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Ichnos
An International Journal for Plant and Animal Traces
Volume 25, 2018 - Issue 4
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RA-471

Stratigraphic and Paleobiogeographic Distribution of Arthrophycus

Megan E. SeitzDivision of Natural Science, Carthage College, Kenosha, WI, USA
&
Danita S. BrandtDepartment of Earth and Environmental Sciences, Michigan State University, East Lansing, MI, USACorrespondence[email protected]
Pages 274-284 | Published online: 28 Dec 2017

References

  • Aceñolaza, G., and F. G. Aceñolaza. 2003. Ordovician trace fossils of Argentina. In Aspects of the Ordovician System in Argentina, ed. F. G., Aceñolaza, 177–194. 16. Serie Correlación Geológica.
  • Aceñolaza, G., and S. Heredia. 2008. The status of the Cruziana (trilobite trace fossil) stratigraphy in western Gondwana: the mixing of Lower and Upper Ordovician elements in the central Andean Basin of South America. In Advances in trilobite research, ed. I., Rábano, R., Gozalo, and D., Garcia-Bellido, 13–17. Madrid: Cuadernos de Museo Geominero, no. 9. Instituto Geológico y Minero de Espana.
  • Alpert, S. P. 1975. Planolites and Skolithos from the White-Inyo Mountains, California. Journal of Paleontology 49:508–521.
  • Alpert, S. P. 1977. Trace fossils and the basal Cambrian boundary. In Trace fossils 2. Geological Journal, ed. T. P., Crimes, and J., Harper. C.. Special Issue 9:1–8.
  • Baldwin, C. T. 1977. The stratigraphy and facies associations of trace fossils in some Cambrian and Ordovician rocks of northwestern Spain. In Trace fossils 2. Geological Journal, ed. T. P., Crimes, and J. C., Harper. Special Issue 9:9–40.
  • Bayet-Goll, A., and C. Neto de Carvalho. 2016. Ichnology and sedimentology of a tide-influenced delta in the Ordovician from the northeastern Alborz range of Iran (Kopet Dagh region). Lethaia 49:327–350. doi:10.1111/let.12150.
  • Becker, H. F., and W. Donn. 1952. A new occurrence and description of the fossil Arthrophycus. Science 115(2982): 214–215. doi:10.1126/science.115.2982.214.
  • Bender, F. 1963. Stratigraphie der “Nubischen Sandsteine” in Sued-Jordanien. Geologische Jahrbuch 81:237–276.
  • Bender, F. 1968. Geologie von Jordanien. In Beitraege zur Regionalen Geologie der Erde, ed. H. J., Martini. 7:1–230.
  • Bhargava, O. N., U. K. Bassi, and S. Chopra. 1984. Trace fossils from the Ordo-Silurian rocks of Kinnaur, Himachal Himalaya. Journal of the Geological Society of India 25:175–186.
  • Bhargava, O. N., and U. K. Bassi. 1988. Trace fossils from the Palaeozoic-Mesozoic sequence of Spiti-Kinnaur (Himachal Himalaya) with comments on palaeoenvironmental control on their frequency. Journal of the Geological Society of India 32:227–238.
  • Bjerstedt, T. W. 1987. Latest Devonian-earliest Mississippian nearshore trace-fossil assemblages from West Virginia, Pennsylvania, and Maryland. Journal of Paleontology 61:865–889. doi:10.1017/S0022336000029279.
  • Borghi, L., M. I. C. Moreira, and A. C. S. Fernandes. 1996. A ocorrência do icnogênero Arthrophycus Hall, 1852 em Chapada dos Guimaraes, Estado de Mato Grosso. Anais da Academia Brasileira de Ciencias 68:274–275.
  • Borrello, A. V. 1966. Trazas, restos tubiformes y cuerpos fósiles problemáticos de la Formación La Tinta, Sierras septentrionales – Provincia de Buenos Aires. Paleontografía Bonaerense 5:1–42.
  • Bourrouilh, R. 1973. Stratigraphie, sédimentologie et tectonique de l'ile de Minorque et du Nord-Est de Majorque (Baléares). Unpublished PhD thesis, Univ. Paris 822.
