Hostname: page-component-848d4c4894-x24gv Total loading time: 0 Render date: 2024-05-08T23:53:27.328Z Has data issue: false hasContentIssue false
  • English
  • Français

A discussion of carbonatite evolution and nomenclature, and the generation of sodic and potassic fenites

Published online by Cambridge University Press:  05 July 2018

A. R. Woolley
A. R. Woolley*
Affiliation:
Department of Mineralogy, British Museum (Natural History), Cromwell Road, London SW7 5BD
Get access Rights & Permissions [Opens in a new window]

Abstract

Possible evolutionary paths of alkali-rich carbonatite magma may be related to the production of sodic and potassic fenites. It is concluded that the latter are generated not from separate Na- and K-rich carbonatites, but by the earlier preferential loss of Na from a sodi-potassic carbonatite magma. Trends of both Fe and Mg enrichment in carbonatites are illustrated from a number of centres, and ascribed to crystal fractionation, although metasomatism may be partly responsible. Current nomenclature of carbonatites is unsatisfactory and a division into sövites, magnesiocarbonatites and ferrocarbonatites is proposed, based on rock chemistry.

Type
Research Article
Information
Mineralogical Magazine , Volume 46 , Issue 338 , March 1982 , pp. 13 - 17
Copyright
Copyright © The Mineralogical Society of Great Britain and Ireland 1982

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

References

Aspden, J. A. (1977 Inclusion studies in ijolitic and carbonatitic rocks, with particular reference to the identification of their solid components. Unpubl. Ph.D. Thesis, University of Leicester.Google Scholar
Barth, T. F. W., and Ramberg, I. B. (1966 In Carbonatites, John Wiley, 225–57.Google Scholar
Brogger, W. C. (1921 Norsk. Vidensk. Selsk. Skr., Math. Naturv, KI., 9, 1408.Google Scholar
Currie, K. L. (1975 Bull. geol. Surv. Can. 245, 168.Google Scholar
Currie, K. L. (1976 Ibid. 239, 1228.Google Scholar
Dawson, J. B. (1966 In Carbonatites, John Wiley, 155–68.Google Scholar
Deer, W. A., Howie, R. A., and Zussman, J. (1962 Rock-forming minerals vol. 5. Longrnans, London.Google Scholar
Eckermann, H. von. (1948 Sver. geol. Unders. Afh. Ser. C. 36, 1176.Google Scholar
Eckermann, H. von. (1958 K. svenska VetenskAkad. Handl. 7(2), 161.Google Scholar
Freestone, I. C., and Hamilton, D. L. (1980 Contrib. Mineral. Petrol. 73, 105–17.CrossRefGoogle Scholar
Garson, M. S. (1962 Mere. geol. Surv. Dep. Malawi, 2, 1248.Google Scholar
Garson, M. S. (1965 Bull. geol. Surv. Dep. Malawi, 15, 1128.Google Scholar
Garson, M. S. and Smith, W. C. (1958 Mere. geol. Surv. Dep. Malawi, 1, 1127.Google Scholar
Gold, D. P. (1966 Proc. 4th Gen. Meeting Int. Min. Assoc. India, 8391.Google Scholar
Gold, D. P. (1969 In Geology of Monteregian Hills, Geol. Assoc. Can. and Mineral. Assoc. Can. Guidebook, Montreal, 4362.Google Scholar
Heinrich, E. W. (1966 The geology of carbonatites. Rand McNally, 1555.Google Scholar
Kapustin, Y. L. (1980 Mineralogy of carbonatites. Smithsonian Institution and National Science Foundation, Washington, 1259. (Translated from Russian.)Google Scholar
Le Bas, M. J. (1977 Carbonatite-nephelinite volcanism, John Wiley, 1347.Google Scholar
Le Bas, M. J. (1981 Mineral. Mag. 44, 133–40.CrossRefGoogle Scholar
Meyer, A. (1958 Bull. Serv. geol. Congo beige, 8(5), 119.Google Scholar
Streckeisen, A. (1980 Geol. Rdsch. 69, 194207.CrossRefGoogle Scholar
Vartiainen, H., and Woolley, A. R. (1976 Bull. geol. Serv. Finl. 280, 187.Google Scholar
Vartiainen, H., and Woolley, A. R. and Paarma, H. (1979 Econ. Geol. 74, 12961306.CrossRefGoogle Scholar
Woolley, A. R. (1969 Bull. Br. Mus. Nat. Hist. (Mineral.) 2(4), 189219.Google Scholar
Wyllie, P. J. (1965 J. Petrol. 6, 101–23.CrossRefGoogle Scholar