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Open-system magma chamber process in the Freetown Complex of Sierra Leone: evidence from Zone 3

Published online by Cambridge University Press:  01 May 2009

Christopher I. Chalokwu  and
Pamela J. Seney
Christopher I. Chalokwu
Affiliation:
Department of Geology, Auburn University, Auburn, Alabama 36849-5305, USA
Pamela J. Seney
Affiliation:
Department of Geology, Auburn University, Auburn, Alabama 36849-5305, USA
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Abstract

The ˜ 7 km thick Freetown layered complex of Sierra Leone consists of four zones each composed of a cyclically layered sequence of troctolite, gabbro, olivine gabbro, gabbronorite, and anorthosite. The complex is thought by previous workers to have solidified in situ from a single parental magma without stratigraphic changes in mineral compositions. Evidence for cryptic variation is presented based on electron microprobe analyses of mega-unit Zone 3. Two reversals in olivine forsterite content, plagioclase anorthite content, and 100 Mg/(Mg Fe2) in clinopyroxene match the variations of Ni in olivine and Cr in clinopyroxene. These changes are consistent with a magma chamber that was open to periodic influxes of new magmas, and the mixing of new and fractionated resident magmas. Expansion of the magma chamber is thought to have occurred at 2000 m, corresponding to the level of a major influx.

Type
Articles
Information
Geological Magazine , Volume 132 , Issue 3 , May 1995 , pp. 261 - 266
Copyright
Copyright © Cambridge University Press 1995

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References

Barnes, S. J., & Naldrett, A. J., 1985. Geochemistry of the J-M (Howland) Reef of the Stillwater Complex, Minneapolis adit area. I. Sulfide chemistry and sulfide—olivine equilibrium. Economic Geology 80, 627–45.CrossRefGoogle Scholar
Beckinsale, R. D., Bowles, J. F., Pankhurst, R. J., & Wells, M. K., 1977. Rubidium—strontium age studies and geochemistry of acid veins in the Freetown complex, Sierra Leone. Mineralogical Magazine 41, 501–11.Google Scholar
Bowles, J. F. W., 1986. The development of platinum-group minerals in laterites. Economic Geology 81, 1278–85.Google Scholar
Chalokwu, C. I., Seney, P. J., & La Tour, T. E., 1994. Petrology of the Freetown layered complex, Sierra Leone: Part. II. Magma evolution and crystallization conditions. Geological Society of America Abstract 26, p. 370.Google Scholar
McCallum, I. S., Raedeke, L. D., & Mathez, E. A., 1980. Investigations of the Stillwater Complex: Part I. Stratigraphy and structure of the banded zone. American Journal of Science 280-A, 5987.Google Scholar
O’Hara, M. J., 1977. Geochemical evolution during fractional crystallization of a periodically refilled magma chamber. Nature 266, 503–7.Google Scholar
Shand, S. J., 1918. The norite of Sierra Leone. Geological Magazine 5, 21–3.Google Scholar
Streckeisen, A., 1976. To each plutonic rock its proper name. Earth Science Review 12, 133.Google Scholar
Umeji, A. C., 1983. Geochemistry and mineralogy of the Freetown basic igneous complex of Sierra Leone. Chemical Geology 39, 1738.Google Scholar
Umeji, A. C., 1985. On the beerbachites from Freetown, Sierra Leone. Geological Magazine 122, 663–67.Google Scholar
Wager, L. R., Brown, G. M., & Wadsworth, W. J., 1960. Types of igneous cumulates. Journal of Petrology 1, 7385.Google Scholar
Wells, M. K., 1962. Structure and petrology of the Freetown layered basic complex of Sierra Leone. Overseas Geology and Mineral Resources Bulletin, Supplement no. 4. 115 pp.Google Scholar
Wells, M. K., & Baker, C. O., 1956. The anorthosites in the Colony Complex near Freetown, Sierra Leone. Colonial Geology and Mineral Resources 6, 137–58.Google Scholar
Wells, M. K., & Bowles, J. F. W., 1981. The textures and genesis of metamorphic pyroxene in the Freetown intrusion. Mineralogical Magazine 44, 245–55.Google Scholar