Hostname: page-component-78c5997874-t5tsf Total loading time: 0 Render date: 2024-11-03T02:56:37.123Z Has data issue: false hasContentIssue false
  • English
  • Français

The ichnofauna of the Skiddaw Group (early Ordovician) of the Lake District, England

Published online by Cambridge University Press:  01 May 2009

Patrick J. Orr
Patrick J. Orr*
Affiliation:
Department of Geology, University College, Galway, Ireland
Get access Rights & Permissions [Opens in a new window]

Abstract

Deep-marine strata of the Skiddaw Group, deposited in high southerly palaeolatitudes on the northern margin of Eastern Avalonia in the early Ordovician, contain a diverse ichnofauna dominated by examples of fodinichnia. This includes Alcyonidiopsis pharmaceus, several ichnospecies of Chondrites, Dictyodora zimmermani, Glockerichnus radiatus, Gordia marina, Ixalichnus enodius, two or possibly three ichnospecies of Phycodes, Planolites montanus, Volkichnium volki, an ‘arthropod-produced? repichnion’, ‘paired pits’, ?Gordia aff. marina, ‘thinly-walled, looping, burrows’ and burrows of Planolites/Palaeophycus affinity. Stellascolites radiatus Etheridge, 1876 is reassigned to the ichnogenus Glockerichnus Pickerill, 1982 as Glockerichnus radiatus (Etheridge, 1876).

Several of the ichnotaxa are present in other ichnofaunal assemblages of early Ordovician age which were also emplaced at high southerly palaeolatitudes. The relatively high diversity of this ichnofaunal assemblage supports suggestions that models of the rate at which the deep-marine environment was colonized during the early Phanerozoic are in need of revision.

Type
Research Article
Information
Geological Magazine , Volume 133 , Issue 2 , March 1996 , pp. 193 - 216
Copyright
Copyright © Cambridge University Press 1996

Access options

Get access to the full version of this content by using one of the access options below. (Log in options will check for institutional or personal access. Content may require purchase if you do not have access.)

Footnotes

*

Present address: Department of Geology, University of Bristol, Wills Memorial Building, Queen’s Road, Bristol BS8 1RJ, UK

