Summary
This report presents the results of taphofacies analyses of shelly cheniers (mollusk-dominated lag-concentrations) from the tidal flats of northeastern Baja California, Mexico. The three generations of moderm (formed during last 70 years), submodem (younger than 1,500 BP), and subfossil (5,000–2,000 BP) cheniers can be distinguished by their position relative to the shoreline, their topography, and the radiocarbon-age of their shells. The generations differ in the duration and complexity of their taphonomic history. Sixty-one samples from nine localities were collected to test the utility of the taphofacies approach for studying chenier-type shell deposits. The three chenier generations, although all dominated by the bivalve molluskMulinia coloradoensis, differ significantly in their taxonomic composition due to taphonomic and/or biologic factors. The taphofacies analysis included 4,334 specimens ofM. coloradoensis described by nine taphonomic variables. Univariate analysis of those variables indicated that the shells that accumulated in the cheniers are little-affected by biological processes (bioerosion, encrustation), and moderately affected by physical processes (fragmetation, cracking, peeling, edge preservation). Only the luster features of shells (external luster, internal luster, and internal features) vary substantially and consistently with chenier age —a result of subaerial weathering. Multivariate taphofacies analysis discriminates the three generations of cheniers even when the poorly preservable luster variables are excluded from the analysis. This suggests that taphofacies discrimination is possible for fossil cheniers. The shells collected from the chenier surface have substantially poorer preservation than shells from the subsurface, indicating that taphonomic degradation in the chenier plain environment is a surface phenomenon. Chenier plain shelly assemblages are taphonomically distinct from assemblages formed in other marine environments: they have a very low frequency of macroscopically recognizable bioerosion and encrustation. The existence of preservable taphonomic differences between the cheniers that differ in their age (i.e., duration of preburial history), suggests that fossil lag concentrations may be useful in detecting incompleteness gradients along stratigraphic boundaries. A ‘taphonomic clock’—a correlation between a ‘time-sincedeath’ and shell preservation—was found only for luster features, taphonomic attributes that are unlikely to be preserved in the fossil record.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Albrecht, G.H. (1980): Multivariate analysis and the study of form with special reference to canonical variate analysis.—Am. Zool.20, 679–693, Utica
Alexandersson, E.T. (1972): Micritization of carbonate particles: processes of precipitation and dissolution in modern shallow marine sediments.—Bull. Geol. Inst. Univ. Uppsala N.S.7, 201–236, Uppsala
— (1976): Actual and anticipated petrographic effects of carbonate undersaturation in shallow seawater.—Nature,262, 653–657, London
— (1978): Destructive diagenesis of carbonate sediments in the eastern Skagerrak, North Sea.—Geology,6, 324–327, Boulder
— (1979): Marine maceration of skeletal carbonates in the Skagerrak, North Sea.—Sedimentology,26, 845–852, Oxford
Aller, R.C. (1982): Carbonate dissolution in nearshore terrigenous muds: the role of physical and biological reworking.—J. Geol.90, 79–95, Chicago
Augustinus, P.G.E.F. (1989): Cheniers and chenier plains: a general introduction.—Mar. Geol.90, 219–229, Amsterdam
Banerjee, I. &Kidwell, S.M. (1991): Significance of molluscan shell beds in sequence stratigraphy: an example from the Lower Cretaceous Mannville Group of Canada.—Sedimentology38, 913–934, Oxford
Batten, J., Chesley, K.B., Graybill, J.K., Marcot, J.D., Ramsey, M., Riley, B.C.D., Shinker, J.J., Smith, O.A. & Speer, J.H. (1994): Geomorphology, sedimentary structures, and biota of the Lower Colorado delta, Baja California, Mexico.—University of Arizona Gesocience Symposium, Program and Abstracts,1994, 6, Tucson
Bishoff, J.L. &Henyey, T.L. (1974): Tectonic elements of the central part of the Gulf of California.—Geol. Soc. Amer. Bull.85, 1893–1904, Boulder
Bishop, J.D.D. (1988): Disarticulated bivalve shells as substrates for encrustation by the BryozoaCibrilina puncturata in the Plio-Pleistocene Red Crag of Eastern England.—Palaeontology,31, 237–253, Oxford
Blake, W.P. (1907): Lake Cahuilla.—National Geographic Magazine2, 62–103, Washington, D.C.
