Synopsis
Trace fossils have many uses in stratigraphy. Short-ranging forms can date otherwise unfossiliferous successions, as exemplified here by lower Paleozoic successions in Europe and North America. Trace fossils, including trilobite tracks, also commonly extend beneath the lowest fossiliferous Phanerozoic horizons. This distribution suggests that (1) trilobites may have evolved rapidly at this time fwm soft-bodied ancestors and (2) trace fossils should be considered in defining a base to the Cambrian system.
Trace fossils are of value in environmental stratigraphy, including forms characteristic of rocky shores, sandy beaches, the neritic zone, and the bathyal-abyssal zone. Trace fossils are also useful in constructing paleogeographical syntheses, as demonstrated by examples from Paleozoic, Mesozoic, and Tertiary strata.
Trace fossils can further aid the stratig-rapher in tectonically complex areas, especially in determination of way-up and in quantitative estimation of tectonic compression.
Finally, trace fossils are of value in global tectonics, as illustrated by particular reference to the North Atlantic. An example is the Arenig sequence: at this level, shallow-water Cruzianabearing sandstones in Wales give way northwestward, across the Irish Sea fault zone, to deep-water Nereites-bearing turbidites; in Newfoundland, a similar change occurs across a fault line between the “Avalon platform” and “central mobile belt.” This similarity suggests initial continuity of the faults, and allows equation of the Welsh sequence with that on the “Avalon platform”—not the “central mobile belt” as has generally been claimed.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
Preview
Unable to display preview. Download preview PDF.
Similar content being viewed by others
References
Ager, D. V. and P. Wallace. 1970. The distribution and significance of trace fossils in the uppermost Jurassic rocks of the Boulonnais, northern France. In T. P. Crimes and J. C. Harper (eds.), Trace fossils. Geol. Jour., Spec. Issue 3:1–18.
Bandel, K. 1967. Trace fossils from two Upper Pennsylvanian sandstones in Kansas. Univ. Kansas Paleont. Contr., Paper 18, 13 p.
Banks, N. 1970. Trace fossils from the late Precambian and Lower Cambrian of Finnmark, Norway. In T. P. Crimes and J. C. Harper (eds.), Trace fossils. Geol. Jour., Spec. Issue 3:19–34.
Bender, F. 1963. Stratigraphie der “Nubischen Sandsteine” in Süd-Jordanien. Geol. Jahrb., 81:237–276.
Berger, W. H. 1972. Dissolution facies and age-depth constancy. Nature, 236:392–395.
Bergström, J. 1970. Rusophycus as an indication of Early Cambrian age. In T. P. Crimes and J. C. Harper (eds.), Trace fossils. Geol. Jour., Spec. Issue 3:35–42.
Brace, W. F. 1961. Mohr construction in the analysis of large geologic strain. Geol. Soc. America, Bull., 72:1059–1080.
Braithwaite, C. J. R. and M. R. Talbot. 1972. Crustacean burrows in the Seychelles, Indian Ocean. Palaeogeogr., Palaeoclimatol., Palaeoecol., 11:265–285.
Bromley, R. G. 1970. Borings as trace fossils and Entobia cretacea Portlock, as an example. In T. P. Crimes and J. C. Harper (eds.), Trace fossils. Geol. Jour., Spec. Issue 3: 49–90.
Chamberlain, C. K. 1971. Bathymetry and paleo-ecology of Ouachita geosyncline of southeastern Oklahoma as determined from trace fossils. Amer. Assoc. Petrol. Geol., Bull., 55:34–50.
Chmelik, F. B. 1970. An investigation of changes induced in macrostructures in pelitic sediments during primary consolidation. Texas A & M Univ., Dept. Oceanogr., Tech. Rept. 70–8-T, 131 p.
Cowie, J. W. and A. M. Spencer. 1970. Trace fossils from the late Precambrian/Lower Cambrian of East Greenland. In T. P. Crimes and J. C. Harper (eds.), Trace fossils. Geol. Jour., Spec. Issue 3:91–100.
