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Spore assemblages from the Lower Devonian ‘Lower Old Red Sandstone’ deposits of the Northern Highlands of Scotland: the Berriedale Outlier

Published online by Cambridge University Press:  01 June 2015

Charles H. Wellman*
Affiliation:
Department of Animal and Plant Sciences, University of Sheffield, Alfred Denny Building, Western Bank, Sheffield S10 2TN, UK. Email: c.wellman@sheffield.ac.uk

Abstract

Assemblages of well-preserved dispersed spores have been recovered from the ‘Lower Old Red Sandstone’ deposits of the Berriedale Outlier in the Northern Highlands of Scotland. They belong to the annulatus–sextantii Spore Assemblage Biozone (AS SAB), in the spore zonation of Richardson & McGregor (1986), indicating an Early Devonian Emsian (but not earliest Emsian or latest Emsian) age. Comparison with the spore zonation of Streel et al. (1987) suggests they may be confined to the annulatus–bellatulus Oppel Zone (AB OZ), further constraining the age to early Emsian. This new biostratigraphical datum provides an age constraint for the onset of ‘Lower Old Red Sandstone’ sedimentation in the Orcadian Basin and, in particular, northwest of the Great Glen Fault System on the Northern Highlands. In the Orcadian Basin, there is a gap between ‘Lower Old Red Sandstone’ and ‘Middle Old Red Sandstone’ sedimentation, represented by either unconformity or disconformity, which appears to be variable in duration. In the Berriedale Outlier, it is estimated to represent up to 16 million years, but with an unknown thickness of ‘Lower Old Red Sandstone’ sequence removed at the unconformity. However, this basin-wide unconformity/disconformity is likely due to minor, local rather than large-scale, regional tectonism, and the evidence suggests little, if any, syn-depositional strike-slip movement along the Great Glen Fault System during Devonian ‘Old Red Sandstone’ deposition. The described spore assemblage is the most diverse AS SAB/AB OZ assemblage described from the British Isles. However, compared to contemporary spore assemblages from elsewhere on the Old Red Sandstone continent, the Scottish material is rather depauperate, with certain key taxa absent. This probably reflects subtle ecological effects, with the Scottish material representing restricted floras of the inland intermontaine basins.

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Articles
Copyright
Copyright © The Royal Society of Edinburgh 2015 