References

Aceñolaza, F. G., 1978. El Paleozoico inferior de Argentina segun sus trazas fosiles. Ameghiniana 15, 1564.Google Scholar
Alpert, S. P., 1975. Planolites and Skolithos from the Upper Precambrian—Lower Cambrian White—Inyo Mountains, California. Journal of Paleontology 49, 508–21.Google Scholar
Arber, E. A. N., 1921. Devonian Floras. A study of the origin of Cormophyta. Cambridge: Cambridge University Press.Google Scholar
Baldwin, C. T., 1977. The stratigraphy and facies associations of trace fossils in some Cambrian and Ordovician rocks of north western Spain. In Trace fossils 2 (eds Crimes, T. P. and Harper, J.C.), pp. 940. Geological Journal Special Issue no. 9. Liverpool: Seel House Press.Google Scholar
Benton, M. J., 1982. Dictyodora and associated trace fossils from the Palaeozoic of Thuringia. Lethaia 15, 115–32.CrossRefGoogle Scholar
Benton, M. J., & Trewin, N. H., 1978. Discussion and comments on Nicholson's 1872 manuscript “Contributions to the study of the errant annelides of the older Palaeozoic rocks”. Publications of the Department of Geology and Mineralogy; University of Aberdeen 1, 116.Google Scholar
Benton, M. J., & Trewin, N. H., 1980. Dictyodora from the Silurian of Peebleshire, Scotland. Palaeontology 23, 501–13.Google Scholar
Bergström, J., 1976. Lower Palaeozoic trace fossils from eastern Newfoundland. Canadian Journal of Earth Sciences 13, 1613–33.CrossRefGoogle Scholar
Billings, E., 1862. New species of fossils from different parts of the Lower, Middle and Upper Silurian rocks of Canada. In Palaeozoic fossils. Volume 1: containing descriptions and figures of new or little known species of organic remains from the Silurian rocks, pp. 96168. Geological Survey of Canada Advance Sheets (1861–1865).Google Scholar
Bromley, R. G., 1990. Trace fossils: biology and taphonomy. Special topics in paleontology: 3. London: Unwin and Hyman, 280 pp.Google Scholar
Callinson, G., 1970. Trace fossils of trilobites from the Deadwood Formation (Upper Cambrian) of western South Dakota. Bulletin of the Southern California Academy of Science 69, 20–6.Google Scholar
Chamberlain, C. K., 1977. Ordovician and Devonian trace fossils from Nevada. Bulletin of the Nevada Bureau of Mines and Geology 90, 124.Google Scholar
Chamberlain, C. K., 1979. Trace fossil biofacies in the lower and middle Palaeozoic of central Nevada. Brigham Young University Geological Studies 26, 919.Google Scholar
Cooper, A. H., & Molyneux, S. G., 1990. The age and correlation of Skiddaw Group (early Ordovician) sediments in the Cross Fell inlier (northern England). Geological Magazine 127, 147–57.CrossRefGoogle Scholar
Cooper, A. H., Millward, D., Johnson, E. W., & Soper, N. J., 1993. The early Palaeozoic evolution of northwest England. Geological Magazine 130, 711–24.CrossRefGoogle Scholar
Crimes, T. P., 1970. The significance of trace fossils in sedimentology, stratigraphy and palaeoecology with examples from Lower Palaeozoic strata. In Trace Fossils (eds Crimes, T. P. and Harper, J. C.), pp. 101–26. Geological Journal, Special Issue no. 3. Liverpool: Seel House Press.Google Scholar
Crimes, T. P., 1974. Colonisation of the early ocean floor. Nature 248, 328–30.CrossRefGoogle Scholar
Crimes, T. P., 1976. Trace fossils from the Bray Group (Cambrian) at Howth, Co. Dublin. Geological Society of Ireland Bulletin 2, 5367.Google Scholar
Crimes, T. P., & Crossley, J. D., 1968. The stratigraphy, sedimentology, ichnology and structure of the Lower Palaeozoic rocks of part of north-eastern Co. Wexford. Proceedings of the Royal Irish Academy 67B, 185215.Google Scholar
