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An unusual clinopyroxene with complex lamellar intergrowths from an eclogite in the Sunndal-Grubse ultramafic mass, Almklovdalen, Nordfjord, Norway

Published online by Cambridge University Press:  05 July 2018

M. A. Lappin*
Affiliation:
Department of Geology and Mineralogy, University of Aberdeen, Marischal College, Aberdeen, AB9 IAS

Summary

Clinopyroxene crystals with complex lamellar intergrowths of orthopyroxene and garnet are described. The orthopyroxene lamellae are irrationally orientated within the clinopyroxene host although the optical relationships of these minerals are consistent with (100) exsolution in clinopyroxene. The intergrowth is nevertheless considered to be the result of exsolution processes. Possible modes of origin are reviewed together with the general significance of exsolved pyroxenes in eclogite- and granulite-facies associations.

Type
Research Article
Copyright
Copyright © The Mineralogical Society of Great Britain and Ireland 1973

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References

Alderman, (A. R.), 1936. Quart. Journ. Geol. Soc., 92, 488–530.CrossRefGoogle Scholar
Banno, (S.), 1970. Phys. Earth Planet Interiors, 3, 405–21.CrossRefGoogle Scholar
Beeson, (M. H.) and Jackson, (E. D.), 1970. Min. Soc. Amer. Special Paper, 3, 95–112.Google Scholar
Brett, (R.), 1964. Ecol. Geol., 59, 1241–69.Google Scholar
Bryhni, (I.), Green, (D. H.), Heier, (K. S.), and Fyfe, (W. S.), 1970. Contr. Min. Petr., 26, 12–19.CrossRefGoogle Scholar
Carswell, (D. A.), 1968. Ibid. 19, 97124.CrossRefGoogle Scholar
Christian, (J. W.), 1965. The Theory of Transformation in Metals and Alloys. Pergamon, London.Google Scholar
Coleman, (R. G.), Lee, (D. E.), Beatty, (L. B.), and Brannock, (W. W.), 1965. Geol. Soc. Amer. Bull., 76, 483–508.CrossRefGoogle Scholar
Eskola, (P.), 1921. Norsk Vid. Akad. Christiana, 8, 1–118.Google Scholar
Hentsciiel, (H.), 1937. Tschermaks min. petr. Mitt., 49, 42–88.Google Scholar
Kornprobst, (J.), 1969. Contr. Min. Petr., 23, 283–322.CrossRefGoogle Scholar
Kuno, (H.), 1969. Geol. Soc. Amer. Mem., 115, 189–234.Google Scholar
Lappin, (M. A.), 1966. Norsk Geol. Tidsskr., 46, 439–96.Google Scholar
Lappin, (M. A.) 1967. In Wyllie, P. J. (ed.), Ultramafic and Related Rocks. Wiley, New York.Google Scholar
Lappin, (M. A.) In prep. Eclogites from the Sunndal-Grubsc mass, Almklovdalen, Norway and the temperature, pressure history of the Almklovdalen ultramafic masses.Google Scholar
Lasnier, (B.), 1972. Contr. Min. Petr., 34, 29–42.Google Scholar
Lovering, (J. F.) and White, (A. J. R.), 1969. Ibid. 21, 9-52.CrossRefGoogle Scholar
O'Hara (M. J.), and Mercy, (E. L. P.), 1963. Trans. Roy. Soc. Edin., 65, 215–314.Google Scholar
O'Hara, (M. J.) and Mercy, (E. L. P.) and Yoder, (M. S.), 1967. Scot. Journ. Geol., 3, 67–117.Google Scholar
Poldervaart, (A.) and Hess, (H. H.), 1951. Journ. Geol., 59, 472–89.CrossRefGoogle Scholar
Raleigh, (C. B.), 1967. In Wyllie, P. J. (ed.), Ultramafic and Related Rocks. Wiley, New York.Google Scholar
Saggerson, (E. P.), 1968. Geol. Rundschau, 57, 890–903.CrossRefGoogle Scholar
Sanders, (L.), 1971. Abstract, Meeting, Min. Soc., Edinburgh.Google Scholar
Williams, (A. F.), 1932. The Genesis of Diamond. Benn, London.Google Scholar
Yund, (R. A.) and McCallister, (R. H.), 1968. Progr. Geol. Soc. Amer., Ann. Meeting, Mexico City, 333 Google Scholar
Yund, (R. A.) and McCallister, (R. H.) 1970. Chemical Geol., 6, 5–30.Google Scholar