Bosence, D.W.J. (1976): Ecological and sedimentological studies on two attached coralline algae from Western Ireland.—Palaeontology19, 365–395, Oxford
Boekschoten, G.J. (1966): Shell borings of sessile epibiontic organisms as paleoecological guides (with examples from the Dutch coast).—Palaeogeogr. Palaeoclimat. Palaeoecol.2, 333–379, Amsterdam
Brandt-Velbel, D.S. (1985): Ichnologic, taphonomic, and sedimentologic clues to the deposition of Cincinnatian Shales (Upper Ordovician), Ohio, U.S.A.—In:Curran, A.H. (ed.): Biogenic structures: their use in interpreting depositional environments. —Soc. Econ. Paleont. Miner. Spec. Publ.35, 299–307, Tulsa
Brandt, D.S. (1989): Taphonomic grades as a classification for fossiliferous assemblages and implications for paleoecology.— Palaios4, 303–309, Tulsa
Bray, N.A. & Robles, J.M. (1991): Physical oceanography of the Gulf of California.—In:Dauphin, J.P. & Simonett, B.R.T. (eds.): The Guld and Peninsular provinces of the Californias.— Amer. Assoc. Petr. Geol. Memoir,47, 511–553, Tulsa
Brett, C.E. &Bairo, G.C. (1986): Comparative taphonomy: Akey for paleoenvironmental reconstruction.—Palaios1, 207–227, Tulsa
—— (1993): Taphonomic approaches to temporal resolution in stratigraphy: examples from Paleozoic marine mudrocks.—In:Kidwell, S.M. &Behrensmeyer, A.K. (eds.): Taphonomic Approaches to Time Resolution in Fossil Assemblages.—Short Courses in Paleontology6, 250–274 Knoxville (University of Tennessee)
Brusca, R.C. (1980): Common intertidal invertebrates of the Gulf of California.—2nd ed., 513 p. Tucson (The University of Arizona Press)
Cadée, G.C. (1968): Molluscan biocoenoses and thanatocoenoses in the Ria de Arosa, Galicia, Spain.—Zool. Verh. Leiden,95, 1–121, Leiden
— (1989): Size-selective transport of shells by birds and its paleoecological implications.—Palaeontology32, 429–437, Oxford
Callendar, W.R. &Powell, E.N. (1992): Taphonomic signature of petroleum seep assemblages on the Louisiana upper continental slope: recognition of autochthonous shell beds in the fossil record.—Palaios,7, 388–408, Tulsa
Callendar, W.R., Powell, E.N., Staff, G.M. &Davies, D.J. (1992): Distinguishing autochthony, parautochthony and allochthony using taphofacies analysis: can cold seep assemblages be discriminated from assemblages of nearshore and continental shelf?.—Palaios,7, 409–421, Tulsa
Carter, R.W.G. (1974): Feeding sea birds as a factor in lamellibranch valve sorting pattern.—J. Sed. Petrol.44, 689–692, Tulsa
Cummins, H., Powell, E.N., Stanton, J.R., Jr. &Staff, G. (1986): The size-frequency distribution in paleoecology: Effects of taphonomic processes during formation of molluscan death assemblages in Texas bays.—Palaeontology29, 495–518, Oxford
Cutler, A.H. (1987): Surface textures of shells as taphonomic indicators.—In:Flessa, K.W. (ed.): Paleoecology and taphonomy of Recent to Pleistocene intertidal deposits, Guld of California.—Paleont. Soc. Spec. Publ.2, 164–176 Knoxville (University of Tennessee)
— (1991): Processes of hardpart breakdown and models of stratigraphic disorder in shallow marine environments.—PhD Dissertation, 256 p., University of Arizona, Tucson
Davies, D.J., Powell, E.N. &Stanton, R.J. (1989a): Taphonomic signature as a function of environmental processes: Shells and shell beds in a hurricane-influenced inlet on the Texas coast.— Palaeogeogr. Palaeoclimat. Palaeocol.72, 317–356, Amsterdam
—— (1989a): Relative rates of dissolution and net sediment accummulation—A commentary: Can shell beds form by the gradual accumulation of biogenic debris on the sea floor?.— Lethaia,22, 207–212, Oslo
Davies, D.J., Staff, G.M., Callendar, W.R. &Powell, E.N. (1990): Description of a quantitative approach to taphonomy and taphofacies analysis: All dead things are not created equal. —In:Miller, W. (.): Paleocommunity temporal dynamics: the long-term development of multispecies assembiles.— Paleont. Soc. Spec. Publ.5, 328–350, Knoxville (University of Tennessee)
Dodd, J.R. &Stanton, R.J. Jr. (1990): Paleoecology, concepts and applications.—2nd ed., 502 p., New York (Wiley)
Driscoll, E.G. (1970): Selective bivalve shell destruction in marine environments, a field study.—J. Sed. Petrol.40, 898–905, Tulsa
Dunteman, G.H. (1989): Principal component analysis.—96 p., London (Sage)
Ely, L.L. (1992): Large floods in the southwestern United States in relation to late-Holocene climatic variations.—Unpublished Ph.D. Dissertation, University of Arizona, Tucson
Ely, L.L., Enzel, Y., Baker, V.R. &Cayan, D.R. (1993): A 5000-year record of extreme floods and climate change in the southwestern United States.—Science,262, 410–412, Washington, D.C.