  • Brandt, D., M. Seitz, V. McCoy, J. Csonka, J. Barringer, E. Holmquist, S. Kraig, R. Morgan, J. Myers, and L. Paquette. 2010. A new ichnospecies of Arthrophycus from the Late Carboniferous (Pennsylvanian) of Michigan, USA. Ichnos 17:1–8. doi:10.1080/10420940903358404.
  • Buatois, L., and M. G. Mángano. 2011. Ichnology. In Organism-substrate interactions in space and time. Cambridge: Cambridge University Press. 358.
  • Burjack, M. I. A., and M. T. B. Popp. 1981. A ocorrência do icnogênero Arthrophycus no Paleozoico da Bacia do Parana. Pesquisas-Instituto de Geociencias. Universidade Federal do rio Grande do sul 14:163–167.
  • Conrad, T. A. 1837. First annual report on the geological survey of the third district of the State of New York. New York Geological Survey Annual Report 1:155–186.
  • Conrad, T. A. 1838. Report on the paleontological department of the survey [of New York]. New York Geological Survey Annual Report 2:107–119.
  • Conrad, T. A. 1839. Second and third annual reports of the Paleontological Department of the Geological Survey, N.Y., 57–66.
  • Correia Perdigão, J. 1964. Sobre a descoberta de Cruziana e Vexillum ( = Daedalus) na colina de Cuncos (Mourão). Comunicações dos Serviços Geológicos de Portugal 48:161–163.
  • Cotter, E. 1983. Shelf, paralic, and fluvial environments and eustatic sea-level fluctuations in the origin of the Tuscarora Formation (Lower Silurian) of Central Pennsylvania. Journal of Sedimentary Petrology 53:25–49.
  • Crimes, T. P. 1981. Lower Palaeozoic trace fossils of Africa. In Lower Palaeozoic of the Middle East, eastern and southern Africa, and Antarctica: with essays on Lower Palaeozoic trace fossils of Africa and Lower Palaeozoic palaeoclimatology, ed. C. H., Holland. 189–198. London: Wiley.
  • Dalloni, M. 1934. Géologie. Mission au Tibesti (1930–1931). Mémoires de L'Académie des Sciences de L'Institut de France 61:39–170.
  • De Alvarenga, C. J. S., E. M. Guimarães, M. L. Assine, J. A. Perinotto, J. de, and N. P. F. Laranjeira. 1998. Seqüéncia Ordovício-Siluriana e Devoniana no flanco norte da Bacia do Paraná. Anais da Academia Brasileira de Ciencias 70:587–606.
  • Delgado, J. F. N. 1887. Terrenos paleózoicos de Portugal: Estudo sobre os Bilobites e outros fósseis das quartzites da base do systema silurico de Portugal. Memória da Secção de Trabalhos Geológicos de Portugal, Lisboa 113.
  • Delgado, J. F. N. 1888. Terrenos paleozoicos de Portugal: Estudo sobre os Bilobites e outros fósseis das quartzites da base do Systema Silurico de Portugal (Supplemento). In Commissão dos Trabalhos Geológicos de Portugal, Lisboa 75.
  • Downey, W. F., Jr. 1980. Decoding a fossil trail. Pennsylvania Geology 11:6–11.
  • Duimovich, O. A. 1963. Observaciones geologicas en el Cerro San Agustin, Balcarce, Buenos Aires. Revista de la Asociación Geológica Argentina 18:108–109.
  • Durand, J. 1985. Les Grès Armoricain. Sédimentologie-traces fossils. Milieux de dépôt. Centre Armoricain d'Etude structural des Sociles, Mémoires et Documents 3, 150 p.
  • Eagar, R. M. C., J. G. Baines, J. D. Collinson, P. G. Hardy, S. A. Okolo, and J. E. Pollard. 1985. Trace fossil assemblages and their occurrence in Silesian (Mid-Carboniferous) deltaic sediments of the Central Pennine Basin, England. SEPM Special Publication 35:99–149.
  • Eschard, R., H. Abdallah, F. Braik, and G. Desaubliaux. 2005. The Lower Paleozoic succession in the Tassili outcrops, Algeria: sedimentology and sequence stratigraphy. First Break 23:27–36.