Crimes, T. P. 1968. Cruziana: a stratigraphically useful trace fossil. Geol. Magazine, 105: 360–364.
Crimes, T. P. 1969. Trace fossils from the Cambro-Ordovician rocks of north Wales and their stratigraphie significance. Geol. Jour., 6: 333–337.
Crimes, T. P. 1970a. A facies analysis of the Arenig of western Lleyn, north Wales. Geologists’ Assoc., Proc., 81:221–240.
Crimes, T. P. 1970b. A facies analysis of the Cambrian of Wales. Palaeogeogr., Palaeo-climatol., Palaeoecol., 7:113–170.
Crimes, T. P. 1970c. The significance of trace fossils in sedimentology, stratigraphy and palaeo-ecology, with examples from lower Palaeozoic strata. In T. P. Crimes and J. C. Harper (eds.), Trace fossils. Geol. Jour., Spec. Issue 3:101–126.
Crimes, T. P. 1970d. Trilobite tracks and other trace fossils from the Upper Cambrian of north Wales. Geol. Jour., 7:47–68.
Crimes, T. P. 1973. From limestones to distal turbidites: a facies and trace fossil analysis in the Zumaya flysch (Paleocene-Eocene), north Spain. Sedimentology, 20:105–131.
Crimes, T. P. 1974. Colonisation of the early ocean floor. Nature, 248(5446):328–330.
Crimes, T. P and J. D. Crossley. 1968. The stratigraphy, sedimentology, ichnology and structure of the lower Palaeozoic rocks of northeastern County Wexford. Royal Irish Acad., Sect. B, Proc., 67:185–215.
Delgado, J. F. N. 1886. Étude sur les Bilobites et autres fossiles des quartzites de la base du système silurique du Portugal. Lisbon, Soc. Trab. Geol. Portugal, Mem., 113 p.
Desio, A. 1940. Vestigia problematiche paleozoiche della Libia. Mus. Libico sotira Natur., Ann., 2:47–92.
Ewing, M. and R. A. Davis. 1967. Lebensspuren photographed on the ocean floor. In J. B. Hersey (ed.), Deep-sea photography. Johns Hopkins Oceanogr. Stud. 3:259–294.
Färber, A. and W. Jaritz. 1964. Die Geologie des westasturischen Küstengebietes zwischen San Esteban de Pravia und Ribadeo (NW-Spanien). Geol. Jahrb., 81:679–738.
Farrow, G. E. 1966. Bathymétrie zonation of Jurassic trace fossils from the coast of Yorkshire, England. Palaeogeogr., Palaeo-climatol., Palaeoecol., 2:103–151.
Farrow, G. E. 1971.Back-reef and lagoonal environments of Aldabra Atoll, distinguished by their crustacean burrows. In D. R. Stoddart and C. M. Yonge (eds.), Regional variations in Indian Ocean coral reefs. Zool. Soc. London, Symp., 28:455–500.
Frech, F. 1916. Geologie Kleinasians im Bereich der Bagdadbahn. Zeitschr. Deutsche Geol. Gesell., 68:1–30.
Frey, R. W. 1970. Environmental significance of recent marine lebensspuren near Beaufort, North Carolina. Jour. Paleont., 44:507–519.
Frey, R. W. 1971. Ichnology—the study of fossil and recent lebensspuren. In B. F. Perkins (ed.), Trace fossils, a field guide. Louisiana State Univ., Misc. Publ. 71–1:91–125.
Frey, R. W and J. D. Howard. 1969. A profile of biogenic sedimentary structures in a Holocene barrier island—salt marsh complex, Georgia. Gulf Coast Assoc. Geol. Socs., Trans., 19:427–444.
Frey, R. W and J. D. Howard. 1970. Comparison of Upper Cretaceous ichnofaunas from siliceous sandstones and chalk, western interior region, U.S.A. In T. P. Crimes and J. C. Harper (eds.), Trace fossils. Geol. Jour., Spec. Issue 3:141–166.
