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The Pleistocene rocks of the Cayman Islands

Published online by Cambridge University Press:  01 May 2009

M. A. Brunt
Affiliation:
Land Resources Division, Overseas Development Administration, Tolworth Tower, Surbiton, Surrey.
M. E. C. Giglioli
Affiliation:
Mosquito Research and Control Unit, Georgetown, Grand Cayman, West Indies.
J. D. Mather
Affiliation:
Hydrogeological Department, Institute of Geological Sciences, Exhibition Road, London SW7.
D. J. W. Piper
Affiliation:
Department of Geology, Sedgwick Museum, Cambridge CB2 3EQ.
H. G. Richards
Affiliation:
Academy of Natural Sciences, 19th and the Parkway, Philadelphia, Pennsylvania, U.S.A.

Summary

In the Cayman Islands a core of Miocene and Oligocene crystalline limestones is overlain unconformably by limestones of the Pleistocene Ironshore Formation. Within this Formation five separate depositional environments are recognized. A reef facies contains corals still in their growth position. This reef facies is succeeded by a back reef facies, followed by a lagoonal facies. The lagoonal facies contains a diverse molluskan fauna of 75 species which differs considerably from that found in the present lagoons around the island. Rocks of these facies are overlain in places by ridges of calcarenite, considered to be shoal deposits. Higher ridges which overlie the Tertiary limestones and reef facies rocks are interpreted as beach ridges. It is thought that the Pleistocene sediments were deposited around a gradually subsiding core of Tertiary rocks.

Type
Articles
Copyright
Copyright © Cambridge University Press 1973

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References

Abbott, R. T. 1958. The marine mollusks of Grand Cayman Island, British West Indies. Monogr. Acad. nat. Sci. Philad. 11, 138 p.Google Scholar
Bowin, C. O. 1968. Geophysical study of the Cayman Trough. J. geophys. Res. 73, 5159–73.Google Scholar
Doran, E. B. Jnr. 1954. Land forms of Grand Cayman Islands, British West Indies. Tex. J. Sci. 6, 360–77.Google Scholar
English, T. M. S. 1913. Some notes from a West Indian coral island. Bull. misc. Inf. R. bot. Gdns Kew, 10, 367–72.Google Scholar
Goreau, T. F. 1959. The ecology of Jamaican reefs. I. Species composition and zonation. Ecology 40, 6790.Google Scholar
Harrison, W. 1964. Sea level oscillations recorded in subsurface at Freeport, B.W.I. Spec. Pap. geol. Soc. Am. 76, 75–6.Google Scholar
Matley, C. A. 1926. The geology of the Cayman Islands (British West Indies). Q. Jl geol. Soc. Lond. 82, 352–87.CrossRefGoogle Scholar
Mesolella, K. J. 1967. Zonation of uplifted coral reefs on Barbados, West Indies. Science, N. Y. 156, 638–40.Google Scholar
Rehder, H. A. 1962. The Pleistocene mollusks of Grand Cayman Island with notes on the geology of the island. J. Paleont. 36, 383–5.Google Scholar
Richards, H. G. 1955. The geological history of the Cayman Islands. Notul. Nat. Acad. Nat. Sci. Philad. 284, 11 p.Google Scholar
Roberts, H. H. 1969. Recent carbonate sedimentation, North Sound, Grand Cayman Island, British West Indies. Thesis Louisiana State University, Báton Rouge, La. 100 p.Google Scholar
Vaughan, T. W. 1926. Species of Lepidocyclina and Carpenteria from the Cayman Islands and their geological significance. Q. Jl geol. Soc. Lond. 82, 388400.CrossRefGoogle Scholar
Warthin, A. S. 1959. Ironshore in some West Indian Islands. Trans N. Y. Acad. Sci. Ser. 2, 21, 649–52.Google Scholar
Zans, V. A., Chubb, L. J., Versey, H. R., Williams, J. B., Robinson, E. & Cooke, D. L. 1962. Synopsis of the geology of Jamaica: an explanation of the 1958 provisional map of Jamaica. Bull. geol. Surv. Jamaica 4.Google Scholar