Enzel, Y. (1992): Flood frequency of the Mojave River and the formation of late Holocene playa lakes, southern California.— The Holocene2, 11–18, Seven Oaks
Enzel, Y., Cayan, D.R., Anderson, R.Y. &Wells, S.G. (1989): Atmospheric circulation during Holocene lake stands in the Mojave desert: evidence of regional climatic change.—Nature,341, 44–47, London
Ezcurra, E. &Rodriguez, V. (1986): Rainfall patterns in the Grand Desierto, Sonora, Mexico.—Journal of Arid Environments10, 13–28, London
Fiege, A. & Fürsich, F.T. (1991): Taphonomy of the Recent molluscs of Bahia la Choya (Gulf of California, Sonora, Mexico). —In:Fürsich, F.T. & Flessa, K.W. (eds.): Ecology, taphonomy, and paleoecology of Recent and Pleistocene molluscan fauna of Bahia la Choya, northern Gulf of California.—Zitteliana,18, 89–134, München
Flessa, K.W. (1993): Time-averaging and temporal resolution in Recent marine shelly faunas.—In:Kidwell, S.M. &Behrensmeyer, A.K. (eds.): Taphonomic Approaches to Time Resolution in Fossil Assemblages.—Short Courses in Paleontology6, 9–33, Knoxville (University of Tennessee)
Flessa, K.W. &Brown, T.J. (1983): Selective solution of macroinvertebrate calcareous hard parts.—Lethaia16, 193–205, Oslo
Flessa, K.W. & Kowalewski, M. (1994): Shell survival and timeaveraging in nearshore and shelf environments: estimates from the radiocarbon literature.—Lethaia,27,in press, Oslo.
Flessa, K.W., Cutler, A.H. &Meldahl, K. (1993): Time and taphonomy: quantitative estimates of time-averaging and stratigraphic disorder in a shallow marine habitat.—Paleobiology,19, 266–286, Lawrence
Flessa, K.W., Kowalewski, M. &Walker, S.E. (1992): Postcollection taphonomy: shell destruction and the Chevrolet.— Palaios,7 553–554, Tulsa
Frey, R.W. &Howard, J.D. (1986): Taphonomic characteristics of offshore mollusk shells, Sapelo Island, Georgia.—Tulane Studies in Geology and Paleontology,19, 51–61, New Orleans
Fürsich, F.T. (1978): The influence of faunal condensation and mixing on the preservation of fossil benthic communities.— Lathaia11, 243–250, Oslo
Fürsich, F.T. &Aberhan, M. (1990): Significance of time-averaging for paleocommunity analysis.—Lethaia,23, 143–152, Oslo
Fürsich, F.T. &Flessa, K.W. (1987): Taphonomy of tidal flat molluscs in the northern Gulf of California: paleoenvironmental analysis despite the perils of preservation.—Palaos,2, 543–559, Tulsa
Fürsich, F.T. & Flessa, K.W. (1991, eds): Ecology, taphonomy, and paleoecology of Recent and Pleistocene molluscan fauna of Bahia la Choya, northern Gulf of California.—Zitteliana,18, 1–180, München
Fürsich, F.T. &Oschamann, W. (1993): Shell beds as tools in basin analysis: the Jurassic of Kachchh, western India.—J. Geol. Soc. Lond.150, 169–185, London
Gastil, R.G. &Philips, R. &Allison, E. (1975): Reconnaissance geology of the state of Baja California.—Geol. Soc. Amer. Memoir,140, 1–170, Boulder
Glover C.P. &Kidwell, S.M. (1993): Influence of organic matrix on the post-mortern destruction of molluscan shells.—J. Geol.101, 729–747, Chicago
Golubic, S, Perkins, R.D. &Lukas, K.J. (1975): Boring microorganisms and microborings in carbonate substrates.—In:Frey, R.W. (ed.): The study of trace fossils: A synthesis of principles, problems and procedures in ichnology.—229–259, New York (Springer-Verlag)
Goodfriend, G.A. (1987): Chronostratigraphic studies of sediments in the Negav Desert, using amino acid epimerization analysis of land snails.—Quat Res.28, 374–392, New York
Hecht, F. (1933): Der Verbleib der organischen Substanz der Tiere bei meerischer Einbettung.—Senckenbergiana15, 165–249, Frankfurt am Main
Henderson, S.W. &Frey, R.W. (1986): Taphonomic redistribution of mollusk shells in a tidal inlet channel, Sapelo Island, Georgia.—Palaios,1, 3–16, Tulsa