Gatrall, M. and S. Golubic. 1970. Comparative study on some Jurassic and recent endo-lithic fungi using scanning electron microscope. In T. P. Crimes and J. C. Harper (eds.), Trace fossils. Geol. Jour., Spec. Issue 3: 167–178.
Glaessner, M. F. 1969. Trace fossils from the Precambrian and basal Cambrian. Lethaia, 2:369–393.
Gomez de Llarena, J. 1954. Observaciones geológicas en el Flysch cretacico-numulitico de Guipuzcoa. Inst. “Lucas Mallada” Invest. Geol., Monogr. 13, 98 p.
Häntzschel, W. 1964. Spurenfossilien und Problematica im Campan von Beckum (Westf.). Fortschr. Geol. Rheinld. u. Westf., 7:295–308.
Hartman, O. 1954. Marine annelids from the northern Marshall Islands. U.S. Geol. Surv., Prof. Paper 260Q:Q619–Q644.
Hattin, D. E. and R. W. Frey. 1969. Facies relations of Crossopodia sp., a trace fossil from the Upper Cretaceous of Kansas, Iowa, and Oklahoma. Jour. Paleont., 43:1435–1440.
Hecker, R. T. 1956. Ecological analysis of crustacean decapods in Fergana Gulf of the Palaeogene sea of central Asia. Byull. mosk, obshch. Ispyt. Prir., 61:77–98. (In Russian).
Hecker, R. T. 1970. Palaeoichnological research in the Palaeontological Institute of the Academy of Sciences of the USSR. In T. P. Crimes and J. C. Harper (eds.), Trace fossils. Geol. Jour., Spec. Issue 3:215–226.
Hecker, R. T et al. 1962. Fergana Gulf of Palaeogene sea of Central Asia, its history, sediments, fauna and flora, their environment and evolution, 1 and 2. Moscow, Akad. Nauk SSSR, 332 p. (in Russian) See also Amer. Assoc. Petrol. Geol., Bull., 47:617–631.
Heezen, B. C. and C. D. Hollister. 1971. The face of the deep. New York, Oxford Univ. Press, 659 p.
Helal, A. H. 1965. Stratigraphy of outcropping Paleozoic rocks around the northern edge of the Arabian shield (within Saudi Arabia). Zeitschr. Deutsche. Geol. Gesell., 117:506–543.
Henbest, L. G. 1960. Fossil spoor and their environmental significance in Morrow and Atoka Series, Pennsylvanian, Washington County, Arkansas. U.S. Geol. Surv., Prof. Paper 400-B:B383-B385.
Kay, M. (ed.). 1969. North Atlantic-geology and continental drift. Amer. Assoc. Petrol. Geol., Mem. 12, 1082 p.
Kennedy, W. J. and J. D. S. Maougall. 1969. Crustacean burrows in the Weald Clay (Lower Cretaceous) of south-eastern England and their environmental significance. Palaeontology, 12:459–471.
Kennedy, W. J. and J. D. S. Maougall. et al. 1969. A Favreina-Thalassinoides association from the Great Oolite of Oxfordshire. Palaeontology, 12:549–554.
Kinahan, G. H. 1878. Manual of the geology of Ireland. London, Kegan Paul, 444 p.
Książkiewicz, M. 1970. Observations on the ichnofauna of the Polish Carpathians. In T. P. Crimes and J. C. Harper (eds.), Trace fossils. Geol. Jour., Spec. Issue 3:283–322.
Lotze, F. 1961. Das Kambrium Spaniens. I Stratigraphie. Akad. Wiss. u. Lit. Mainz, math.-naturw. Kl., Abh., 6:283–498.
Mägdefrau, K. 1934. Über Phycodes circinatum Reinh. Richter aus dem thüringischen Ordovicium. Neues Jahrb. Geol. Paläont., Abh., 72:259–281.
