Abstract
The southeast corner of San Salvador, Bahamas is comprised of several Holocene sedimentary environments in which carbonate sediments are accumulating. Some of these deposits have been lithified to form grainstones, others are not yet lithified. These environments are strand plain (Sandy Hook), dunes (Holocene and Pleistoncene), high energy lagoon (Snow Bay), and tidally-influenced lagoon (Pigeon Creek). These high energy environments are laterally and vertically linked forming different compartments of a carbonate grainstone/packstone body. Petrographic study reveals that these sediments and grainstones are similar in grain composition and texture. The dominant grains are peloids, ooids, and skeletal grains such asHalimeda and foraminifera. Other minor components are bivalves, gastropods, grapestones and intraclasts. Most grains in the Sandy Hook strand plain and the dunes are characterized by abraded grains whereas grains in subtidal sands (Snow Bay and Pigeon Creek) are well preserved. The increasing pattern of ooids with depth in the lagoon and strand plain sediments and the high percentage of ooids in Holocene dune samples suggests that ooid generation occurred early in the Holocene and that subsequently ooids were transported to dunes, and the strand plain. Diagentic characteristics of ooids and also support movement of sand size grains. Clasts in both early and late Holocene deposits are commonly comprised of ooids which are cemented with blocky calcite cement suggesting movement of sediment from one environment (early dune) to other environments including lagoon, beach, and strand plain.
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References
Andersen, C.B. and Boardman, M.R., 1989, The depositional evolution of Snow Bay, San Salvador. In: Mylroie, J.E. (ed.), Fourth Symposium of the Geology of the Bahamas, Bahamian field station, San Salvador, Bahamas, p. 7–22.
Ball, P.J., 1967, Carbonate sand bodies of Florida and the Bahamas. Journal of Sedimentary Petrology, 37, 556–591.
Boardman, M.R., Carew, J.L. and Mylroie, J.E., 1987, Holocene deposition of transgressive sand on san Salvador, Bahamas. Geological Society of America (Abstract with Program), 19, p. 593.
Boardman, M.R., Neumann, A.C. and Rasmussen, K.A., 1989, Holocene sea level in the Bahamas. In: Mylroie, J.E. (ed.), Proceedings of the Fourth Symposium of the Geology of the Bahamian field station, San Salvador, Bahamas, p. 45–52.
Bricker, O.P., 1971, Carbonate cements. Johns Hopkins University Studies in Geology, 19, Johns Hopkins Press, Baltimore, 376 p.
Carew, J.L. and Mylroie, J.E., 1985, The Pleistocene and Holocene stratigraphy of San Salvador Island, Bahamas with reference to marine and terrestrial lithofacies at French Bay. In: Curran, H.A. (ed.), Pleistocene and Holocene carbonate environments on San Salvador Island, Bahamas-guidebook for geological society of America, Orlando annual meeting field trip: Ft. Lauderdale, Florida, Bahamian field station, p. 11–62.
Carney, C. and Boardman, M.R., 1990, A sedimentary model for the ooid shoal complex at Joulters Cays, Bahamas. Sources, sinks, and transport. Geological Society of America (Abstract with Program), 22, p. 132.
Chafetz, H.S., 1986, Marine peloids: A product of a bacterially induced precipitation of calcite. Journal of Sedimentary Petrology, 56, 812–817.
Colby, N.D. and Boardman, M.R., 1989, The depositional evolution of a windward, high-energy lagoon, Grahams Harbor, San Salvador, Bahamas. Journal of Sedimentary Petrology, 59, 819–834.
Donn, T.F. and Boardman, M.R., 1988, Bioerosion of rocky carbonate coastlines: Andros Island, Bahamas. Journal of Coastal Research, 4, 381–394.
Dunham, R.J., 1962, Classification of carbonate rocks according to depositional texture. In: Ham, W.E. (ed.), Classification of Carbonate Rocks, American Association of Petroleum Geologists Memoir, 1, 108–121.