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References

6. References

Andrews, H. N., Gensel, P. G. & Forbes, W. H. 1974. An apparently heterosporous plant from the Middle Devonian of New Brunswick. Palaeontology 17, 387408.Google Scholar
Arkhangelskaya, A. D. 1978. Spores from the Lower Devonian of the Lithuanian SSR. Paleontologicheskii Zhurnal 2, 113–20.Google Scholar
Burgess, N. D. & Richardson, J. B. 1991. Silurian cryptospores and miospores from the type Wenlock area, Shropshire, England. Palaeontology 34, 601–28.Google Scholar
Chaloner, W. G. 1963. Early Devonian spores from a borehole in southern England. Grana Palynologica 4, 100–10.Google Scholar
Chaloner, W. G., Hill, A. & Rogerson, E. C. W. 1978. Early Devonian plant fossils from a Southern England borehole. Palaeontology 21, 693707.Google Scholar
Collins, A. G. & Donovan, R. N. 1977. The age of two Old Red Sandstone sequences in southern Caithness. Scottish Journal of Geology 13, 5357.Google Scholar
Crampton, C. B. & Carruthers, R. G. 1914. The Geology of Caithness (explanation of sheets 110, 116 with parts of 109, 115 and 117). Memoirs of the Geological Survey, Scotland.Google Scholar
Dec, T. 1992. Textural characteristics and interpretation of second-cycle, debris-flow-dominated alluvial fans (Devonian of northern Scotland). Sedimentary Geology 77, 269–96.Google Scholar
Fairon-Demaret, M. 1985. Les plantes fossils de l'Emsian du Sart Tilman, Belgique. 1. Stockmansia langii (Stockmans) comb. nov. Review of Palaeobotany and Palynology 44, 243–60.Google Scholar
Fletcher, T. P., Auton, C. A., Highton, A. J., Merritt, J. W., Roberston, S. & Rollin, K. E. 1996. Geology of the Fortrose and eastern Inverness district, Scotland (explanation of Sheet 84W (S)). Memoirs of the British Geological Survey.Google Scholar
Ford, J. H. 1971. Palynology of some Upper Silurian and Lower Old Red Sandstone sediments in the Midland Valley of Scotland. Unpublished PhD Thesis, Kings College London.Google Scholar
Friend, P. F. & Williams, B. P. J. 1978. A field guide to selected areas of the Devonian of Scotland, the Welsh Borderland and South Wales. Palaeontological Association International Symposium on the Devonian System (P.A.D.S. 78). London: The Palaeontological Association. 106 pp.Google Scholar
Gerrienne, P. 1993. Inventaire des vegetaux EoDevoniens de Belgique. Annales de la Société Géologique de Belgique 116, 105–17.Google Scholar
Gradstein, F. M., Ogg, J. G., Schmitz, M. D. & Ogg, G. M. 2012. The Geologic Time Scale 2012. Amsterdam: Elsevier.Google Scholar
Henderson, S. M. K. 1932. Notes on Lower Old Red Sandstone plants from Callander, Perthshire. Transactions of the Royal Society of Edinburgh LVII, 277–85.Google Scholar
Kräusel, R. & Weyland, H. 1930. Die Flora des Deutschen Unterdevons. Abhandlungen der Preussischen Geologischen Landesanstalt, Neue Folge 131, 192.Google Scholar
Lang, W. D. 1932. Contributions to the study of the Old Red Sandstone flora of Scotland. VIII. On Arthrostigma, Psilophyton, and some associated plant remains from the Strathmore Beds of the Caledonian Lower Old Red Sandstone. Transactions of the Royal Society of Edinburgh LVII, 491521.Google Scholar
Lanninger, E. P. 1968. Sporen-Gesellschaften aus dem Ems der SW-Eifel. Palaeontographica B122, 95170.Google Scholar
Lavender, K. & Wellman, C. H. 2002. Lower Devonian spore assemblages from the Arbuthnott Group at Canterland Den in the Midland Valley of Scotland. Review of Palaeobotany and Palynology 118, 157–80.Google Scholar
Leclercq, S. 1942. Quelques plantes fossils recueillies dans le Dévonien inférieur des environs de Nonceveux (bordure orientale du basin de Dinant). Annales de la Société Géologique de Belgique 65, 193211.Google Scholar
Marshall, J. E. A. & Hewett, A. J. 2003. Devonian. In Evans, D., Graham, C., Armour, A. & Bathurst, P. (eds) The Millennium Atlas: Petroleum geology of the central and northern North Sea. Bath, UK: Geological Society Publishing House.Google Scholar
McClay, K. R., Norton, M. G., Coney, P. & Davis, G. H. 1986. Collapse of the Caledonide Orogen and the Old Red Sandstone. Nature 525, 147–49.Google Scholar
McGregor, D. C 1961. Spores with proximal radial pattern from the Devonian of Canada. Geological Survey of Canada Bulletin 76, 111.Google Scholar
