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The Laytonville Quarry (Mendocino County California) exotic block: iron-rich blueschist-facies subduction-zone metamorphism

Published online by Cambridge University Press:  05 July 2018

Robert Muir Wood*
Affiliation:
Department of Earth Sciences, University of Cambridge

Abstract

The Laytonville Quarry exotic block contains a series of deep-ocean sediments of varying Fe: Mn, Fe:Al and Fe2+ : Fe3+ contents, but all enriched in Fe-Mn carbonates. These sediments have a complex metamorphic history that has involved the early development of aegirine and garnet, followed by various phases of ‘secondary’ mineral growth, all of which required the addition of water to the metamorphic assemblages under high-P, low-T conditions. During the course of an early hydration episode deerite formed within most of the ironstones, and zussmanite in certain Fe-rich, Mn-poor pelites. At a later, and apparently lower pressure period in the metamorphic history, howieite, riebeckite, stilpnomelane, and a more manganous variety of zussmanite (ZU2) have overtaken much of the earlier mineralogy. Subsequent to this, and contemporaneous with the development of the tremolite-talc exotic block rind assemblage, there is a minor development of minnesotaite and ekmanite. During the course of the metamorphism the ironstones have become enriched in K and Na, necessary to form the blueschist meta-ironstone mineralogy. Such rocks therefore have the potential to reveal details of fluid expulsion within the subduction zone.

Type
Research Article
Copyright
Copyright © The Mineralogical Society of Great Britain and Ireland 1982

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Footnotes

*

Present address: 20 Emery Street, Cambridge.

References

Agrell, S. O., Bown, M. G., and McKie, D. (1965) Am. Mineral. 50, 278.Google Scholar
Coleman, R. G., and Lee, D. E. (1963) J. Petrol. 4, 260-301.CrossRefGoogle Scholar
Edmond, J. M., Measures, C., Mangum, B., Grant, B., Sclater, F. R., Collier, R., Hudson, A., Gordon, L. I., and Corliss, J. B. (1979) Earth Planet. Sci. Lett. 46, 19-30.CrossRefGoogle Scholar
Ernst, W. G. (1965) Bull. Geol. Soc. Am. 76, 879-914.CrossRefGoogle Scholar
French, B. M. (1968) Minnesota Geol. Surv. Bull. 45, 103 pp.Google Scholar
Goldsmith, J. R. (1959) In Researches in Geochemistry (Abelson, P. H., ed.). John Wiley and Sons, NY, 336-58.Google Scholar
Goldsmith, J. R. and Graf, D. L (1957) Geochim. Cosmochim. Acta 11, 310-34.CrossRefGoogle Scholar
Goldsmith, J. R. (1960) J. Geol. 70, 659-88.CrossRefGoogle Scholar
Gucwa, P. R. (1975) Geology, 3, 105-8.2.0.CO;2>CrossRefGoogle Scholar
Lee, D. E., Thomas, H. H., Marvin, R. F., and Coleman, R. G. (1964) US Geol. Survey Prof. Paper 475D, D105-7.Google Scholar
Lynn, D. C., and Bonatti, E. (1965) Marine Geol. 3, 457-74.CrossRefGoogle Scholar
Magaritz, M., and Taylor, H. P. (1976) Geochim. Cosmochim. Acta 40, 215-34.CrossRefGoogle Scholar
Matsueda, H., and Hirowatari, F. (1974) Sci. Rep. Fac. Sci. Kyushu Univ. Geol. 12, 41-50.Google Scholar
Miyashiro, A. (1967) Jap. J. Geol. Geoo. 38, 149-57.Google Scholar
Muir Wood, R. (1977) Iron-rich sediments in blueschist facies metamorphism. Ph.D. Thesis, Cambridge University.Google Scholar
Muir Wood, R. (1979a) Mineral. Mag. 43, 251-9.CrossRefGoogle Scholar
Muir Wood, R. (1979b) Ibid. 43, 363-70.Google Scholar
Muir Wood, R. (1979c) Geol. Mag. 116, 191-201.CrossRefGoogle Scholar
Muir Wood, R. (1979d) Ibid. 116, 21-33.Google Scholar
Muir Wood, R. (1980a) Mineral. Mag. 43, 741-52.CrossRefGoogle Scholar
Muir Wood, R. (1980b) Ibid. 43, 605-14.Google Scholar
Nagy, B. (1954) Am. Mineral. 39, 946.Google Scholar
Saxena, S. K. (1968) Ibid. 53, 994-1014.Google Scholar
Shirozu, H. (1964) Sci. Rep. Fac. Sci. Kyushu Univ. Geol. 7, 99-101.Google Scholar
Suppe, J., and Armstrong, R. L. (1972) Am. d. Sci. 272, 217-33.Google Scholar