Root calcrete formation on Quaternary karstic surfaces of Grand Cayman
DOI:
https://doi.org/10.1344/105.000000311Keywords:
Calcretes, Root, Karst, Cayman Island, The Caribbean, QuaternaryAbstract
The rugged karst terrain developed on the dolostones of the Miocene Cayman Formation (Fm) on Grand Cayman includes numerous large cavities that formed through the activity of tree roots. The surfaces of those cavities are coated with laminated calcrete crusts up to 8 cm thick that are formed of an alteration zone, an accretionary zone, and final infill of the cavities. These crusts are formed of various laminae, including dolostone with root traces, alveolar septal structures, peloids, micritic and microsparitic laminae, micrite with bioclasts, and pisoliths. Features such as microborings, spores, needle-fiber calcite and micro-rods are common in all parts of the calcrete crust. Calcrete formation was initiated as the roots and associated microorganisms generated the cavities. Later on trapping and binding processes and organically induced precipitation of carbonate allowed the formation of the accretionary (mostly laminar) part of the calcrete. The last phases of crust formation took place when ponded waters filled the cavities. The calcrete crusts developed on the Cayman Formation dolostones record a very specific setting for calcrete formation and constitute a good example of non-horizontal calcrete crusts.
References
Alonso-Zarza, A.M., 1999. Initial stages of laminar calcrete formation by roots: examples from the Neogene of central Spain. Sedimentary Geology, 126, 177-191.
Alonso-Zarza, A.M., 2003. Palaeoenvironmental significance of palustrine carbonates and calcretes in the geological record. Earth-Science Reviews, 60, 261-298.
Alonso-Zarza, A.M., Calvo, J.P., García del Cura, M.A., 1992. Palustrine sedimentation and associated features –grainification and pseudo-microkarst- in the Middle Miocene (Intermediate Unit) of the Madrid Basin, Spain. Sedimentary Geology, 76, 43-61.
Alonso-Zarza, A.M., Sanz, M.E., Calvo, J.P., Estévez, P., 1998a. Calcified root cells in Miocene pedogenic carbonates of the Madrid Basin: evidence for the origin of Microcodium b. Sedimentary Geology, 116, 81-97.
Alonso-Zarza, A.M., Silva, P., Goy, J.L., Zazo, C., 1998b. Fansurface dynamics and biogenic calcrete development: Interactions during ultimate phases of fan evolution in the semiarid SE Spain (Murcia). Geomorphology, 24, 147-167.
Arakel, A.V., 1991. Evolution of Quaternary duricrusts in Karinga Creek drainage system, central Australian groundwater discharge zone. Australian Journal of Earth Sciences, 38, 333-347.
Bradley, P.E., 1985. Birds of the Cayman Islands. George Town, British West Indies, World Pubns, 245 pp.
Brunt, M.E., 1994. Vegetation of the Cayman Islands. In: Brunt, M.A., Davies, J.E., (eds.). The Cayman Islands: Natural History and Biogeography. The Netherlands, Kluwer Academic Publishers, 245-282 pp.
Calvet, F., Juliá, R., 1983. Pisoids in the caliche profiles of Tarragona (NE Spain). In: T.M. Peryt (ed.). Coated Grains. Berlin, Ed. Springer, 73-79 pp.
Esteban, M., Klappa, C.F., 1983. Subaerial exposure environments. In: Scholle, P.A., Bebout, D.G., Moore, C.H. (eds.). Carbonate Depositional Environments. American Association Petroleum Geologists Memoir, 33, 1-96.
Folk, R.L., Roberts, H.H., Moore, C.H., 1973. Black phytokarst from Hell, Cayman Islands, British West Indies. Geological Society of America Bulletin, 84, 2351-2360.
Freytet, P., Plaziat, J.C., 1982. Continental carbonate sedimentation and pedogenesis –Late Cretaceous and Early Tertiary of southern France. Contributions to Sedimentology, 12, Schweizerbart, Stuttgart, 213 pp.
Gile, L.H., Peterson, F.F., Grossman, R.B., 1965. The K horizon: a master horizon of carbonate accumulation. Soil Science, 97, 74-82.
Gile, L.H., Peterson, F.F., Grossman, R.B., 1966. Morphological and genetic sequences of carbonate accumulation in desert soils. Soil Science, 101, 347-360.