McGregor, D. C. 1973. Lower and Middle Devonian spores of eastern Gaspé, Canada. I. Systematics. Palaeontographica B 142, 177.Google Scholar
McGregor, D. C. 1977. Lower and Middle Devonian spores of eastern Gaspé, Canada. II. Biostratigraphy. Palaeontographica B 163, 111–42.Google Scholar
McGregor, D. C. & Camfield, M. 1976. Upper Silurian? to Middle Devonian spores of the Moose River Basin, Ontario. Geological Survey of Canada, Bulletin 263. 63 pp.Google Scholar
Mendum, J. R. & Noble, S. R. 2010. Mid-Devonian sinstral transpressional movements on the Great Glen Fault: the rise of the Rosemarkie Inlier and the Acadian Event in Scotland. In Law, R. D., Butler, R. W. H., Holdsworth, R. E., Krabbendam, M & Strachan, R. A. (eds) Continental tectonics and mountain building: the legacy of Peach and Horne. Geological Society, London, Special Publications 335, 161–87.Google Scholar
Mykura, W. & Owens, B. 1983. The Old Red Sandstone of the Mealfuarvonie Outlier, west of Loch Ness, Inverness-shire. Institute of Geological Sciences Report 83(7), 117.Google Scholar
Naumova, S. N. 1953. [.] Transactions of the Institute of Geological Sciences, Academy of Sciences of the USSR 143 (Geological Series no. 60), 1154. [In Russian.]Google Scholar
Norton, M. G., McClay, K. R. & Way, N. A. 1987. Tectonic evolution of Devonian basins in northern Scotland and southern Norway. Norsk Geologisk Tidsskrift 67, 323–38.Google Scholar
Pidgeon, R. T. & Aftalion, M. 1978. Cogenetic and inherited zircon U/Pb systems in granite: Palaeozoic granites in Scotland and England. In Bowes, D. R. & Leake, B. E. (eds) Crustal evolution in north-western Britain and adjacent regions. Geological Journal Special Issue 10, 183220.Google Scholar
Rayner, R. J. 1983. New observations on Sawdonian ornata from Scotland. Transactions of the Royal Society of Edinburgh: Earth Sciences 74, 7993.Google Scholar
Rayner, R. J. 1984. New finds of Drepanophycus spinaeformis Göppert from the Lower Devonian of Scotland. Transactions of the Royal Society of Edinburgh: Earth Sciences 75, 353–63.Google Scholar
Read, H. H. 1931. The Geology of central Sutherland (explanation of Sheets 108 and 109). Memoirs of the Geological Survey, Scotland.Google Scholar
Richards, P. C. 1985. A Lower Old Red Sandstone lake in the offshore Orcadian Basin. Scottish Journal of Geology 21, 381–83.Google Scholar
Richardson, J. B. 1965. Middle Old Red Sandstone spore assemblages from the Orcadian basin, northeast Scotland. Palaeontology 7, 559605.Google Scholar
Richardson, J. B. 1967. Some British Lower Devonian spore assemblages and their stratigraphic significance. Review of Palaeobotany and Palynology 1, 111–29.Google Scholar
Richardson, J. B., Streel, M., Hassan, A. & Steemans, P. 1982. A new spore assemblage to correlate between the Breconian (British Isles) and the Gedinnian (Belgium). Annales de la Société Géologique de Belgique 105, 135–43.Google Scholar
Richardson, J. B., Bonamo, P. M. & McGregor, D. C. 1993. The spores of Leclercqia and the dispersed spore morphon Acinosporites lindlarensis Riegel: a case of gradualistic evolution. Bulletin of the Natural History Museum London (Geology) 49, 121–55.Google Scholar
Richardson, J. B. & Lister, T. R. 1969. Upper Silurian and Lower Devonian spore assemblages from the Welsh Borderland and South Wales. Palaeontology 12, 201–52.Google Scholar
Richardson, J. B. & McGregor, D. C. 1986. Silurian and Devonian spore zones of the Old Red Sandstone continent and adjacent areas. Geological Survey of Canada Bulletin 364, 179.Google Scholar
Richardson, J. B & Rasul, S. M. 1978a. Palynomorphs in Lower Devonian sediments from the Apley Barn borehole, southern England. Pollen et Spores 20, 423–62.Google Scholar
Richardson, J. B & Rasul, S. M. 1978b. Palynological evidence for the age and provenance of the Lower Old Red Sandstone from the Apley Barn borehole, Witney, Oxfordshire. Proceedings of the Geologists' Association 90, 2742.Google Scholar
Rogers, D. A., Marshall, J. E. A. & Astin, T. R. 1989. Devonian and later movements on the Great Glen fault system, Scotland. Journal of the Geological Society, London 146, 369–72.Google Scholar
Schweitzer, H. –J. 1983. Die Unterdevonflora des Rheinlandes. Palaeontographica B189, 1138.Google Scholar