Holland, S.M. (1988): Taphonomic effects of sea-floor exposure on an Ordovician brachiopod assemblage.—Palaios,3, 588–597, Tulsa
Hollman, R. (1966): Tauchbeobachtungen zur Mollusken-Verbreitung unf Sediment-Umlagerung im Golf von Neapel.— N. Jb. Geol. Paläont. Abh.125 499–526, Stuttgart
Hoyt, J.H. (1969): Chenier versus barrier, genetic and stratigraphic distinction.—Amer. Assoc. Petrol. Geol. Bull.53, 299–306, Tulsa
Hubbs, C.L., Bien, G.S. &Suess, H.E. (1962): La Jolla natural radiocarbon measurements II.—Radiocarbon4, 204–238, New Haven
—— (1963): La Jolla natural radiocarbon measurements III. —Radiocarbon,5, 274–272, New Haven
—— (1965): La Jolla natural radiocarbon measurements IV. —Radiocarbon7, 66–117, New Haven
Jiménez, A.P. &Braga, J.C. (1993): Occurrence and taphonomy of bivalves from the Níjar reef (Messinian, Late Miocene SE Spain).—Palaeogeogr. Palaeoclimat. Palaeoecol.102, 239–251, Amsterdam
Kähn, H. (1932): Der quantitative Verlauf der Aufarbeitung von Sanden, Geröllen und Schallen in wässerigem Medium.—N. Jb. Min. Geol. Paläont.67, Abt B, 313–412, Stuttgart
Keen, A.M. (1971): Sea shells of tropical West America.—2nd ed., 1064 p, Stanford (Stanford University Press)
Keen, A.M. &Coan, E. (1974): Marine molluscan genera of western North America.—2nd ed., 208 p., Stanford (Stanford University Press)
Kidwell, S.M. (1988): Taphonomic comparison of passive and active continental margins: Neogene shell beds of the Atlantic coastal plain and northern Gulf of California.—Palaeogeogr. Palaeoclimat. Palaeoecol.63, 201–223, Amsterdam
— (1989): Stratigraphic condensation of marine transgressive records: Origin of major shell deposits in the Miocene of Maryland.—J. Geol.97, 1–24, Chicago
— (1991): The stratigraphy of shell concentrations.—In:Allison, P.A. &Briggs D.E.G. (eds.): Taphonomy: Releasing data locked in the fossil record.—Topics in Geobiology9, 211–290, New York, (Plenum Press)
— (1993A): Taphonomic expressions of sedimentary hiatus: field observations on bioclastic concentrations and sequence anatomy in low, moderate and high subsidence settings.—Geologische Rundschau82, 189–202, Berlin
— (1993B): Patterns of time-averaging in the shallow marine fossil record—In:Kidwell, S.M. &Behrensmeyer, A. K. (eds.): Taphonomic Approaches to Time Resolution in Fossil Assemblages.—Short Courses in Paleontology6, 275–300, Knoxville (University of Tennessee)
Kidwell, S.M. &Bosence, D.W.J. (1991): Taphonomy and time-averaging of marine shelly faunas.—In:Allison, P.A. &Briggs D.E.G. (eds.): Taphonomy: Releasing data locked in the fossil record.—Topics in Geobiology9, 115–209, New York (Plenum Press)
Kornicker, L.S., Wise, C.D. &Wise, J.M. (1963): Factors affecting the distribution of opposing mollusk valves.—J. Sed. Petrol.33, 703–712, Tulsa
Kowalewski, M. (1990): A hermeneutic analysis of the shell-drilling gastropod predation, on mollusks in the Korytnica Clays (Middle Miocene; Holy Cross Mountains, Central Poland).— Acta Geol. Pol.,40, 183–213, Warszawa
— (1993): Morphometric analysis of predatory drillholes.— Palaeogeogr. Palaeoclimat. Palaeoecol.102, 69–88, Amsterdam
Kowalewski, M. &Misniakiewicz, W. (1993): Reliability of quantitative data on fossil assemblages: a model, a simulation, and an example.—N. Jb. Geol. Paläont. Abh.187, 243–260, Stuttgart
Krzanowski, W.J. (1988): Principles of multivariate analysis: a user's perspective—563 p. Oxford (Clarendon Press)
Lees, B.G. (1992): The development of a chenier sequence on the Victoria delta, Joseph Bonaparte Gulf, northern Australia.— Mar. Geol.103, 215–224, Amsterdam