  • Fenton, C. L., and M. A. Fenton. 1958. The Fossil Book. Doubleday & Company Incorporated, New York City, 482.
  • Fernandes, A. C. S. 1999. Conteudo icnologico das formações do Ordoviciano-Devoniano da bacia do Parana, Brasil. Boletim do Museu Nacional Geologia 46:1–12.
  • Fernandes, A. C. S. 2001. A paleoicnofauna brasileira de artrópodes: estado atual de seu conhecimento. Acta Geologica Leopoldensia 24:359–372.
  • Fernandes, A. C. S., E. Pereira, and S. Bergamaschi. 1995. A presenca de Arthrophycus na Formação Vila Maria no município de Rondonopolis (MT). Anais Academia Brasileira de Ciências, Rio de Janeiro 67:383–384.
  • Fernandes, A. C. S., and L. Borghi. 1996. Comentários sobre o icnogénero Arthrophycus Hall, 1852 e seu registro nas bacias sedimentares brasileiras. Anais do Simpósio Sul Americano do Siluro-Devoniano, Ponta Grossa 1:131–139.
  • Fernandes, A. C. S., L. Borghi, and M. I. C. Moreira. 2000. Sobre a ocorrencia do icnogenero Arthrophycus Hall, 1852 na Formacao Furnas (Bacia do Parana). Boletim do Museu Nacional. Geologia 52:1–14.
  • Fernandes, A. C. S., L. Borghi, I. Carvalho, S. de, and C. J. de Abreu. 2002. Guia dos icnofósseis de invertebrados do Brasil. Editora Interciência, Rio de Janeiro 260 p.
  • Fritel, P. H. 1925. Végétaux paléozoïques et organismes problématique de L'Ouadoü. Bulletin de la Societe Géologique de France 25:33–48.
  • Fritsch, A. 1908. Problematica Silurica. In Systême Silurien du centre de la Bohême. Prague, ed. J., Barrande. 24 p. Bellman, Prague.
  • Gong, Y. 1999. Flysch trace fossils from the Hercynian and Indosinian orogenic belts of northwestern China and their palaeoenvironmental significance. Acta Geologica Sinica (English Edition) 73:384–394. doi:10.1111/j.1755-6724.1999.tb00847.x.
  • Göppert, H. R. 1852. Fossile flora des Übergangsgebirges. Novorum Actorum Academiae Caesarae Leopoldino-Carolinae Naturae Curiosorum, Halle 22 (supplement) 1–298.
  • Greb, S. F., and D. R. Chesnut, Jr. 1994. Paleoecology of an estuarine sequence in the Breathitt formation (Pennsylvanian), Central Appalachian Basin. Palaios 9:388–402. doi:10.2307/3515057.
  • Grove, A. T. 1960. Geomorphology of the Tibesti Region with special reference to Western Tibesti. The Geographical Journal 126:18–27. doi:10.2307/1790425.
  • Gubler, Y., D. Bugnicourt, J. Faber, B. Kubler, and R. Nyssen. 1966. Essai de nomenclature et caractérisation des principales structures sédimentaires. In Chambre Syndicale de la Recherche et de la Production du Pétrole et du Gaz naturel. 291. Paris: Éditions Technip.
  • Hall, J. 1852. Palaeontology of New York, Vol. II. In Containing descriptions of organic remains of the Lower Middle Division of the New-York system. 362. Albany: Geological Survey of New York 5.
  • Häntzschel, W. 1975. Trace Fossils and Problematica. In Treatise on Invertebrate Paleontology, Part W. Miscellanea. Supplement 1, ed. C., Teichert. Boulder, CO:W269 Geological Society of American and Lawrence, KS: University of Kansas Press.
  • Harlan, R. 1831. Description of an extinct species of fossil vegetable of the family fucoids. Journal of the Academy of Natural Science Philadelphia 6:289–295.
  • Harlan, R. 1832. On a new extinct fossil vegetable of the family Fucoides. Journal of the Academy of Natural Science Philadelphia, (ser. 1) 6:307–308.
  • Herzer, H. 1901. Six new species, including two new genera, of fossil plants. Ohio State Academy of Science, Ninth Annual Report 9:22–29.