Crimes, T. P., & Crossley, J. D., 1980. Inter-turbidite bottom current orientation from trace fossils, with an example from the Silurian flysch of Wales. Journal of Sedimentary Petrology 50, 821–30.Google Scholar
Crimes, T. P., & Crossley, J. D., 1991. A diverse ichnofauna from Silurian flysch of the Aberystwyth Grits Formation, Wales. Geological Journal 26, 2764.CrossRefGoogle Scholar
Crimes, T. P., Garcia, Hidalgo J. F., & Poire, D. G., 1992. Trace fossils from Arenig flysch sediments of Eire and their bearing on the early colonisation of the deep seas. Ichnos 2, 6177.CrossRefGoogle Scholar
Crimes, T. P., Goldring, R., Homewood, P., Stuuvenberg, J. van, & Winkler, W., 1981. Trace fossil assemblages of deep-sea fan deposits, Gurnigel and Schlieren flysch (Cretaceous—Eocene), Switzerland. Eclogae Geologicae Helvetiae 74, 953–95.Google Scholar
Delgado, J. F. N., 1908. Systéme Silurique du Portugal. Étude de stratigraphie paléontologique. Commissão do Serviço Geológico de Portugal, Mémorias. Lisboa: Imprimerie Nationale, 245 pp.Google Scholar
Delgado, J. F. N., 1910. Terrains paléozoïques du Portugal. Étude sur les fossiles des schistes à Néréites et à Graptolites de Barrancos. Commissão do Serviço Geológico de Portugal, Mémorias. Lisboa: Imprimerie Nationale, 68 pp.Google Scholar
Emmons, E., 1844. The Taconic System based on observations in New York, Massachusetts, Maine, Vermont and Rhode Island. Albany: Carroll and Cook, 68 pp.Google Scholar
Etheridge, R., 1876. Appendix A. Description of new fossils occurring in the Arenig or Skiddaw slates. In The geology of the northern part of the English Lake District (Ward, J.), pp. 108–12. Memoir of the British Geological Survey (England and Wales).Google Scholar
Fillion, D., & Pickerill, R. K., 1990. Ichnology of the Upper Cambrian(?) to Lower Ordovician Bell Island and Wabana groups of eastern Newfoundland, Canada. Palaeontographica Canadiana 7, 1119.Google Scholar
Fortey, N. J., 1989. Low grade metamorphism in the Lower Ordovician Skiddaw Group of the Lake District, England. Proceedings of the Yorkshire Geological Society 47, 325–37.CrossRefGoogle Scholar
Fortey, R. A., Owens, R. M., & Rushton, A. W. A., 1989. The palaeogeographic position of the Lake District in the early Ordovician. Geological Magazine 126, 917.CrossRefGoogle Scholar
Frey, R. W., & Seilacher, A., 1980. Uniformity in marine invertebrate ichnology. Lethaia 13, 183207.CrossRefGoogle Scholar
Groom, T., 1902. The sequence of the Cambrian and associated beds of the Malvern Hills. Quarterly Journal of the Geological Society of London 58, 89149.CrossRefGoogle Scholar
Hall, J., 1847. Palœontology of New York. Volume I. Containing descriptions of the organic remains of the Lower Division of the New York System, (equivalent of the Lower Silurian rocks of Europe). Albany: C. van Benthuysen, 338 pp.Google Scholar
Hall, J., 1852. Palœontology of New York. Volume II. Containing descriptions of the organic remains of the Lower Middle Division of the New York System, (equivalent of the Middle Silurian rocks of Europe). Albany: C. van Benthuysen, 362 pp.Google Scholar
Häntzschel, W., 1965. Vestigia invertebratorum et problematica. Fossilium catalogus I: Animalia Pars 108. s’Gravenhage: W. Junk, 142 pp.Google Scholar
Häntzschel, W., 1975. Trace fossils and Problematica. In Treatise on Invertebrate Palaeontology, part W, Miscellanea; Supplement 1. (ed Teichert, C.). Boulder, Colorado: Geological Society of America and Lawrence, Kansas: The University of Kansas, 269 pp.Google Scholar