Lewy, Z. (1981): Maceration of skeletal carbonates.—Sedimentology28, 893–895, Oxford
MacIntyre, I.G., Pilkey, O.H. &Stuckenrath, R. (1978): Relict oysters on the United States Atlantic coastal shelf: A reconsideration of their usefulness, in understanding late Quaternary sea-level history.—Geol. Soc. Amer. Bull.89, 277–282, Boulder
Marcus, E. &Marcus, E. (1967): American opisthobranch mollusks.—Studies in Tropical Oceanography,6, 1–256, Miami
Marcus, L. (1990): Traditional morphometrics.—In:Rohlf, F.J. & Bookstein, F.L. (eds.): Proceedings of the Michigan Morphometric Workshop.—Univ. Michigan Mus. Zool. Spec. Publ.2, 77–122, Ann Arbor
Meckel, L.D. (1975): Holocene sand bodies in the Colorado Delta area, northern Gulf of California.—In:Broussard, M.L. (ed.): Deltas. Models for Exploration.—239–265, Houston Geological Society, Houston
Meldahl, K. (1993): Geographic gradients in the formation, of shell concentrations: Plio-Pleistocene marine deposits, Gulf of California.— Palaeogeogr. Palaeoclim. Palaeoecol.101, 1–25, Amsterdam
Meldahl, K. &Cutler, A.H. (1992): Neotectonics and taphonomy: Pleistocene molluscan shell accumulations in the northern Gulf of California.—Palaios,7, 187–197, Tulsa
Meldahl, K. &Flessa, K.W. (1990): Taphonomic pathways and comparative biofacies and taphofacies in a Recent intertidal/shallow shelf environment.—Lethaia,23, 43–60, Oslo
Miller, A.I. (1988): Spatial resolution in subfossil molluscan remains: Implications for paleobiological analysis.— Paleobiology,14, 91–103, Lawrence
Moore, D.G. (1973): Plate-edge deformations and crustal growth of the Gulf of California structural province.—Geol. Soc. Amer. Bull.84, 1883–1905. Boulder
Morris, P. (1966): A field guide to shells of the Pacific coast and Hawaii including shells of the Gulf of California.—2nd ed., 297 p. Boston (Houghton Mifflin)
Morton, J.E. (1967): Molluscs.—4th ed., 244 p., London, (Hutchison)
Müller, A.H. (1979): Fossilization (Taphonomy).—In:Robison, R.A. &Teichert, C. (eds.): Treatise on Invertebrate Paleontology. Part A. Introduction.—A2-A78. Lawrence (University of Kansas Press)
Nebelsick, J.H. (1992): Echinoid distribution by fragment identification in the Northern Bay of Safaga, Red Sea, Egypt.— Palaios,7, 316–328, Tulsa
Nelson, C.S. &Bornhold, B.D. (1983): Temperate skeletal carbonate sediments on Scott Shelf, northeastern Vancouver Island, Canada.—Mar. Geol.52, 241–246, Amsterdam
Norris, R.D. (1986): Taphonomic gradients in shelf fossil assemblages: Pliocene Purisima Formation, California.—Palaois,1, 256–270, Tulsa
Oboh, F.E. (1992): Multivariate statistical analyses of palynodebris from the Middle Miocene of the Niger Delta and their environmental significance.—Palaios,7, 559–573, Tulsa
Olsson, A.A. (1961): Mollusks of the tropical eastern Pacific, particularly from the southern half of the Panamic-Pacific faunal province (Panama to Peru). Panamic Pacific Pelecypoda. —574 p., Paleont. Res. Institute, Ithaca
Otvos, E.G. &Price, W.A. (1979): Problems of chenier genesis and terminology—An overview.—Mar. Geol.3, 251–263 Amsterdam
Parker, R.H. (1964): Zoogeography and ecology of some macroinvertebrates particularly mollusks, in the Gulf of California and the continental slope of Mexico.—Vidensk. Medd. Dansk. naturh. Foren.126, 1–178, København
Parsons, K.M. (1989): Taphonomy as indicator of environment: Smuggler's Cove, St. Croix, U.S. V.I.—In:Hubbard, D.K. (ed.): Terrestrial and marine ecology of St. Croix, U.S. Virgin Islands.—West Indies Laborat. Spec. Public.8, 135–143, St. Croix
Parsons, K.M. &Brett, C.E. (1991): Taphonomic processes and biases in modern marine environments: an actualistic perspective on fossil assemblage preservation—In:Donovan, S.K. (ed.): The processes of fossilization.—22–65, New York, (Columbia University Press)