  • Hundt, R. 1940. Neue Lebensspuren aus dem ostthueringer Palaeozoicum (mit einem Beitrag ueber Nereietenfaehrten). Zentralblatt für Mineralogie, Geologie und Paläontologie Abteilung B 7:210–216.
  • Hundt, R. 1941. Das Mitteldeutsche Phycodesmeer. Jena: Gustav Fischer 136.
  • Książkiewicz, M. 1977. Trace fossils in the flysch of the Polish Carpathians. Palaontologia Polonica 36:208 p.
  • Kulkarni, K. G., and V. D. Borkar. 2002. Trace fossils and pseudofossils from the Proterozoic Cuddapah supergroup. Journal of the Geological Society of India 59:531–536.
  • Kumpulainen, R. A., A. Uchman, B. Woldehaimanot, T. Kreuser, and S. Ghirmay. 2006. Trace fossil evidence from the Adigrat Sandstone for an Ordovician glaciation in Eritrea, NE Africa. Journal of African Earth Sciences 45:408–420. doi:10.1016/j.jafrearsci.2006.03.011.
  • Laird, M. G. 1981. Lower Palaeozoic rocks of Antarctica. In Lower Palaeozoic of the Middle East, eastern and southern Africa, and Antarctica: with essays on Lower Palaeozoic trace fossils of Africa and Lower Palaeozoic palaeoclimatology, ed. C. H., Holland. 257–314. London: Wiley.
  • Legg, I. C. 1985. Trace fossils from a Middle Cambrian deltaic sequence, North Spain. In Biogenic structures: their use in interpreting depositional environments. Society of Economic Paleontologists and Mineralogists, Special Publication, ed. H. A., Curran.. 35:151–165. doi:10.2110/pec.85.35.0151.
  • Lessertisseur, J. 1955. Trace fossils d'activité animale et leur signification paléobiologique. Société Géologique de France, Memoire, nouvelle série 74:1–150.
  • Li, R. H. 1993. Trace fossils and ichnofacies of Middle Ordovician Gongwusu Formation, Zhuozishan, Inner Mongolia. Acta Palaeontologica Sinica 32:88–104.
  • Lin, S., Y. Zhang, and L. Zhang. 1986. Body and trace fossils of Metazoa and algal macrofossils from the upper Sinian Gaojiashan Formation in southern Shaanxi. Shaanxi Dizhi 4:9–17.
  • Liñán, E. 1984. Los icnofósiles de la Formación Torrearboles (Precámbrico?-Cámbrico Inferior) en los alrededores de Fuente de Cantos, Badajoz. Cuadernos do Laboratorio Xeologico de Laxe 8:47–74.
  • Lopez, G. A., and D. C. Roy. 2002. Trace fossils from Early Silurian mudstones of the Spragueville Formation, northeast Maine, USA. Geological Society of America Abstracts with Programs 34(1): 59.
  • Luo, H., Y. Tao, and S. Gao. 1994. Early Cambrian trace fossils near Kunming, Yunnan. Acta Palaeontologica Sinica 33:676–685.
  • Manca, N. V. 1986. Caracteres icnológicos de la Formación Campanario (Cámbrico Superior) en Salta y Jujuy. Ameghiniana 23:75–87.
  • Mángano, M. G., N. B. Carmona, L. A. Buatois, and F. M. Guinea. 2005a. A new ichnospecies of Arthrophycus from the Upper Cambrian-Lower Tremadocian of Northwest Argentina: Implications for the Arthrophycid lineage and potential in ichnostratigraphy. Ichnos 12:179–190. doi:10.1080/10420940591009132.
  • Mángano, M. G., L. A. Buatois, and F. Muniz Guinea. 2005b. Ichnology of the Alfarcito Member (Santa Rosita Formation) of northwestern Argentina: animal-substrate interactions in a lower Paleozoic wave-dominated shallow sea. Ameghiniana 42:641–668.
  • Mángano, M. G., L. A. Buatois, and R. B. MacNaughton. 2012. Ichnostratigraphy. In Trace fossils as indicators of sedimentary environments, ed. D., Knaust, and R. G., Bromley. 195–212. Amsterdam: Elsevier.