Hitchcock, E., 1865. Supplement of the ichnology of New England. Boston: Wright and Porter, 96 pp.Google Scholar
Hofmann, H. J., 1972. Systematically branching burrows from the Lower Orodovician (Quebec Group) near Quebec, Canada. Paläontologische Zeitschrift 46, 186–98.CrossRefGoogle Scholar
Hofmann, H. J., 1990. Computer simulation of trace fossils with random patterns, and the use of goniograms. Ichnos 1, 1522.CrossRefGoogle Scholar
Hundt, R., 1913. Eine Ergänzung zu ‘Organische Reste aus dem Untersilur des Hüttchenberges bei Wünschendorf an der Elster’. Zentralblatt für Mineralogie, Geologie, und Paläontologie 1913, 180–1.Google Scholar
Kneller, B. C., & Bell, A. M., 1993. An Acadian mountain front in the English Lake District: the Westmorland Monocline. Geological Magazine 130, 203–13.CrossRefGoogle Scholar
Ksiâżkiewicz, M., 1968. O niektórych problematykach z fliszu Karpat Polskich (Czâćź) III. Polskiego Towarzystwa Geologicznego w Krakówie, Rocznik 38, 317.Google Scholar
Ksiâżkiewicz, M., 1977. Trace fossils in the flysch of the Polish Carpathians. Palaeontologia Polonica 36, 1208.Google Scholar
Lee, M. K., 1989. Upper crustal structure of the Lake District from modelling and image processing of potential field data. British Geological Survey Technical Report WK/89/1.Google Scholar
Linck, O., 1943. Die Buntsandstein-Kleinfahrten von Nagold. (Limulidichnulus nagoldensis n. g. n. sp., Merostomichnites triassicus n. sp.). Neues Jahrbuch für Mineralogie, Geologie und Paläontologie, Monatschefte, Abteilung B 1943, 927.Google Scholar
Lundgren, S. A. B., 1891. Studier öfver fossilförande lösa block. Geologiska Föreningens i Stockholm, Förhandlingar 13, 111–21.CrossRefGoogle Scholar
M'Coy, F., 1848. Note on some Skiddaw slate fossils. In On the organic remains found in the Skiddaw slate, with some remarks on the classification of the older rocks of Cumberland and Westmoreland (A. Sedgwick). Quarterly Journal of the Geological Society of London 4, 223–5.Google Scholar
M'Coy, F., 18511855. A systematic description of the British Palaeozoic fossils in the Geological Museum of the University of Cambridge. In A synopsis of the Classification of the British Palaeozoic rocks (Sedgwick, A.), London and Cambridge: J.W. Parker, 661 pp. (p. 1–184 (1851); p. 185–406 (1852); p. 407–661 (1855)).Google Scholar
MacLeay, W. S., 1839. Note on the annelida. In The Silurian System, part II: Organic Remains (R. I. Murchison), pp. 699701. London: J. Murray.Google Scholar
Massalongo, A., 1856. Studii Palaeontologici. Verona: Antonelli, 53 pp.CrossRefGoogle Scholar
McCann, T., 1990. Distribution of Ordovician—Silurian ichnofossil assemblages in Wales — implications for Phanerozoic ichnofaunas. Lethaia 23, 243–55.CrossRefGoogle Scholar
McCann, T., 1993. A Nereites ichnofacies from the Ordovician—Silurian Welsh Basin. Ichnos 2, 118.Google Scholar
McCann, T., & Pickerill, R. K., 1988. Flysch trace fossils from the Cretaceous Kodiak Formation of Alaska. Journal of Paleontology 62, 330–48.CrossRefGoogle Scholar
McKerrow, W. S., Dewey, J. F., & Scotese, C. R., 1991. The Ordovician and Silurian development of the Iapetus Ocean. Special Papers in Palaeontology 44, 165–78.Google Scholar
Mikuláš, R., & Pek, I., 1994. Spirocircus cycloides, a new ichnofossil from the Upper Cretaceous in Northern Moravia (Czech Republic). Věstník českého geologického ústavu 69, 75–7.Google Scholar
Molyneux, S. G., & Rushton, A. W. A., 1988. The age of the Watch Hill Grits (Ordovician), English Lake District: structural and palaeogeographic implications. Transactions of the Royal Society of Edinburgh, Earth Sciences 79, 4369.CrossRefGoogle Scholar
