Environmental Engineering Reference
In-Depth Information
Driese, S.G., Foreman, J.L., 1991. Traces and related chemical changes in a Late Ordovician paleo-
sol, Glossifungites Ichnofacies, southern Appalachians, USA. Ichnos 1, 207-219.
Droser, M.L., Bottjer, D.J., 1986. A semiquantitative classification of ichnofabric. J. Sediment.
Petrol. 56, 558-559.
Dufour, S.C., Desrosiers, G., Long, B., Lajeunesse, P., Gagnoud, M., Labrie, J., Archambault, P.,
Stora, G., 2005. A new method for three-dimensional visualization and quantification of bio-
genic structures in aquatic sediments using axial tomodensitometry. Limnol. Oceanogr. Meth.
3, 372-380.
Ekdale, A.A., Bromley, R.G., 2001. Bioerosional innovation for living in carbonate hardgrounds in
the Early Ordovician of Sweden. Lethaia 34, 1-12.
Ekdale, A.A., Bromley, R.G., 2003. Paleoethologic interpretation of complex Thalassinoides in
shallow-marine limestones, Lower Ordovician, southern Sweden. Palaeogeogr. Palaeoclimatol.
Palaeoecol. 192, 221-227.
Ekdale, A.A., Bromley, R.G., Pemberton, S.G., 1984. Ichnology. The Use of Trace Fossils in Sedi-
mentology and Stratigraphy. SEPM Short Course Notes 15, 317 pp.
Ekdale, A.A., Bromley, R.G., Knaust, D., 2012. The ichnofabric concept. In: Knaust, D., Bromley, R.G.
(Eds.), TraceFossils as Indicators of SedimentaryEnvironments. Developments inSedimentology,
vol. 64. Elsevier, Amsterdam, pp. 139-155.
Farrow, G.E., 1975. Techniques for the study of fossil and recent traces. In: Frey, R.W. (Ed.), Trace
Fossils. Springer, New York, pp. 537-554.
Fiala, J.C., 2005. Reconstruct : a free editor for serial section microscopy. J. Microsc. 218, 52-61.
Fl¨gel, E., 2004. Microfacies of Carbonate Rocks: Analysis, Interpretation and Application.
Springer, Berlin, 976 pp.
Francus, P., 2001. Quantification of bioturbation in hemipelagic sediments via thin-section image
analysis. J. Sediment. Res. 71, 501-507.
Francus, P. (Ed.), 2004. Image Analysis, Sediments and Paleoenvironments. In: Developments in
Paleoenvironmental Research, vol. 7. Springer, Dordrecht, 330 pp.
Fu, S., Werner, F., Brossmann, J., 1994. Computed tomography: application in studying biogenic
structures in sediment cores. Palaios 9, 116-119.
Gaillard, C., Jautee, E., 1987. The use of burrows to detect compaction and sliding in fine-grained
sediments: an example from the Cretaceous of S.E. France. Sedimentology 34, 585-593.
Garton, M., McIlroy, D., 2006. Large thin slicing: a new method for the study of fabrics in lithified
sediments. J. Sediment. Res. 76, 1252-1256.
Gatesy, S.M., Shubin, N.H., Jenkins Jr., F.A., 2005. Anaglyph stereo imaging of dinosaur track mor-
phology and microtopography. Palaeontologica Electronica 8, 10 pp. http://palaeo-electronica.
org/2005_1/gatesy10/issue1_05.htm .
Gerard, J.R.F., Bromley, R.G., 2008. Ichnofabrics in Clastic Sediments: Applications to Sedimen-
tological Core Studies. Jean R.F. Gerard, Madrid, 97 pp.
Gingras, M.K., Pemberton, S.G., Mendoza, C.A., Floyd, H., 1999. Assessing the anisotropic perme-
ability of Glossifungites surfaces. Petrol. Geosci. 5, 349-357.
Gingras, M.K., MacMillan, B., Balcom, B.J., Saunders, T., Pemberton, S.G., 2002a. Using magnetic
resonance imaging and petrographic techniques to understand the textural attributes and poros-
ity distribution in Macaronichnus -burrowed sandstone. J. Sediment. Res. 72, 552-558.
Gingras, M.K., Pickerill, R., Pemberton, G.S., 2002b. Resin cast of modern burrows provides ana-
logs for composite trace fossils. Palaios 17, 206-211.
Gingras, M.K., Mendoza, C.A., Pemberton, S.G., 2004. Fossilized worm burrows influence the
resource quality of porous media. AAPG Bull. 88, 875-883.
Previous Page
Next Page
Trace Fossils as Indicators of Sedimentary Environments
Search WWH ::




Custom Search
Home