  • McCoy, V. E., P. K. Strother, and D. E. G. Briggs. 2012. A possible tracemaker for Arthrophycus alleghaniensis. Journal of Paleontology 86:996–1001. doi:10.1666/11-133R1.1.
  • Mergl, M., and D. Massa. 2000. A Palaeontological Review of the Devonian and Carboniferous Succession of the Murzuq Basin and the Djado Sub-Basin. In Geological exploration in Murzuq Basin, ed. M. A., Sola, and D., Worsley. 41–88. Amsterdam: Elsevier.
  • Metz, R. 1998. Silurian trace fossils from marginal marine deposits, Lizard Creek member of the Shawangunk Formation, Delaware Water Gap, New Jersey. Northeastern Geology and Environmental Sciences 20:101–116.
  • Metz, R. 2006. Trace fossil research in the Delaware Water Gap National Recreation Area, New Jersey. Geological Society of America Abstracts with Program 38:156.
  • Miller, W. III, F. Webb, Jr., and L. A. Raymond. 2009. Clustering and morphologic variation in Arthrophycus alleghaniensis (Lower Silurian of Virginia, USA) as evidence of behavioral paleoecology. Neues Jahrbuch fuer Geologie und Palaeontologie Abhandlungen 251:109–117. doi:10.1127/0077-7749/2009/0251-0109.
  • Moneda, C. P. 1963. El perfil geologico de la Albertina, Gral. Pueyrredon, provincial Buenos Aires. Revista de la Asociacion Geologica Argentina 18:108.
  • Moore, R. C. 1933. Historical Geology. New York: McGraw-Hill Book Company, Inc. 673.
  • Moreira, M. I. C., L. Borghi, A. C. S. Fernandes. 1998. A primeira ocorrencia do icnogénero Arthrophycus Hall, 1852 na Formacao Furnas (Bacia do Parana). Anais da Academia Brasileira de Ciencias 70:151.
  • Moreira, M. I. C., and L. Borghi. 1999. Fácies sedimentares e sistemas deposicionais das Formações Alto Garças e Vila Maria na região de Chapada dos Guimaraes (MT), borda noroeste da Bacia do Paraná. Revista Brasileira de Geociênias 29:419–428.
  • Mukherjee, K. K., P. Sen, and D. K. Santra. 1987. Occurrence of ichnofossils in Gulcheru Quartzite of Lower Cuddapah sequence in Andhra Pradesh. Geological Survey of India Special Publication 11:118–122.
  • Neto de Carvalho, C., A. C. S. Fernandes, and L. Borghi. 2003. Diferenciação das icnospecies e variantes de Arthrophycus e sua utilização problemática em icnoestratigrafia: o resultado de homoplasias comportamentais entre anelídeos e artrópodes? Revista Espanola de Paleontologia 18:221–228.
  • Nogueira, A. C. R., W. Truckenbrodt, and E. A. A. Soares. 1999. O icnogênero Arthrophycus de depósitos sublitorâneos da Formação Nhamundá (Siluriano inferior) da Bacia do Amazonas região de Presidente Figueiredo. Revista Brasileira de Geociencias 29:135–140.
  • Peeples, C. B.III, P. E. Isaacson, and W. C. Rember. 1997. Paleogeography of low-diversity faunas from the Swan Peak Sandstone (Middle Ordovician), southeastern Idaho. Geological Society of America Abstracts with Programs 29:98.
  • Pemberton, S. G., and M. J. Risk. 1982. Middle Silurian trace fossils in the Hamilton, Ontario region: their identification, abundance, and significance. Northeastern Geology 4:98–104.
  • Pettijohn, S. J., and P. E. Potter. 1964. Atlas and glossary of primary sedimentary structures. Berlin: Springer-Verlag. 370 p.
  • Pflüger, F. 1999. Matground structures and redox facies. Palaios 14:25–39. doi:10.2307/3515359.
  • Pickerill, R. K., D. Fillion, and P. J. Brenchley. 1991. A note on the occurrence of Arthrophycus in the Bell Island Group of eastern Newfoundland. Atlantic Geology 27:73–77. doi:10.4138/1721.