Steemans, P. 1989. Etude palynostratigraphique du Devonien Inférieur dans l'ouest de l' Europe. Mémoires pour servir à l'Explication des Cartes Géologiques et Minières de la Belgique. Mémoire No. 27. 453 pp.Google Scholar
Stockmans, F. 1939. Note préliminaire sur des empreintes végétales du Dévonien inférieur de la Belgique. Bulletin du Musée royal d'histoire naturelle de Belgique 15, 16.Google Scholar
Streel, M. 1967. Associations de spores du Dévonien inférieur belge et leur signification stratigraphique. Annales de la Société Géologique de Belgique 90, 1153.Google Scholar
Streel, M., Higgs, K., Loboziak, S., Riegel, W. & Steemans, P. 1987. Spore stratigraphy and correlation with faunas and floras in the type marine Devonian of the Ardenne–Rhenish region. Review of Palaeobotany and Palynology 50, 211–29.Google Scholar
Strother, P. K. & Traverse, A. 1979. Plant microfossils from Llandovery and Wenlock rocks of Pennsylvania. Palynology 3, 121.Google Scholar
Sweet, I. P. 1985. The sedimentology of the Lower Old Red Sandstone near New Aberdour, Grampian Region. Scottish Journal of Geology 21, 239–59.Google Scholar
Traverse, A. 2007. Paleopalynology (2nd ed.). Springer.Google Scholar
Trewin, N. H. 1989. The petroleum potential of the Old Red Sandstone of northern Scotland. Scottish Journal of Geology 25, 201–25.Google Scholar
Trewin, N. H. 1993. The Lower Old Red Sandstone and Helmsdale Granite of the Ousdale area. In Trewin, N. H. & Hurst, A. (eds) Excursion guide to the Geology of east Sutherland and Caithness (1st edn), 115–22. Geological Society of Aberdeen.Google Scholar
Trewin, N. H. 2009a. The Lower Old Red Sandstone and Helmsdale Granite of the Ousdale area. In Trewin, N. H. & Hurst, A. (eds) Excursion guide to the Geology of east Sutherland and Caithness (2nd edn), 108–15. Geological Society of Aberdeen.Google Scholar
Trewin, N. H. 2009b. Geological history of East Sutherland and Caithness. In Trewin, N. H. & Hurst, A. (eds) Excursion guide to the Geology of east Sutherland and Caithness (2nd edn), 135. Geological Society of Aberdeen.Google Scholar
Trewin, N. H. & Thirlwall, M. F. 2002. Old Red Sandstone. In Trewin, N. H. (ed.) The Geology of Scotland (4th ed.), 213–49. Bath, UK: The Geological Society Publishing House.Google Scholar
Underhill, J. R. & Brodie, J. A. 1993. Structural geology of Easter Ross, Scotland: implications for movement on the Great Glen Fault. Journal of the Geological Society, London 150, 512–27.Google Scholar
Wellman, C. H. 1993a. A land plant microfossil assemblage of Mid Silurian age from the Stonehaven Group, Scotland. Journal of Micropalaeontology 12, 4766.Google Scholar
Wellman, C. H. 1993b. A Lower Devonian sporomorph assemblage from the Midland Valley of Scotland. Transactions of the Royal Society of Edinburgh: Earth Sciences 84, 117–36.Google Scholar
Wellman, C. H. 1994. Palynology of the ‘Lower Old Red Sandstone’ at Glen Coe, Scotland. Geological Magazine 131, 563–66.Google Scholar
Wellman, C. H. 2006. Spore assemblages from the Lower Devonian ‘Lower Old Red Sandstone’ of the Rhynie outlier, Scotland. Transactions of the Royal Society of Edinburgh: Earth Sciences 97, 167211.Google Scholar
Wellman, C. H. 2010. Spore assemblages from the Lower Devonian ‘Lower Old Red Sandstone’ deposits of Arran, Scotland. Earth and Environmental Science Transactions of the Royal Society of Edinburgh 100(for 2009), 391–97.Google Scholar
Wellman, C. H., Gensel, P. G. & Taylor, W. A. 2009. Spore wall ultrastructure in the early lycopsid Leclercqia (Protolepidodendrales) from the Lower Devonian of North America: evidence for a fundamental division in the lycopsids. American Journal of Botany 96, 1849–60.Google Scholar
Wellman, C. H. & Richardson, J. B. 1993. Terrestrial plant microfossils from Silurian inliers of the Midland Valley of Scotland. Palaeontology 36, 155–93.Google Scholar
Wellman, C. H. & Richardson, J. B. 1996. Sporomorph assemblages from the ‘Lower Old Red Sandstone’ at Lorne, Scotland. Special Papers in Palaeontology 55, 41101.Google Scholar
Westoll, T. S. 1977. Northern Britain. In House, M. R., Richardson, J. B., Chaloner, W. G., Allen, J. R. L., Holland, C. H. & Westoll, T. S. A correlation of Devonian rocks of the British Isles. Geological Society of London Special Report 7. 110 pp.Google Scholar