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Cruziana semiplicata Salter is a well known ichnospecies, ascribed to trilobites. Despite that, there are still contradicting views on its origin (infaunal vs. epifaunal), the ethology represented (crawling vs. feeding) and the identity of its producer (a few trilobite genera were proposed). In this paper, new data are presented and com- bined to create a coherent interpretative model for Cruziana semiplicata. According to this new model, Cruziana semiplicata is a fossilized version of an epifaunal, pascichnial (feeding) trace produced by an organism, positioned above the seabed with only a few frontal appendages touching the depositional surface and processing the sedi- ment below. This model is based on observations of trace fossil morphology and neoichnological observations of the feeding behaviour of Triops australiensis. Also, a short geometrical comparison with the co-occurring Rusophycus polonicus is made to show that these trace fossils most likely had different trace makers.
Słowa kluczowe
Wydawca
Czasopismo
Rocznik
Tom
Strony
35--50
Opis fizyczny
Bibliogr. 53 poz., rys.
Twórcy
autor
- Institute of Paleobiology, Polish Academy of Sciences, ul. Twarda 51/55, PL- 00-818 Warszawa
- Despite that, there are still contradicting views on its origin (infaunal vs. epifaunal)
Bibliografia
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- 3. Baldwin, C. T., 1977. Internal structures of trilobite trace fossils indicative of an open surface furrow origin. Palaeogeography, Palaeoclimatology, Palaeoecology, 21: 273-284.
- 4. Bergström, J., 1969. Remarks on the appendages of trilobites. Lethaia, 2: 395-414.
- 5. Bergström, J., 1972. Appendage morphology of the trilobite Cryptolithus and its implications. Lethaia, 5: 85-94.
- 6. Bergström, J., 1976. Lower Palaeozoic trace fossils from Eastern Newfoundland. Canadian Journal of Earth Sciences, 13: 1613-1633.
- 7. Birkenmajer, K. & Bruton, D. L., 1971. Some trilobite resting and crawling traces. Lethaia, 4: 303-319.
- 8. Braddy, S. J., 2003. Trackways-arthropod locomotion. In: Briggs, D. E. G. & Crowther, P. R. (eds), Palaeobiology II. Blackwell Science, Malden, Oxford, pp. 389-393.
- 9. Bromley, R. G. & Asgaard, U., 1972. Notes on Greentand trace fossils. I. Freshwater Cruziana from the Upper Triassic of Jameson Land, East Greentand. Granlands Geologiske Un- dersagelse, 49: 7-13.
- 10. Bromley, R. G. & Asgaard, U., 1979. Triassic freshwater ichno-coenoses from Carlsberg Fjord, East Greenland. Palaeogeography, Palaeoclimatology, Palaeoecology, 28: 39-80.
- 11. Crimes, T. P., 1970a. Trilobite tracks and other trace fossils from the Upper Cambrian of North Wales. Geological Journal, 7: 47-68.
- 12. Crimes, T. P., 1970b. The significance of trace fossils in sedimen- tology, stratigraphy and palaeoecology with examples from Lower Palaeozoic strata, In: Crimes, T. P. & Harper, J. C. (eds), Trace Fossils. Geological Journal Special Issue, 3: 101-126.
- 13. Crimes, T. P., 1975. The production and preservation of trilobite resting and furrowing traces. Lethaia, 8: 35-48.
- 14. Droser, M. L., Jensen, S. & Gehling, J. G., 2002. Trace fossils and substrates of the terminal Proterozoic-Cambrian transition: implications for the record of early bilaterians and sediment mixing. Proceedings of the National Academy of Sciences, 99: 12572-12576.
- 15. Fortey, R. A. & Owens, R. M., 1999. Feeding habits in trilobites. Palaeontology, 42: 429-465.
- 16. Fortey, R. A. & Seilacher, A., 1997. The trace fossil Cruziana semiplicata and the trilobite that made it. Lethaia, 30, 105- 112.
- 17. Gand, G., Garric, J., Schneider, J., Walter, H., Lapeyrie, J., Martin, C. & Thiery, A., 2008. Notostraca trackways in Permian playa environments of the Lodeve basin (France). Journal of Iberian Geology, 34: 73-108.
