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Kerolite associated with anhydrite in sediments from the Atlantis II Deep, Red Sea

Published online by Cambridge University Press:  09 July 2018

T. G. Cole
Affiliation:
Department of Geology, Imperial College, Prince Consort Road London SW7, UK
H. F. Shaw
Affiliation:
Department of Geology, Imperial College, Prince Consort Road London SW7, UK

Abstract

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Type
Notes
Copyright
Copyright © The Mineralogical Society of Great Britain and Ireland 1983

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References

Bäcker, H. & Richter, H. (1973) Die rezente hydrothermal-sedimentäre Lagerstätte Atlantis-II-Tief im Roten Meer. Geol. Rund. 62, 697741.Google Scholar
Bischoff, J.L. & Seyfried, W.E. (1978) Hydrothermal chemistry of seawater fro. 25°C-350°C. Am. J. Sci. 278, 838860.CrossRefGoogle Scholar
Brewer, P.G., Riley, J.P. & Culkin, F. (1965) The chemical composition of the hot salty water from the bottom of the Red Sea. Deep Sea Res. 12, 497503.Google Scholar
Brewer, P.G. & Spencer, D.W. (1969) A note on the chemical composition of the Red Sea brines. Pp. 174179 in: Hot Brines and Recent Heavy Metal Deposits in the Red Sea. (Degens, E. T. & Ross, D. A., editors). Springer-Verlag.Google Scholar
Brindley, G.W. (1980) Order-disorder in clay mineral structures. Pp. 125195 in: Crystal Structures of Clay Minerals and their X-ray Identification. (Brindley, G. W. & Brown, G., editors). Mineralogical Society, London.Google Scholar
Brindley, G.W., Bish, D.L. & Wan, H-M. (1977) The nature of kerolite, its relation to talc and stevensite. Miner. Mag. 41, 443452.Google Scholar
Brindley, G.W., Bish, D.L. & Wan, H-M. (1979) Compositions, structures, and properties of nickelcontaining minerals in the kerolite-pimelite series. Am. Miner. 64, 615625.Google Scholar
Cole, T.G. (1982) Mineralogy and geochemistry of metalliferous sediments from the Bauer Deep, southeast Pacific, and the Atlantis II Deep, Red Sea. PhD Thesis, Univ. London.Google Scholar
Danielsson, L-G., Dyrssen, D. & Graneli, A. (1980) Chemical investigations of Atlantis II and Discovery brines in the Red Sea. Geochim. Cosmochim. Acta 44, 20512065.Google Scholar
D'yakonov, Yu. S. (1963) Results of an X-ray study of kerolite. Dokl. Akad. Nauk. SSSR. 148, 909911.Google Scholar
Haymon, R.M. & Kastner, M. (1981) Hot spring deposits on the East Pacific Rise at 21°N: preliminary description of mineralogy and genesis. Earth Planet. Sci. Lett. 53, 363381.Google Scholar
Levinson, A.A. (1955) Studies in the mica group: polymorphism among illites and hydrous micas. Am. Miner. 40, 4149.Google Scholar
Miller, A.R., Densmore, C.D., Degens, E.T., Hathaway, J.C., Manheim, F.T., McFarlin, P.F., Pocklington, R. & Jokela, A. (1966) Hot brines and Recent iron deposits in deeps of the Red Sea. Geochim. Cosmochim. Acta 30, 341359.CrossRefGoogle Scholar
Schneider, W. & Schumann, D. (1979) Tonminerale in Normalsedimenten, hydrothermal beeinflussten Sedimenten und Erzschlämmen des Roten Meeres. Geol. Rund. 68, 631648.Google Scholar
Schoell, M. & Hartmann, M. (1973) Detailed temperature structure of the hot brines in the Atlantis II Deep area (Red Sea). Marine Geol. 14, 114.Google Scholar
Shanks, W.C. & Bischoff, J.L. (1977) Ore transport and deposition in the Red Sea geothermal system: a geochemical model. Geochim. Cosmochim. Acta 41, 15071519.Google Scholar
Singer, A. & Stoffers, P. (1981) Hydrothermal vermiculite from the Atlantis II Deep, Red Sea. Clays Clay Miner. 29, 454458.CrossRefGoogle Scholar
Spiess, F.N. et al. (1980) East Pacific Rise: Hot springs and geophysical experiments. Science 207, 14211433.CrossRefGoogle ScholarPubMed
Styrt, M.M., Brackmann, A.J., Holland, H.D., Clark, B.C., Pisutha-Arnond, V., Eldridge, C.S. & Ohmoto, H. (1981) The mineralogy and the isotopie composition of sulphur in hydrothermal sulphide/sulphate deposits on the East Pacific Rise, 21°N latitude. Earth Planet. Sci. Lett. 53, 382390.CrossRefGoogle Scholar