  • Pickerill, R. K., M. Romano, and B. Melendez. 1984. Arenig trace fossils from the Salamanca area, western Spain. Geological Journal 19:249–269. doi:10.1002/gj.3350190305.
  • Poiré, D. G., L. A. Spalletti, and A. Del Valle. 2003. The Cambrian-Ordovician siliciclastic platform of the Balcarce Formation (Tandila System, Argentina): Facies, trace fossils, palaeoenvironments and sequence stratigraphy. Geologica Acta 1:41–60.
  • Prouty, W. F., and C. K. Swartz. 1923. Vermes. In Maryland Geological Survey: Silurian. Baltimore: The Johns Hopkins Press 8:402–405.
  • Rindsberg, A. K., and A. J. Martin. 2003. Arthrophycus in the Silurian of Alabama (USA) and the problem of compound trace fossils. Palaeogeography, Palaeoclimatology, Palaeoecology 192:187–219. doi:10.1016/S0031-0182(02)00685-5.
  • Romano, M. 1991. Lower to Middle Ordovician trace fossils from the Central Iberian Zone of Portugal and Spain. In Advances in Ordovician Geology. Geological Survey of Canada, Paper ed. C. R., Barnes, S. H., Williams. 90–9, 191–204.
  • Rust, I. C. 1977. Evidence of shallow marine and tidal sedimentation in the Ordovician Graafwater Formation, Cape Province, South Africa. Sedimentary Geology 18:123–133. doi:10.1016/0037-0738(77)90008-2.
  • Sarle, C. J. 1906. Arthrophycus and Daedalus of burrow origin. Proceedings of the Rochester Academy of Science 4:203–210.
  • Schiller, W. 1930. Die tektonische Natur von Arthrophycus- und Spirophyton-aehnlichen Gebilden im Altpalaeozoikum der Provinz Buenos Aires (Argentinien). Geologische Rundschau 21:145–151. doi:10.1007/BF01805191.
  • Schimper, W.P,., and A. Schenk. 1879. Palaeophytologie. In Handbuch der Palaeontologie, ed. K. A., Zittel. 958. München: Druck und Verlag von R. Oldenbourg.
  • Schuchert, C. 1916. Silurian formations of southeastern New York, New Jersey, and Pennsylvania. In Geological Society of America Bulletin 27:531–554. doi:10.1130/GSAB-27-531.
  • Scotese, C. E. 2002. Paleomap project. http://www.scotese.com/. Accessed January, 2017.
  • Seilacher, A. 1964. Biogenic sedimentary structures. In Approaches to paleoecology, ed. J., Imbrie, and N., Newell. 296–316. New York: John Wiley and Sons, Inc.
  • Seilacher, A. 1970. Cruziana stratigraphy of “non-fossiliferous” Palaeozoic sandstones. In Trace fossils 3. Geological Journal Special Issue, ed. T. P.Crimes, and J. C., Harper. 447–476.
  • Seilacher, A. 1997. Fossil art: an exhibition of the Geologisches Institut Tuebingen University Germany. Royal Tyrrel Museum of Palaeontology, Drumheller (Alberta) 64 p.
  • Seilacher, A. 2000. Ordovician and Silurian Arthrophycid ichnostratigraphy. In Geological exploration in Murzuq Basin, ed. M. A., Sola, and D., Worsley. 237–258. Amsterdam: Elsevier doi:10.1016/B978-044450611-5/50013-1.
  • Seilacher, A. 2007a. Trace Fossil Analysis. Berlin: Springer. 226.
  • Seilacher, A. 2007b. Principles of Ichnostratigraphy. In Sediment-Organism Interactions: A Multifaceted Ichnology. SEPM Special Publication No. 88. R. G., Bromley, L. A., Buatois, G., Mángano, J. F., Genise, and R. N., Melchor.. 53:56.
  • Seilacher, A., and S. Alidou. 1988. Ordovician and Silurian trace fossils from northern Benin (W-Africa). Neues Jahrbuch fuer Geologie und Palaeontologie 1988(7): 431–439.
  • Seilacher, A., S. Lüning, M. A. Martin, E. Klitzsch, A. Khoja, and J. Craig. 2002. Ichnostratigraphic correlation of Lower Palaeozoic clastics in the Kufra Basin (SE Libya). Lethaia 35:257–262. doi:10.1080/00241160260288848.