- 18. Gibb, S., Chatterton, B. D. E. & Gingras, M. K., 2010. Rusophycus carleyi (James, 1885), trace fossils from the Lower Ordovician of Southern Morocco, and the trilobites that made them. Ichnos, 17: 271-283.
- 19. Goldring, R., 1985. The formalion of the trace fossil Cruziana. Geological Magazine, 122: 65-72.
- 20. Gradziński, R. & Uchman, A., 1994. Trace fossils from interdune deposits - an example from the Lower Triassic aeolian Tumlin Sandstone, cenlral Poland. Palaeogeography, Palaeoclimatology, Palaeoecology, 108: 121-138.
- 21. Harrington, H. J., 1959. General description of Trilobita. In: Moore, R. C. (ed.), Treatise on Invertebrate Paleontology, Part O: Arthropods. Geological Society of America and University of Kansas Press, Lawrence, Meriden, pp. 38-117.
- 22. Jensen, S., 1997. Trace fossils from the Lower Cambrian Mickwitzia Sandstone, south-central Sweden. Fossils and Strata, 42: 1-111.
- 23. Jensen, S., Bogolepova, O. K. & Gubanov, A. P., 2011. Cruziana semiplicata from the Furongian (Late Cambrian) of Severnaya Zemlya Archipelago, Arctic Russia, with a review of the spatial and temporal distribution of this ichnospecies. Geological Journal, 46: 26-33.
- 24. Jensen, S., Droser, M. L. & Gehling, J. G., 2005. Trace fossil preservalion and the early evolulion of animals. Palaeogeography, Palaeoclimatology, Palaeoecology 220: 19-29.
- 25. Keighley, D. G. & Pickerill, R. K., 1996. Small Cruziana, Rusophycus, and related ichnotaxa from eastern Canada: The nomenclatural debate and systematic ichnology. Ichnos, 4: 261-285.
- 26. Knecht, R. J., Benner, J. S., Rogers, D. C. & Ridge, J. C., 2009. Surculichnus bifurcauda n. igen., n. isp., a trace fossil from Late Pleislocene glaciolacustrine varves of the Connectícut River Valley , USA , attributed to notostracan cruslaceans based on neoichnological experimentation. Palaeogeography, Palaeoclimatology, Palaeoecology, 272: 232-239.
- 27. MacNaughton, R. B., 2007. The applicalion of trace fossils to biostratigraphy. In: Miller, W., III (ed.), Trace Fossils: Concepts, Problems, Prospects. Elsevier, Amsterdam, pp. 135-148.
- 28. Magwood, J. P. A. & Pemberton, S. G., 1990. Stratigraphic significance of Cruziana: new data concerning the Cambrian-Ordovician ichnostratigraphic paradigm. Geology, 18: 729-732.
- 29. Mángano, M. G. & Buatois, L. A., 2011. Timing of infaunalization in shallow-marine early Paleozoic communities in Gondwanan settings: discriminating evolutionary and paleogeographic controls. Palaeontologia Electronica, 14: 1-21.
- 30. Orłowski, S., 1975. Cambrian and Upper Precambrian lithostratigraphic units in the Holy Cross Mts. Acta Geologica Polonica, 25: 431-448. [In Polish, English summary.]
- 31. Orłowski, S., 1992a. Trilobite trace fossils and their stratigraphical significance in the Cambrian sequence of the Holy Cross Mountains, Poland. Geological Journal, 27: 15-34.
- 32. Orłowski, S., 1992b. Cambrian stratigraphy and stage subdivision in the Holy Cross Mountains, Poland. Geological Magazine, 129: 471-474.
- 33. Orłowski, S., Radwański, A. & Roniewicz, P., 1970. The trilobite ichnocoenoses in the Cambrian sequence of the Holy Cross Mountains, In: Crimes, T. P. & Harper, J. C. (eds), Trace Fossils. Geological Journal Special Issue, 3: 345-360.
- 34. Orłowski, S., Radwański, A. & Roniewicz, P., 1971. Ichnospecific variability of the Upper Cambrian Rusophycus from the Holy Cross Mts. Acta Geologica Polonica, 21: 341-348.
- 35. Pollard, J. E., 1985. Isopodichnus, related arlhropod trace fossils and notostracans from Triassic fluvial sedíments. Transactions of the Royal Society of Edinburgh: Earth Sciences, 76: 273-285.