Ginsburg, R.N., Lloyd, R.M., Stockman, K.W. and McCallum, J.S., 1963, Shallow-water carbonate sediments. In: Hill, M.N. (ed.), The Seas, 3, 554–582.
Hally, R.B. and Harris, P.M., 1979, Fresh-water cementation of a 1,000-year old oolite. Journal of Sedimentary Petrology, 49, 969–988.
Harris, P.M., 1979, Facies anatomy and diagensis of a Bahamian ooid shoal. Sedimenta 7, Comparative Sedimentary Lab, Miami, 163 p.
Hutto, T. and Carew, J.L., 1984, Petrology of eolian calcarenites. San Salvador Island, Bahamas, In: Teeter, J.W. (ed.), Proceedings of the second symposium on the geology of the Bahamas, CCFL Bahamian field station, 197–207.
Illing, J. and Purdy, E.G., 1962, Classification of modern Bahamian carbonate sediments. In: Ham, W.E. (ed.) Classification of Carbonated Rock, American Association of Petroleum Geologists Memoir, 1, 252–272.
James, N.P., Marszalek, D.S. and Choquette, P.W., 1976, Facies and fabric specificity of early subsea cements in shallow Belize (British Honduras) reefs. Journal of Sediementary Petrology, 46, 523–544.
James, N.P., 1984, Shallowing upward sequences in carbonates. In: Walker, R.G. (ed.), Facies Models, Geoscience Canada reprint series, Toronto, 1, 213–228.
Kobluk, D.R. and Risk, M.J., 1977, Micritization and carbonate grain binding by endolithic algae. Bulletin of American Association of Petroleum Geologists, 61, 1069–1082.
Lloyd, R.M., Perkins, R.D. and Keer, S.D., 1987, Beach and shoreface ooid deposition on shallow interior banks, Turks and Caicos islands, British West Indies. Journal of Sedimentary Petrology, 56, 395–400.
Longmanm, M.W., 1980, Carbonate diagenetic textures from nearsurface diagenetic environments. American Association of Petroleum Geologist Bulletin, 64, 461–487.
Macintyre, I.G., 1985, Submarine cements-the peloidal question. In: Schneidermann, N. and Harris, P.M. (eds.), Carbonate Cements, Tulsa, Oklahoma, Society of Economist and Paleontologists Mineralogists, Special Publication, 36, 109–116.
Scoffin, T.P., 1987, An introduction to carbonate sediments and rocks. Chapman and Hall, New York, 274 p.
Singh, U., 1987, Ooids and cements from the late Pre-cambrian of the Flinders ranges, southwestern Australia—Their significance and use in coastal history. Journal of Coastal Research, 3, 331–342.
Slone, G.B., 1990, Sedimentology and taphonomy of a Holocene carbonate lagoon, Pigeon Creek, San Salvador, Bahamas (unpublished masters thesis). Oxford, Ohio, Miami University. 185 p.
Smosna, r.A., 1984, Sedimentary facies and early diageneisis of an oolite complex from the Silurian of West Virginia. Society of Economic Paleontologists and Mineralogists Core Workshop, 5, 20–57.
Ward, W.C., 1975, Petrology and diagenesis of carbonate eolianites of the northeastern Yucatan peninsula, Mexico. In: Wantland, K.F. and Pusey, W.C. (eds.), Belize shelf-carbonate sediments, clastic sediments, ecology, American Association of Petroleum Geologists., Studies in Geology, 2, 500–571.
White, B. and Curran, A., 1988, Mesoscale physical sedimentary structures and tracefossils in Holocene carbonate eolianites from San Salvador island, Bahamas. Sedimentology, 55, 163–184.
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Kim, N. Petrographic characteristics of a Holocene carbonate grainstones in southeast San Salvador, Bahamas: Implications for the sediment reworking in a high energy lagoon. Geosci J 5, 349–359 (2001). https://doi.org/10.1007/BF02912706
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DOI: https://doi.org/10.1007/BF02912706