Moseley, F., 1978. The geology of the Lake District. In The geology of the Lake District (ed. Moseley, F.), pp. 731. Occasional Publication no. 3, Yorkshire Geological Society, Leeds.Google Scholar
Murchison, R. I., 1839. The Silurian System. Part I. Founded on geological researches in the counties of Solop, Hereford, Radnor, Montgomery, Caermarthen, Brecon, Pembroke, Monmouth, Gloucester, Worcester, and Stafford; with descriptions of the coal-fields and overlying formations. Part II. Organic remains. London: J. Murray, 768 pp.Google Scholar
Nicholson, H. A., 1869. On the occurrence of plants in the Skiddaw Slates. Geological Magazine 6, 494–8.CrossRefGoogle Scholar
Nicholson, H. A., 1873 a. Contributions to the study of the errant annelides of the older Palaeozoic rocks. Proceedings of the Royal Society of London 21, 288–90.Google Scholar
Nicholson, H. A., 1873 b. Contributions to the study of the errant annelides of the older Palaeozoic rocks. Geological Magazine 10, 309–10.Google Scholar
Nicholson, H. A., 1875. (2nd) Report upon the Palaeontology of the Province of Ontario. Toronto: Hunter, Rose & Co., 96 pp.Google Scholar
Nicholson, H. A., 1978 (posthumous). Contributions to the study of errant annelides of the older Palaeozoic rocks. University of Aberdeen Department of Geology and Mineralogy Publication 1, 1747.Google Scholar
Nicholson, H. A., & Hinde, G. J., 1874. Notes on the fossils of the Clinton, Niagara and Guelph formations of Ontario, with descriptions of new species. Canadian Journal of Science, Literature and History 14, 137–52, 137–44* (*mistake in pagination: pp. 153–60 misnumbered as 137–44)Google Scholar
Orr, P. J., 1995. A deep-marine ichnofaunal assemblage from Llandovery strata of the Welsh Basin, west Wales, UK. Geological Magazine 132, 267–85.CrossRefGoogle Scholar
Pemberton, S. G., & Frey, R. W., 1982. Trace fossil nomenclature and the Planolites—Palaeophycus dilemma. Journal of Paleontology 56, 843–81.Google Scholar
Perdigão, J. C., 1967. Estudos geológicos na pedreira do Mestre André (Barrancos). Serviços Geológicos de Portugal, Comunicações 52, 5564.Google Scholar
Pfeiffer, H., 1965. Volkichnium volki n. gen., n. sp. (Lebens Spuren) aus den Phycoden-Schichten Thüringens. Geologie (=Zeitschrift für das Gesamtgebiet der Geologieund Mineralogie sowie der angewandten Geophysik) 14, 1266–8.Google Scholar
Pickerill, R. K., 1980. Phanerozoic flysch trace fossil diversity-observations based on an Ordovician flysch ichnofauna from the Aroostook—Matapedia Carbonate Belt of northern New Brunswick. Canadian Journal of Earth Sciences 17, 1259–70.CrossRefGoogle Scholar
Pickerill, R. K., 1988. (Abstract) Early Palaeozoic Deep-Water Flysch Ichnocoenoses. Maritime Sediments and Atlantic Geology 24, 206–7. (Atlantic Geoscience Society: 1988 Colloquium Abstracts).Google Scholar
Pickerill, R. K., 1982. Glockerichnus, a new name for the trace fossil Glockeria Ksiażkiewicz, 1968. Journal of Paleontology 56, 816.Google Scholar
Pickerill, R. K., 1992 a. Carboniferous nonmarine invertebrate ichnocoenoses from southern New Brunswick, eastern Canada. Ichnos 2, 2135.CrossRefGoogle Scholar
Pickerill, R. K., 1992 b. (Abstract) Aspects of the ichnology of the Cambrian—Early Ordovician Meguma Group. Geological Association of Canada—Mineralogical Society of Canada: Programme with Abstracts, A90–A91.Google Scholar