  • Seilacher, A., C. Cingolani, and R. Varela. 2003. Ichnostratigraphic correlation of early Palaeozoic sandstones in North Africa and central Argentina. In The geology of northwest Libya; sedimentary basins of Libya, second symposium, ed. M. J., Salem, and K. M., Oun.. 2:275–292.
  • Selley, R. C. 1970. Ichnology of Palaeozoic sandstones in the southern desert of Jordan: a study of trace fossils in their sedimentologic context. In Trace fossils. Geological Journal Special Issue, ed. T. P., Crimes, J. C., Harper.. 3:477–488. Liverpool, UK: Seel House Press.
  • Selley, R. C. 1972. Diagnosis of marine and non-marine environments from the Cambro-Ordovician sandstones of Jordan. Journal of the Geological Society 128:135–150. doi:10.1144/gsjgs.128.2.0135.
  • Shimer, H. W., and R. R. Shrock.. 1944. Index fossils of North America. New York: John Wiley & Sons, Inc. 837.
  • Shone, R. W., and P. W. K. Booth. 2005. The Cape Basin, South Africa: A review. Journal of African Earth Sciences 43:196–210. doi:10.1016/j.jafrearsci.2005.07.013.
  • Sliva, S. O. 1951. Siluriano no rio Tapajos. Revista da Escola de Minas 16:9–11.
  • Simpson, G. B. 1888. Drawing of A. montalto. In 1889. A dictionary of the fossils of Pennsylvania and neighboring states named in the reports and catalogues of the survey. Geological Survey of Pennsylvania, Report P4 J. P., Lesley. Vol. I, 40.
  • Taylor, R. C. 1834. A description of a fossil vegetable of the family Fucoides, in the Transition Rocks of North America, and some considerations of geology connected with it. Loudon's Magazine of Natural History 7:27–32.
  • Taylor, R. C. 1835. On the geological position of certain beds which contain numerous fossil marine plants of the Family Fucoides, discovered near Lewistown, Mifflin County, Pennsylvania. Transactions Geological Society of Pennsylvania 1:5–15.
  • Turner, B. R., and M. J. Benton. 1983. Paleozoic trace fossils form the Kufra Basin, Libya. Journal of Paleontology 57:447–460.
  • Turner, B. R., I. M. Makhlouf, and H. A. Armstrong. 2005. Late Ordovician (Ashgillian) glacial deposits in southern Jordan. Sedimentary Geology 181:73–91. doi:10.1016/j.sedgeo.2005.08.004.
  • Uchman, A. 1998. Taxonomy and ethology of flysch trace fossils: revision of the Marian Ksiazkiewicz collection and studies of complementary material. Annales Societatis Geologorum Poloniae 68:105–218.
  • Wagner, J. R. 1978. Facies comparison of Silurian clastics in Tennessee and Pennsylvania; contributions toward a regional synthesis of depositional environments. Geological Society of America Abstracts with Programs 10(4): 201.
  • Webby, B. D. 1977. Trace-fossil assemblages in early Paleozoic quartz-rich clastics of western New South Wales. Journal of Paleontology 51, no. 2, Supplement Part III, 30 p.
  • Wolfart, R. 1961. Strategraphie und Fauna des aelteren Palaeozoikums (Silur, Devon) in Paraguay. Geologisches Jahrbuch 78:29–102.
  • Wolfart, R. 1981. Lower Palaeozoic rocks of the Middle East. In Lower Palaeozoic of the Middle East, eastern and southern Africa, and Antarctica, ed. C. H., Holland, 6–130. New York: Wiley.
  • Yang, S. 1994. Cambrian-Ordovician trace fossils from Kuruktag Mt., northeastern part of Tarim Basin, Xinjiang. Hsien tai ti chih = Geoscience 8:371–379.
  • Young, R. S. 1955. Arthrophycus alleghaniensis as a guide fossil in northern Virginia. Journal of Paleontology 29:550–551.
  • Zhang, X., and D. Wang. 1996. A restudy on Silurian-Devonian ichnofossils from northwestern Hunan. Acta Palaeontologica Sinica 35:475–489.

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