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The riebeckite-bearing dikes of Shetland (With Plate III)

Published online by Cambridge University Press:  14 March 2018

James Phemister ,
C. O. Harvey  and
P. A. Sabine
C. O. Harvey
Affiliation:
Geological Survey and Museum, London
P. A. Sabine
Affiliation:
Geological Survey and Museum, London
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Extract

The peninsula in which the mainland of Shetland ends north of Ronas Voe and Colla Firth is occupied mainly by the Ronas Hill Granite. This body is intrusive into a metamorphic series consisting of orthogneiss on the north and paragneiss oil the north-east, east, and south-east of tile peninsula. It is a biotite-granophyre within which earlier bodies of basic rock varying from diorite to gabbro are found. It is unsheared and unfoliated and is cut by a swarm of dikes with north-south trend which extends from tile north coast to Ronas Voe. There is evidence also of the existence of dikes earlier than the granite. The later dikes comprise spessartine, microdiorite, porphyrite, quartzfelspar- porphyry, and a great variety of felsites which are generally granophyric and spherulitic. Many of the felsites contain riebeckite and aegirine and have a corresponding blue or blue-green colour. From observation of chilling of dike against dike and intersection of dike by dike it has been found that tile basic dikes, spessartine, microdiorite, and porphyrite, are the oldest of the suite, the quartz-felspar-porphyries are older than the felsites, and the blue riebeckite-felsites are younger than white, pink, and dull red felsites which contain neither aegirine nor riebeckite

Type
Research Article
Information
Mineralogical magazine and journal of the Mineralogical Society , Volume 29 , Issue 211 , December 1950 , pp. 359 - 373
Copyright
Copyright © The Mineralogical Society of Great Britain and Ireland 1950

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References

Berman, (H.) and (E.S.), Larsen., 1931. Composition of the alkali-amphiboles. Amer. Min., vol. 16, p. 140.Google Scholar
(T.M.), Finlay., 1930. The Old Red Sandstone of Shetland. Pt. II. North-Western Area. Trans. Roy. Soc. Edin., vol. 56, p. 671.Google Scholar
(A.F.), Hallimond., 1943. On the graphical representation of the calciferous amphiboles. Amer. Min., vol. 28, p. 65.Google Scholar
(C.O.), Harvey., 1939. Simple method for determination of water in silicates. Bull. Geol. Surv. Gt. Brit., no. 1, p. 8.Google Scholar
Prnllips, (F. Coles), 1926. Note on a Riebeckite-Bearing rock from the Shetlands. Geol. Mag., vol. 63, p. 72.Google Scholar
(P.A.), Sablwe., 1950. The optical properties and composition of the acmitic pyroxenes. Min. Mag., vol. 29, p. 113.Google Scholar
Suzuki, (J.), 1938. On the Occurrence of Aegirine.Augite in Natrolite Veins in the Dolerite from Nemuro, Hokkaido. Journ. Fac. Sci. Hokkaido Imp. Univ., ser. IV, vol. 4, p. 183.Google Scholar
(G.W.), Tyrrell., 1928. The Geology of Arran. Mem. Geol. Surv. Gt. Brit.Google Scholar
(B.E.), Warren., 1930. The crystal structure and chemical composition of the monoclinic amphiboles. Zeits. Krist., vol. 72, p. 493.Google Scholar
Washington, (H. S.) and (H.E.), Merwin., 1927. The acmitic pyroxenes. Amer. Min., vol. 12, p. 233.Google Scholar