Pickerill, R. K., 1994. Comment on “Exceptional fossil record: Distribution of soft-tissue preservation through the Phanerozoic”. Geology 22,183.2.3.CO;2>CrossRefGoogle Scholar
Pickerill, R. K., & Fillion, D., 1983. On the Tremadoc—Arenig and Lower—Upper Tremadoc boundaries in the Bell Island Group, Conception Bay, eastern Newfoundland. Maritime Sediments and Atlantic Geology 19, 2130.Google Scholar
Pickerill, R. K., & Fillion, D., 1984. Occurrence of Rusophycus morgati in Arenig strata of Bell Island, eastern Newfoundland. Journal of Paleontology 58, 274–6.Google Scholar
Pickerill, R. K., & Narbonne, G. M., 1995. Composite and compound ichnotaxa: a case example from the Ordovician of Québec, eastern Canada. Ichnos 4, 5369.CrossRefGoogle Scholar
Pickerill, R. K., & Peel, J. S., 1991. Gordia nodosa isp. nov. and other trace fossils from the Cass Fjord Formation (Cambrian) of North Greenland. Grønlands Geologiske Undersøgelse, Rapport 150, 1528.CrossRefGoogle Scholar
Pickerill, R. K., & Williams, P. F., 1989. Deep burrowing in the early Palaeozoic deep sea: examples from the Cambrian(?)—Early Ordovician Meguma Group of Nova Scotia. Canadian Journal of Earth Science 26, 1061–8.CrossRefGoogle Scholar
Pickerill, R. K., Fillion, D., & Brenchley, P. J., 1991. A note on the occurrence of Arthrophycus in the Bell Island Group of eastern Newfoundland. Atlantic Geology 27, 73–7.CrossRefGoogle Scholar
Pickerill, R. K., Fyffe, L. R., & Forbes, W. H., 1987. Late Ordovician—early Silurian trace fossils from the Matapedia Group, Tobique River, western New Brunswick, Canada. Maritime Sediments and Atlantic Geology 23, 7788.Google Scholar
Pollard, J. E., & Walker, E. F., 1984. Reassessment of sediments and trace fossils from Old Red Sandstone (Lower Devonian) of Dunure, Scotland, described by John Smith (1909). Geobios: Paléontologie, Stratigraphie, Paléoécologie 17, 567–76.CrossRefGoogle Scholar
Pomel, A., 1849. Máteriaux pour servir à la flore fossile des terrains jurassiques de la France. Versammlung Deutscher Naturforscher und Aerzte, Bericht 25 (Sept. 1847), 332–54.Google Scholar
Richter, R., 1850. Aus der thüringischen Grauwacke. Deutsche Geologische Gesellschaft, Zeitschrift 2, 198206.Google Scholar
Richter, R., 1937. Marken und spuren aus alien Zeiten I–II. Senckenbergiana 19, 150–69.Google Scholar
Richter, R., & Richter, E., 1939 a. Eine Lebens-Spur (Syncoprulus pharmaceus), gemeinsam dem rheinischen und böhmischen Ordovicium. Senckenbergiana 21, 152–67.Google Scholar
Richter, R., & Richter, E., 1939 b. Die Kot-Schnur Tomaculum Groom (Syncoprulus Ruad. and E. Richter) ähnliche Scheitel-Platten und beider stratigraphische Bedeutung. Senckenbergiana 21, 278–91.Google Scholar
Romano, M., 1982. The Ordovician biostratigraphy of Portugal — a review with new data and re-appraisal. Geological Journal 17, 89110.CrossRefGoogle Scholar
Salter, J. W., 1857. On annelide-burrows and surface markings from the Cambrian rocks of the Longmynd. Quarterly Journal of the Geological Society of London 13, 199206.CrossRefGoogle Scholar
Scotese, C. R., & McKerrow, W. S., 1990. Revised World maps and introduction. In Palaeozoic Palaeogeography and Biogeography (eds McKerrow, W. S. and Scotese, C. R.), pp. 121. Geological Society of London, Memoir no. 12.Google Scholar
Sedgwick, A., 1848. On the organic remains found in the Skiddaw slate, with some remarks on the classification of the older rocks of Cumberland and Westmoreland. Quarterly Journal of the Geological Society of London 4, 216–23.CrossRefGoogle Scholar
