Hostname: page-component-586b7cd67f-l7hp2 Total loading time: 0 Render date: 2024-11-24T14:49:03.337Z Has data issue: false hasContentIssue false

Arthropod ichnofauna of the Old Red Sandstone at Dunure and Montrose, Scotland

Published online by Cambridge University Press:  03 November 2011

Elaine F. Walker
Affiliation:
Department of Geology, University of Manchester, Manchester M13 9PL, England.

Abstract

Sediments which occur frequently within Lower Devonian andesites of the Midland Valley of Scotland have so far yielded trace fossils in only two areas: Dunure, Ayrshire and Montrose, Angus.

Smith (1909) interpreted the trace fossils from Dunure as representing an “Upland Fauna” and he named 23 new ichnogenera. Re-examination of his localities and specimens suggests that the environment was a shallow ephemeral lake and when sedimentological and preservational factors, size, behavioural variation and synonymy are taken into account, only 8 ichnogenera are here considered valid. These are redefined as Siskemia, Stiaria, Danstairia, Keircalia, Stiallia, Isopodichnus (=Archatomia Smith), Mermia and Merostomichnites. The Montrose ichnofauna of 5 ichnogenera includes a large arthropod trackway Mitchellichnus ferrydenensis gen. and sp. nov.

The trackways from both localities appear to have been formed by various merostomes, crustaceans and possibly early myriapods. The habitat was essentially aquatic although some arthropods may have been amphibious.

Type
Life and environment of fossil forms
Copyright
Copyright © Royal Society of Edinburgh 1985

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.)

References

Bluck, B. J. 1978. Sedimentation in a late orogenic basin: the Old Red Sandstone of the Midland Valley of Scotland. In Bowes, D. R. and Leake, B. E. (eds) Crustal Evolution in North-western Britain and adjacent regions. GEOL J SPEC ISSUE 10, 249–78.Google Scholar
Brade-Birks, S. G. 1923. Notes on Myriapoda, XXVIII Kampecaris tuberculata, n.sp. from the Old Red Sandstone of Ayrshire. PROC R PHYS SOC EDINBURGH 20, 277–80.Google Scholar
Brady, L. F. 1947. Invertebrate tracks from the Coconino Sandstone of Northern Arizona. J PALEONTOL 21, 466–72.Google Scholar
Briggs, D. E. G., Rolfe, W. D. I. & Brannan, J. 1979. A giant myriapod trail from the Namurian of Arran, Scotland. PALAEONTOLOGY 22, 273–91.Google Scholar
Briggs, D. E. G. & Rolfe, W. D. I. 1983. A giant arthropod trackway from the Lower Mississippian of Pennsylvania. J PALEONTOL 57, 377410.Google Scholar
Bromley, R. G. & Asgaard, U. 1979. Triassic freshwater ichnocoenoses from Carlsberg Fjord, East Greenland. PALAEOGEOGR PALAEOCLIMATOL PALAEOECOL 28, 3980.Google Scholar
Eyles, V. A., Simpson, J. B. & Macgregor, A. G. 1949. Geology of Central Ayrshire. MEM GEOL SURV SCOTLAND.Google Scholar
Geikie, A. 1897. The ancient volcanoes of Great Britain. London: Macmillan.CrossRefGoogle Scholar
Gevers, T. W., Frakes, L. A., Edwards, L. N. & Marzolf, J. E. 1971. Trace fossils in the Lower Beacon sediments (Devonian), Darwin Mountains, South Victoria Land, Antarctica. J PALEONTOL 45, 8194.Google Scholar
Kokelaar, B. P. 1982. Fluidization of wet sediment during the emplacement and cooling of various igneous bodies. J GEOL SOC LONDON 139, 2133.CrossRefGoogle Scholar
Mitchell, H. 1860. Notice of new fossils from the Lower Old Red Sandstone of Scotland. THE GEOLOGIST 2, 273–5.Google Scholar
Pollard, J. E. 1985a. Evidence from trace fossils. In Challoner, W. G. & Lawson, J. D. (eds) Evolution and Environment in the late Silurian and early Devonian. PHIL TRANS R SOC LONDON B 309, 241–2.Google Scholar
Pollard, J. E. 1985b. Isopodichnus and related arthropod trace fossils from Triassic fluvial sediments. TRANS R SOC EDINBURGH EARTH SCI 76, 273–85.Google Scholar
Pollard, J. E., Steel, R. J. & Undersrud, E. 1982. Facies sequences and trace fossils in lacustrine/fan-delta deposits, Hornelen Basin (M. Devonian), western Norway. SEDIMENT GEOL 32, 6387.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 17, 567–76.CrossRefGoogle Scholar
Rolfe, W. D. I. 1980. Early invertebrate terrestrial faunas. In Panchen, A. L. (ed.) Terrestrial environment and the origin of the vertebrates, 117–57 (Systematics Assoc. Special Volume 15) London & New York: Academic Press.Google Scholar
Seilacher, A. 1978. Use of trace fossil assemblages for recognising depositional environments. In Basen, P. B. (ed.) Trace Fossil Concepts, 167181. Oklahoma: SEPM Short Course 5.Google Scholar
Selden, P. A. 1984. Autecology of Silurian eurypterids. SPEC PAP PALAEONTOL 32, 3954.Google Scholar
Smith, J. 1909. Upland Fauna of the Old Red Sandstone Formation of Carrick, Ayrshire. Kilwinning: Cross.Google Scholar
Trewin, N. H. 1976. Isopodichnus in a trace fossil assemblage from the Old Red Sandstone. LETHAIA 9, 2938.CrossRefGoogle Scholar
Walter, H. 1983. Zur Taxonomie, Ökologie und Biostratigraphie der Ichnia limnischer-terrestrischer Arthropoden des mitteleuropäischen Jungpalozoikums. FREIBERGER FORSCHUNGSH C382, 146–93.Google Scholar