Environmental Engineering Reference
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Cherns, L., Wheeley, J.R., Karis, L., 2006. Tunneling trilobites; habitual infaunalism in an Ordo-
vician carbonate seafloor. Geology 34, 657-660.
Cocks, L.R.M., Torsvik, T.H., 2005. Baltica from the late Precambrian to mid-Palaeozoic times: the
gain and loss of terrain's identity. Earth-Sci. Rev. 72, 39-66.
Cunningham, K.J., Sukop, M.C., Huang, H., Alvarez, P.F., Curran, H.A., Renken, R.A., Dixon, J.F.,
2009. Prominence of ichnologically influenced macroporosity in the karst Biscayne aquifer:
stratiform “super-K” zones. GSA Bull. 121, 164-186.
Cunningham, K.J., Sukop,M.C., Curran, H.A., 2012. Carbonate aquifers. In: Knaust, D., Bromley, R.G.
(Eds.), TraceFossils as Indicators of SedimentaryEnvironments. Developments inSedimentology,
vol. 64. Elsevier, Amsterdam, pp. 871-898.
Curran, H.A., 1984. Ichnology of Pleistocene carbonates on San Salvador, Bahamas. J. Paleontol.
58, 312-321.
Curran, H.A., 1994. The palaeobiology of ichnocoenoses in Quaternary, Bahamian-style carbonate
environments: the modern to fossil transition. In: Donovan, S.K. (Ed.), Palaeobiology of Trace
Fossils. John Wiley & Sons, Chichester, pp. 83-104.
Curran, H.A., 2007. Ichnofacies, ichnocoenoses, and ichnofabrics of Quaternary shallow-marine to
dunal tropical carbonates: a model and implications. In: Miller III, W. (Ed.), Trace Fossils. Con-
cepts, Problems, Prospects. Elsevier, Amsterdam, pp. 232-247.
Curran, H.A., Martin, A.J., 2003. Complex decapod burrows and ecological relationships in modern
and Pleistocene intertidal carbonate environments, San Salvador Island, Bahamas. Palaeogeogr.
Palaeoclimatol. Palaeoecol. 192, 229-245.
Curran, H.A., White, B., 1991. Trace fossils of shallow subtidal to dunal ichnofacies in Bahamian
Quaternary carbonates. Palaios 6, 498-510.
Curran, H.A., White, B. (Eds.), 1995. Terrestrial and Shallow Marine Geology of the Bahamas and
Bermuda. GSA Spec. Pap. 300, 344 pp.
Curran, H.A., White, B., 1997. A
Conichnus conicus
-generated ichnofabric in the late Pleistocene
limestones at Clifton Pier, New Providence Island, Bahamas. In: Curran, H.A. (Ed.), Guide to
Bahamian Ichnology: Pleistocene, Holocene, and Modern Environments. Bahamian Field Sta-
tion, San Salvador, pp. 55-61.
Curran, H.A., White, B., 2001. Ichnology of Holocene carbonate eolianites of the Bahamas. In:
Abegg, F.E., Harris, P.M., Loope, D.B. (Eds.), Modern and Ancient Carbonate Eolianites: Sed-
imentology, Sequence Stratigraphy, and Diagenesis. SEPM Spec. Publ., vol. 71, pp. 47-56.
De, C., 2005. Biophysical model of intertidal beach crab burrowing: application and significance.
Ichnos 12, 11-29.
de Gibert, J.M., 1996.
Diopatrichnus odlingi
n. isp. (annelid tube) and associated ichnofabrics in the
White Limestone (M. Jurassic) of Oxfordshire: sedimentological and palaeoecological signif-
icance. Proc. Geol. Ass. 107, 189-198.
de Gibert, J.M., Ekdale, A.A., 1999. Trace fossil assemblages reflecting stressed environments in the
Middle Jurassic Carmel Seaway of Central Utah. J. Paleontol. 73, 711-720.
de Gibert, J.M., Goldring, R., 2007. An ichnofabric approach to the depositional interpretation of the
intensely burrowed Bateig Limestone, Miocene, SE Spain. Sediment. Geol. 194, 1-16.
Diedrich, C., 2008. Millions of reptile tracks—Early to Middle Triassic carbonate tidal flat migra-
tion bridges of Central Europe—reptile immigration into the Germanic Basin. Palaeogeogr.
Palaeoclimatol. Palaeoecol. 259, 410-423.
Dronov, A.V., 1998. Stormovaja sedimentatsija v nizhneordovikskikh karbonatno-terrigennykh
otlozhenijakh okrestnostej Sankt-Peterburga [Storm sedimentation in the Lower Ordovician
carbonate-terrigenous deposits of the St. Petersburg region]. Bulleten' Moskovskogo
Obschestva Ispytateley Prirody, Otdelenie Geologicheskoe 73, 43-51 (in Russian).
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