Goudie, A.S., 1973. Duricrusts in Tropical and Subtropical Landscapes. Claredon Press, Oxford, 174 pp.
Goudie, A.S., 1983. Calcrete. In: Goudie, A.S., Pye, K. (eds.). Chemical Sediments and Geomorphology. London, Academic Press, 93-131.
Jones, B., 1989. The role of micro-organisms in phytokarst development on dolostones and limestones, Grand Cayman, British West Indies. Canadian Journal of Earth Sciences, 26, 2204-2213.
Jones, B., 1992. Construction of spar calcite crystals around spores. Journal of Sedimentary Petrology, 62, 1054-1057.
Jones, B., 1994. Geology of the Cayman Islands. In: Brunt, M.A., Davies, J.E., (eds.). The Cayman Islands: Natural History and Biogeography. The Netherlands, Kluwer Academic Publishers, 13-49.
Jones, B., Squair, C.A., 1989. Formation of peloids in plant rootlets, Grand Cayman, British West Indies. Journal of Sedimentary Petrology, 59, 457-467.
Kahle, C.H., 1977. Origin of subaerial Holocene calcareous crusts: role of algae, fungi and sparmicritisation. Sedimentology, 24, 413-435.
Kosir, A., 2004. Microcodium revisited: root calcification products of terrestrial plants on carbonate-rich substrates. Journal of Sedimentary Research, 74, 845-857.
Loisy, C., Verrecchia, E.P., Dufour, P., 1999. Microbial origin for pedogenic micrite associated with a carbonate paleosol (Champagne, France). Sedimentary Geology, 126, 193-204.
Machette, M.N., 1985. Calcic soils of southwestern United States. In: Weide C.L. (ed.). Soil and Quaternary Geology of the Southwestern United States. Geological Society of America, Special Paper, 203, 1-21.
Mack, G.H., Cole, D.R., Treviño, L., 2000. The distribution and discrimination of shallow, authigenic carbonate in the Pliocene-Pleistocene Palomas Basin, southern Rio Grande rift. Geological Society of America Bulletin, 112, 643-656.
Phillips, S.E., Self, P.G., 1987. Morphology, crystallography and origin of needle-fibrefiber calcite in Quaternary pedogenic carbonates of South Australia. Australian Journal Soil Research, 25, 429-444.
Rossinsky, V., Wanless, H.Jr., Swart, P.K., 1992. Penetrative calcretes and their stratigraphic implications. Geology, 20, 331-334.
Verrecchia, E.P., Verrecchia, K.E., 1994. Needle-fiber calcite: a critical review and a proposed classification. Journal of Sedimentary Research, A64, 650-664.
Verrecchia, E.P., Freytet, P., Verrecchia, K.E., Dumont, J.L., 1995. Spherulites in calcrete laminar crusts: biogenic CaCO3 precipitation as a major contributor to crust formation. Journal of Sedimentary Research, A65, 690-700.
Vézina, J., Jones, B., Ford, D., 1999. Sea-level highstands over the last 500,000 years: evidence from the Ironshore Formation on Grand Cayman, British West Indies. Journal of Sedimentary Research, 69, 317-327.
Wright, V.P., 1986. The role of fungal biomineralization in the formation of early Carboniferous soil fabrics. Sedimentology, 33, 831-838.
Wright, V.P., 1994. Paleosols in shallow marine carbonate sequences. Earth-Science Reviews, 35, 367-395.
Wright, V.P., Alonso-Zarza, A.M., 1990. Pedostratigraphic models for alluvial fan deposits: a tool for interpreting ancient sequences. Journal Geological Society London, 147, 8-10.
Wright, V.P., Tucker, M.E., 1991. Calcretes: an introduction. In: Wright, V.P., Tucker, M.E. (eds.). Calcretes. IAS Reprint series 2. Oxford, Blackwell Scientific Publications, 1-22.
Wright, V.P., Platt, N.H., Marriot, S.B., Beck, V.H., 1995. A classification of rhizogenic (root-formed) calcretes, with examples from the Upper Jurassic-Lower Carboniferous of Spain and Upper Cretaceous of southern France. Sedimentary Geology, 100, 143-158.
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