min., 40, 179.Google Scholar
Frankel, J. J. & Kent, L. E., (in press). On rocks from the Seychelles Islands. Compt. rend. XXII Int. geol. Congr., New Delhi 1964.Google Scholar
Holmes, A. 1931. The problem of the association of acid and basic rocks in central complexes. Geol. Mag., 68, 241255.CrossRefGoogle Scholar
Smith, J. V. & Gay, P. 1958. The powder patterns and lattice parameters of plagioclase feldspars. Mineralog. Mag., 31, 744762.Google Scholar
Yoder, H. S. & Tilley, C. E. 1962. Origin of basalt magmas: an experimental study of natural and synthetic rock systems. J. Petrology, 3, 342532;CrossRefGoogle Scholar