Nadson, G. A. 1927a. Les algues perforantes de la Mer Noire. Compt. rend. Hebd. Seane. Acad. Sci., Paris, 184:896–898.
Nadson, G. A. 1927b. Les algues perforantes, leur distribution et leur role dans la nature. Compt. rend. Hebd. Seane. Acad. Sci., Paris, 184:1015–1017.
Nadson, G. A. 1932. Contribution a l’etude des algues perforantes. Izv. Akad. Nauk SSSR (7), Math. Nat. classe, 1932(6):833–855.
Orłowski, S. 1968. Upper Cambrian fauna of the Holy Cross Mts. Acta Geol. Polonica, 18:257–291.
Peneau, J. 1946. Étude sur l’Ordovicien Inferieur (Arenigien-Grès Armoricain) et sa faune (specialement en Anjou). Soc. Étude scient. Angers, N. Ser., Bull., 74–76:37–106.
Pianovskaya, I. A. and R. T. Hecker. 1966. Rocky shores and hard ground of the Cretaceous and Palaeogene seas in central Kizil-Kum and their inhabitants. In Organisms and environment in the geological past, a symposium. “Nauka.” (in Russian)
Plessmann, W. 1965. Laterale Gesteinsverformung vor Faltungsbeginn im Unterkarbon des Edersees (Rheinisches Schiefergebirge). Geol. Mitt., 5:271–284.
Plessmann, W. 1966. Diagenetische und Kompressive Verfermung in der Oberkreide des Harz-Nordrandes sowie im Flysch von San Remo. Neues Jahrb. Geol. Paläont., Abh., 8: 480–493.
Radwański, A. 1964. Boring animals in Miocene littoral environments of southern Poland. Acad. Pol. Sci. (Sér. Sci. Geol. Geogr.), Bull., 12:57–62.
Radwański, A. 1969. Lower Tortonian transgression on to the southern slopes of the Holy Cross Mountains. Acta Geol. Polonica, 19:137–143.
Radwański, A. 1970. Dependence of rock-borers and burrowers on the environmental conditions within the Tortonian littoral zone, southern Poland. In T. P. Crimes and J. C. Harper (eds.), Trace fossils. Geol. Jour., Spec. Issue 3:371–390.
Ranford, L. C. et al. 1965. The geology of the central part of the Amadeus basin, Northern Territory. Australia Bur. Min. Resourc., Rept. 86, 48 p.
Rast, N. and T. P. Crimes. 1969. Caledonian orogenic episodes in the British Isles and north-western France and their tectonic and chronological interpretation. Tectono-physics, 7:277–307.
Rhoads, D. C. 1966. Missing fossils and paleo-ecology. Discovery, Yale Peabody Museum, 2:19–22.
Rhoads, D. C. 1967. Biogenic reworking of intertidal and subtidal sediments in Barnstable Harbor and Buzzards Bay, Massachusetts. Jour. Geol., 75:461–476.
Rhoads, D. C and J. W. Morse. 1971. Evolutionary and ecologic significance of oxygen-deficient marine basins. Lethaia, 4:413–428.
Roniewicz, P. 1970. Borings and burrows in the Eocene littoral deposits of the Tatra Mountains, Poland. In T. P. Crimes and J. C. Harper (eds.), Trace fossils. Geol. Jour., Spec. Issue 3:439–446.
Schmitz, U. 1971. Stratigraphie und sedi-mentologie im Kambrium und Tremadoc der Westlichen Iberischen Ketten nördlich Ateca (Zaragoza), NE-Spanien. Münster Forsch. Geol. Paläont. 22, 123 p.
Seilacher, A. 1954. Die geologische Bedeutung fossiler Lebensspuren. Zeitschr. Deutsche Geol. Gesell., 105:114–227.
Seilacher, A. 1960. Lebensspuren als Leitfossilien.Geol. Rundschau, 49:41–50.