Seilacher, A., 1955. IV. Spuren und Lebensweise der Trilobiten. In Beiträge zur Kenntnis des Kambriums in der Salt Range (Pakistan) (O. H. Schindewolf and A. Seilacher). Akademie der Wissenschaften und der Literatur zu Mainz, mathematisch-naturwissenschaftliche Klassen, Abhandlungen 10, 342–72 (also paginated as 1–190).Google Scholar
Seilacher, A., 1962. Paleontological studies on turbidite sedimentation and erosion. Journal of Geology 70, 227–34.CrossRefGoogle Scholar
Seilacher, A., 1974. Flysch trace fossils: evolution of behavioural diversity in the deep-sea. Neues Jahrbuch für Geologie und Palüontologie, Monatshefte 1974, 233–45.Google Scholar
Seilacher, A., 1977. Evolution of trace fossil communities. In Patterns of evolution (ed. Hallam, A.), pp. 289334. Amsterdam: Elsevier.Google Scholar
Seilacher, A., 1994. How valid is Cruziana Stratigraphy? Geologische Rundschau 83, 752–8.CrossRefGoogle Scholar
Seilacher, A., & Crimes, T. P., 1969. “European” species of trilobite burrows in eastern Newfoundland. In North Atlantic geology and continental drift (ed. Kay, M.), pp. 145–8. American Association of Petroleum Geologists, Memoir no. 12.Google Scholar
Smith, J., 1909. Upland fauna of the Old Red Sandstone Formation ofCarrick, Ayrshire. Kilwinning, Cross, 60 pp.Google Scholar
Soper, N. J., Strachan, R. A., Holdsworth, R. E., Gayer, R. A., & Greiling, R. O., 1992. Sinistral transpression and the Silurian closure of Iapetus. Journal of the Geological Society of London 149, 871–80.CrossRefGoogle Scholar
Sternberg, K. M. G. von., 1833. Versuch einer geognostisch—botanischen Darstellung der Flora der Vorwelt, parts 5 and 6. In Versuch einer geognostisch-botanischen Darstellung der Flora der Vorwelt 1–8 (1820–1838), pp. 180. Prague: Johann Spurny.Google Scholar
Torell, O. M., 1870. Petrificata Suecana Formationis Cambricae. Lunds Universitet Årsskrift 6, 114.Google Scholar
Torsvik, T. H., Smethurst, M. A., Briden, J. C., & Sturt, B. A., 1990. A review of Palaeozoic palaeomagnetic data from Europe and their palaeogeographical implications. In Palaeozoic Palaeogeography and Biogeography (eds McKerrow, W. S. and Scotese, C. R.), pp. 25–1. Geological Society of London, Memoir no. 12.Google Scholar
Trewin, N. H. T., & McNamara, K. J., 1995* Arthropods invade the land: trace fossils and palaeoenvironments of the Tumblagooda Sandstone (?late Silurian) of Kalbarri, western Australia. Transactions of the Royal Society of Edinburgh, Earth Sciences 85, 177210. (* published in 1995 for 1994)CrossRefGoogle Scholar
Ulrich, E. O., 1904. Fossils and age of the Yakutat Formation. Descriptions of collections made chiefly near Kadiak, Alaska. Harriman Alaska Expedition 4 (Geology and Paleontology), 125–46.Google Scholar
Vyalov, O. S., 1971. Redkie problematic iz mesozoya Pamira i Kavkaza. Paleontologicheskiy Sbornik 7, 8593.Google Scholar
Walker, E. F., 1985. Arthropod ichnofauna of the Old Red Sandstone at Dunrue and Montrose, Scotland. Transactions of the Royal Society of Edinburgh, Earth Sciences 76, 287–97.CrossRefGoogle Scholar
Walter, H., 1983. Zur Taxonomie, Okologie und Biostratigraphie der Ichnia limnischterrestrischer Arthropoden des mitteleuropaischen Jungpalaozoikums. Freiberger Forschungsheft C 382, 146–93.Google Scholar
Webb, B. C., & Cooper, A. H., 1988. Slump folds and gravity slide structures in a Lower Palaeozoic marginal basin sequence (the Skiddaw Group), NW England. Journal of Structural Geology 10, 463–72.CrossRefGoogle Scholar
Weiss, E., 1884. Vorlegung des Dictyophytum liebeanum Gein. aus der Gegend von Gera. Gesellschaft Naturforschender Freunde Berlin, Magazin 1884, 17.Google Scholar