Peterson, C.H. (1976): Relative abundance of living and dead molluscs in two California lagoons.—Lethaia,9, 137–148, Oslo
Powell, E.N. &Davies, D. (1990): When is an ‘old’ shell really old? —J. Geol.98, 823–844, Chicago
Powell, E.N., Staff, G., Davies, D.J. &Callendar, W.R. (1989): Macrobenthic death assemblages in modem, marine environments: formation, interpretation and application.—Critical Reviews in Aquatic Sciences,1, 555–589, Basel
Reaves, C.M. (1986): Organic matter metabolizability and calcium carbonate dissolution in nearshore marine muds.—J. Sed. Petrol.35, 956–963, Tulsa
Reyment, R.A., Blackith, R.E. &Campbell, N.A. (1984): Multivariate morphometrics.—2nd edn., 225 p, London, (Academic Press)
Roden, G.I. (1964): Oceanographic aspects of the Gulf of California.—In:van Andel, T.H. & Shor, G.G. (eds.): Marine geology of the Gulf of California.—Amer. Assoc. Petrol. Geol. Memoir,3, 30–58, Tulsa
SAS Institute (1989): SAS/STAT® User's Guide: Version 6.—4th ed., 943 p. (Vol. 1), 846 p., (Vol. 2), Cary (Sas Institute)
SAS Institute (1990): SAS® Procedures Guide: Version 6.—3rd ed., 705 p., Cary (Sas Institute)
Schäfer, W. (1972): Ecology and paleoecology of marine environments. —568 p., Chicago (University of Chicago Press)
Shi, G.R. (1993): Multivariate data analysis in paleoecology and paleobiogeography—a review.—Palaeogeogr. Palaeoclimat. Palaeoecol.105, 199–234, Amsterdam
Short, A.D. (1989): Chenier research on the Australian coast.— Mar. Geol.90, 345–351, Amsterdam
Shuisky, Y.D. (1989): Approaches to the study of cheniers along the coastline of the Soviet Union.—Mar. Geol.90, 289–296, Amsterdam
Speyer, S.E. &Brett, C.E. (1986): Trilobite taphonomy and Middle Devonian taphofacies.—Palaios,1, 312–327, Tulsa
—— (1988): Taphofacies models for epeiric, sea environments: Middle Paleozoic exmaples.—Palaeogeogr. Palaecolimat. Palaeoecol.63, 225–262, Amsterdam
—— (1991): Taphofacies controls background and episodic processes in fossil assemblage preservation.—In:Allison, P.A. &Briggs D.E.G. (Eds.): Taphonomy: Releasing data locked in the fossil record.—Topics in Geobiology9, 501–545, New York, (Plenum Press)
Springer, D.A. &Bambach, R.K. (1985): Gradient versus cluster analysis of fossil assemblages: a comparison from the Ordovician of southwestern Virginia.—Lethaia,18, 181–198, Oslo
Staff, G.M. &Powell, E.N. (1990a): Local variability of taphonomic attributes in a parautochthonous assemblage: can taphonomic signature distinguish a heterogeneous environment?— J. Paleont.64, 648–658, Lawrence
—— (1990b): Tapnonomic signature and the imprint of taphonomic history: Discriminating between taphofacies of inner continental shelf and a microtidal inlet.—In:Miller, W. (ed.): Paleocommunity temporal dynamics: the long-term development of multispecies assemblies.—Paleont. Soc. Spec. Publ.5, 370–390, Knoxville (University of Tennessee)
Staff, G.M., Stanton, R.J., Jr., Powell, E.N. &Cummins, H. (1986): Time-averaging, taphonomy, and their impact on paleocommunity reconstruction: Death assemblages in Texas bays.—Geol. Soc. Amer. Bull.97, 428–443, Boulder
Stapor, F.W. Jr., Mathews, T.D. &Lindfors-Kearns, F.E. (1988): Episodic barrier island growth in southwest Florida: a response to fluctuating Holocene sea level?—Miami Geol. Soc. Memoir3, 149–201, Miami
———, (1988): Barrier-island progradation and Holocene sealevel history in southwest Florida.—J. Coast. Res.7, 815–838, Fort Landerdale
Stenzel, H.B. (1971): Oysters.—Moore, R.C. (ed.): Treatise on Invertebrate Paleontology. Part N (Mollusca 6, vol. 3).—N953-N1224, Lawrence (University of Kansas Press).