Seilacher, A. 1963. Kaledonischer Unterbau der Irakiden. Neues Jahrb. Geol. Paläont., Abh., 10:527–542.
Seilacher, A. 1964. Biogenic sedimentary structures.In J. Imbrie and N. D. Newell (eds.), Approaches to paleoecology. New York, John Wiley, p. 296–316.
Seilacher, A. 1967. Bathymetry of trace fossils.Marine Geol., 5:189–200.
Seilacher, A. 1970. Cruziana stratigraphy of “non-fossiliferous” Palaeozoic sandstones. In T. P. Crimes and J. C. Harper (eds.), Trace fossils. Geol. Jour., Spec. Issue 3:447–476.
Seilacher, A and T. P. Crimes. 1969. “European”species of trilobite burrows in eastern Newfoundland. In M. Kay (ed.), North Atlantic-geology and continental drift. Amer. Assoc. Petrol. Geol., Mem. 12:145–148.
Seilacher, A and D. Meischner. 1964. Faziesanalyse im Paläozoikum des Oslo-Gebietes. Geol. Rundschau, 54:596–619.
Selley, R. C. 1970. Ichnology of Palaeozoic sandstones in the southern desert of Jordan: a study of trace fossils in their sedimentologie context. In T. P. Crimes and J. C. Harper (eds.), Trace fossils. Geol. Jour., Spec. Issue 3:477–488.
Shinn, E. A. 1968. Burrowing in recent lime sediments of Florida and the Bahamas. Jour. Paleont., 42:879–894.
Shrock, R. R. 1948. Sequence in layered rocks. McGraw-Hill, 507 p.
Siemers, C. T. 1970. Facies distribution of trace fossils in a deltaic environmental complex: upper part of the Dakota Formation (Upper Cretaceous), central Kansas (abs.). Geol. Soc. America, Abs. Prog., 2(7): 683–684.
Tanaka, K. 1971. Trace fossils from the Cretaceous flysch of the Imushumbetsu area, Hokkaido, Japan. Geol. Surv. Japan, Rept. 242, 31 p.
Tomain, G. et al. 1970. L’Ordovicien de la Sierra Morena Orientale (Espagne). Compt. Rend. 94th Congr. Nat. Socs. savantes, Pau, 1969. Sci. II, p. 275–292.
Topsent, E. 1904. Spongiaires des Azores. Result. Camp. Scient., Prince Albert I., Fasc, 25 p.
Volz, P. 1939. Die Bohrschwämme (Clioniden) der Adria. Thalassia, 3:1–39.
Warme, J. E. 1970. Traces and significance of marine rock borers. In T. P. Crimes and J. C. Harper (eds.), Trace fossils. Geol. Jour., Spec. Issue 3:515–526.
Webby, B. D. 1970. Late Precambrian trace fossils from New South Wales. Lethaia, 3: 79–109.
Weimer, R. J. and J. H. Hoyt. 1964. Burrows of Callianassa major Say, geologic indicators of littoral and shallow neritic environments. Jour. Paleont., 38:761–767.
Williams, H. 1969. Pre-Carboniferous development of Newfoundland Appalachians. In M. Kay (ed.), North Atlantic—geology and continental drift. Amer. Assoc. Petrol. Geol., Mem. 12:32–58.
Young, F. G. 1972. Early Cambrian and older trace fossils from the southern Cordillera of Canada. Canadian Jour. Earth Sci., 9:1–17
Author information
Authors and Affiliations
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 1975 Springer-Verlag New York Inc.
About this chapter
Cite this chapter
Crimes, T.P. (1975). The Stratigraphical Significance of Trace Fossils. In: Frey, R.W. (eds) The Study of Trace Fossils. Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-65923-2_7
Download citation
DOI: https://doi.org/10.1007/978-3-642-65923-2_7
Publisher Name: Springer, Berlin, Heidelberg
Print ISBN: 978-3-642-65925-6
Online ISBN: 978-3-642-65923-2
eBook Packages: Springer Book Archive