- 36. Radwański, A. & Roniewicz, P., 1972. A long trilobite trackway, Cruziana semiplicata Salter, from the Upper Cambrian of the Holy Cross Mts. Acta Geologica Polonica, 22: 439-447.
- 37. Ramsköld, L. & Edgecombe, G., 1996. Trilobite appendage structure - Eoredlichia reconsidered. Alcheringa, 20: 269-276.
- 38. Rindsberg, A. K., 1994. Ichnology of the Upper Mississippian Hartselle Sandstone of Alabama, with notes on other Carboniferous formations. Geological Survey of Alabama Bulletin, 158: 1-107.
- 39. Sadlok, G., 2010. Trace fossil Cruziana tenella from the Furongian (Upper Cambrian) deposlts of Poland. Acta Geologica Polonica, 60: 349-355.
- 40. Sadlok, G., 2013. Compaction-related style of Rusophycus preservation from Furongian (Upper Cambrian) of Holy Cross Mountains (Poland). Annales Societatis Geologorum Poloniae, 83: 317-327.
- 41. Seilacher, A., 1970. Cruziana stratigraphy of “non-fossiliferous” Palaeozoic sandstones. In: Crimes, T. P. & Harper, J. C. (eds), Trace Fossils. Geological Journal Special Issue, 3: 447-476.
- 42. Seilacher, A., 1985. Trilobite palaeobiology and substrate relaltionships. Transaciions of the Royal Society of Edinburgh. Earth Sciences, 76: 231-237.
- 43. Seilacher, A., 1994. How valid is Cruziana stratigraphy? Geologische Rundschau, 83: 752-758.
- 44. Seilacher, A., 2007. Trace Fossil Analysis. Springer, Berlin, Heidelberg, New York, 226 pp.
- 45. Seilacher, A., 2008. Fossil Art: an Exhibition of the Geologisches Institut, Tübingen University, Germany. Silkeborg Bogtryk, Laasby (Denmark), 102 pp.
- 46. Stachacz, M., 2012. Ichnology of Czarna Shale Formation (Cambrian, Holy Cross Mountains, Poland). Annales Societatis Geologorum Poloniae, 82: 105-120.
- 47. Stein, M., Budd, G. E., Peel, J. S. & Harper, D. A., 2013. Arthroaspis n. gen., a common element of the Sirius Passet Lagerstätte (Cambrian, North Greenland), sheds light on trilobite ancestry. BMC Evolutionary Biology, 13: 1-34.
- 48. Tarhan, L. G., Jensen, S. & Droser, M. L., 2012. Furrows and firmgrounds: evidence for predation and implications for Palaeozoic substrate evolution in Rusophycus burrows from the Silurian of New York. Lethaia, 45: 329-341.
- 49. Trusheim, F., 1931. Aktuo-paläontologische Beobachtungen an Triops cancriformis Schaeffer (Crust. Phyll.). Senckenbergiana, 13: 234-243.
- 50. Whittington, H. B., 1980. Exoskeleton, moult stage, appendage morphology, and habits of the Middle Cambrian tritobite Olenoides serratus. Palaeontology, 23: 171-204.
- 51. Żylińska, A., 1999. Trace maker of Cruziana semiplicata in the Upper Cambrian of the Holy Cross Mts. (Poland), In: Palmer, A. R. (ed.), Laurentia 99. V Field Conference of the Cambrian Stage Subdivision on Cambrian Stratigraphy, Utah, Nevada, California, USA., September 12-22, 1999. Institute for Cambrian Studies, Boulder, Colorado, pp. 62-63.
- 52. Żylińska, A. & Radwański, A., 2008. Stop 2 - Wiśniówka Duża, Upper Cambrian. In: Pieńkowski, G. & Uchman, A. (eds), Ichnological Sites of Poland. The Holy Cross Mountains and The Carpathian Flysch. The Second International Congress on Ichnology, Craiow, Poland, August 29 -September 8, 2008. The Pre-Congress and Post-Congress Field Trip Guidebook Polish Geological Institute, Warszawa, pp. 37-46.
- 53. Żylińska, A., Szczepanik, Z. & Salwa, S., 2006. Cambrian of the Holy Cross Mountains, Poland; biostratigraphy of the Wiśniówka Hill succession. Acta Geologica Polonica, 56: 443-461.
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Bibliografia
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