Suarez-Vidal, F., Armauo, R., Morgan, G. Bodin, P. & Gastil, G.R. (1991): Framework of Recent and active faulting in northem Baja California.—In:Dauphin, J.P. & Simoneit, B.R.T. (eds.): The Gulf and Peninsular provinces of the Californias.— Amer. Assoc. Petr. Geol. Memoir,47, 285–300, Tulsa
Sykes, G.G. (1937): The Colorado Delta.—Carnegie Institution, Washington Publication460, 1–193, Washington, D.C.
Thomson, D.A., (1993, ed.): 1993 Tide calendar for the northern Gulf of California.—no page numbers, Tucson (The University of Arizona Press)
Thompson, R.W. (1968): Tidal flat sedimentation on the Colorado River delta, Northwestern Gulf of California.—Geol. Soc. Amer. Memoir107, 1–133, Boulder
Trewin, N.H. &Welsh, W. (1976): Formation, and composition of a graded estuarine shell bed.—Palaeogeogr. Palaeoclimat. Palaeoecol.19, 219–230, Amsterdam
van Andel T.H. (1964): Recent marine sediments of Gulf of California.—In:van Andel, T.H. & Shor, G.G. (eds.): Marine geology of the Gulf of California.—Amer. Assoc. Petrol. Geol. Memoir,3, 216–310 Tulsa
Warme, J.E. (1975): Bonngs as trace fossils and the processes of marine bioerosion.—In:Frey, R.W. (ed.): The study of trace fossils: A synthesis of principles, probles and procedures in ichnology.—181–227, New York, (Springer-Verlag)
Walker, B.M. (1979): Shell dissolution: destructive diagenesis in a meteoric environment.—Scanning Electron Microscopy,1979/II, 463–468, O'Hare (SEM Inc.)
Walker, T.R., andThompson, R.W. (1968): Late Quaternary geology of the San Felipe area, Baja California, Mexico.—J. Geol.76, 479–485, Chicago
Waters, M.R. (1983): Late Holocene lacustrine chronology and archeology of ancient Lake Cahuilla, California.—Quat. Res.19, 373–387, New York
Wells, N.A., Ferber, C.T. &Ohman, J.C. (1993): Discriminant analysis of fish-bearing deposits in the Eocene Green River Formation of Utah and Wyoming.—Palaios,8, 81–100, Tulsa
Wilson, J.B. (1988): A model for temporal changes in the faunal composition of shell gravels during a transgression on the continental shelf around the British Isles.—Sedim. Geol.60, 95–105, Amsterdam
Zar, J.H. (1984): Biostatistical Analysis.—718 p., Englewood Cliffs (Prentice-Hall)
Zhao Xitao (1989): Cheniers in China: an overview.—Mar. Geol.90, 311–320, Amsterdam
Author information
Authors and Affiliations
Rights and permissions
About this article
Cite this article
Kowalewski, M., Flessa, K.W. & Aggen, J.A. Taphofacies analysis of recent shelly cheniers (beach ridges), northeastern baja california, Mexico. Facies 31, 209–241 (1994). https://doi.org/10.1007/BF02536940
Received:
Revised:
Issue Date:
DOI: https://doi.org/10.1007/BF02536940