Hostname: page-component-78c5997874-j824f Total loading time: 0 Render date: 2024-11-13T02:56:57.082Z Has data issue: false hasContentIssue false
  • English
  • Français

The Northern Belt 100 years on: a revised model of the Ordovician tracts near Leadhills, Scotland

Published online by Cambridge University Press:  03 November 2011

R. A. Smith ,
E. R. Phillips ,
J. D. Floyd ,
H. F. Barron  and
E. A. Pickett
R. A. Smith
Affiliation:
R. A. Smith, British Geological Survey, Murchison House, Edinburgh EH9 3LA e-mail:r.a.smith@bgs.ac.uk
E. R. Phillips
Affiliation:
E. R. Phillips, J. D. Floyd, H. F. Barron and E. A. Pickett, British Geological Survey, Murchison House, Edinburgh EH9 3LA
J. D. Floyd
Affiliation:
E. R. Phillips, J. D. Floyd, H. F. Barron and E. A. Pickett, British Geological Survey, Murchison House, Edinburgh EH9 3LA
H. F. Barron
Affiliation:
E. R. Phillips, J. D. Floyd, H. F. Barron and E. A. Pickett, British Geological Survey, Murchison House, Edinburgh EH9 3LA
E. A. Pickett
Affiliation:
E. R. Phillips, J. D. Floyd, H. F. Barron and E. A. Pickett, British Geological Survey, Murchison House, Edinburgh EH9 3LA
Get access Rights & Permissions [Opens in a new window]

Abstract

ABSTRACT

A new model for the provenance, depositional environment and tectonic setting of the Northern Belt of the Southern Uplands is presented. This turbiditic sandstone-dominated sequence was deposited in a sand-rich submarine fan environment, overlying sparse hemipelagic mudstones. The oldest sandstones are rich in juvenile ophiolitic material and record the first clastic input into the Southern Uplands basin. The bulk of the Northern Belt sedimentary sequence, however, is dominated by relatively quartzose sandstones derived from a Proterozoic continental/metamorphic source represented by the Midland Valley terrane of Scotland and Ireland. The quartzose-dominated succession was punctuated by the input of fresh volcanic detritus shed from an oceanic/continental island-arc situated to the W/NW of the Northern Belt basin, with sediment dispersal turning to the NE along the axis of the basin in Scotland. The tectonic setting of the Northern Belt basin remains uncertain. The complex provenance of the sandstones and recognition of major olistostrome units within the Northern Belt succession suggest that it was tectonically active. The onset of clastic deposition within the Southern Uplands terrane broadly corresponds to uplift and erosion of earlier obducted ophiolite in both Scotland and Ireland, possibly in response to collision of Cambrian–early Ordovician island-arc systems with the Laurentian continental margin. If this interpretation is correct, then the possibility arises that the Southern Uplands–Midland Valley terranes record the dismembering of this oceanic/continental island-arc complex within an overall transpressional regime.

Keywords

provenancesinistral strike-slipSouthern Uplandsstructure References
Type
Research Article
Information
Earth and Environmental Science Transactions of The Royal Society of Edinburgh , Volume 91 , Issue 3-4: The Southern Uplands Terrane: Tectonics and Biostratigraphy within the Caledonian Orogen , 2000 , pp. 421 - 434
Copyright
Copyright © Royal Society of Edinburgh 2000

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

Anderson, T. B. 1987. The onset and timing of Caledonian sinistral shear in County Down. Journal of the Geological Society of London 144, 817–25.CrossRefGoogle Scholar
Anderson, T.B. 2001. Structural interpretations of the Southern Uplands Terrane. Transactions of the Royal Society of Edinburgh: Earth Sciences 91 (for 2000), 363–73.CrossRefGoogle Scholar
Armstrong, H. A. 1997. Conodonts from the Ordovician Shinnel Formation, Southern Uplands, Scotland, Palaeontology 40, 763–97.Google Scholar
Armstrong, H. A., Owen, A. W., Scrutton, C. T., Clarkson, E. N. K. & Taylor, C. M. 1996. Evolution of the Northern Belt, Southern Uplands: implications for the Southern Uplands controversy. Journal of the Geological Society, London 153, 197205.CrossRefGoogle Scholar
Armstrong, H. A., Rushton, A. W. A., Owen, A. W. & Floyd, J. D. 1998. Biostratigraphy of the Currarie Formation on the northwestern edge of the Southern Uplands: implications for the cessation of basic volcanism. Scottish Journal of Geology 34, 119–25.CrossRefGoogle Scholar
Armstrong, H. A., Owen, A. W. & Floyd, J. D. 1999. Rare earth geochemistry of the Arenig cherts from the Ballantrae Ophiolite and Leadhills Imbricate Zone, Southern Scotland: implications for origin and significance to the Caledonian Orogeny. Journal of the Geological Society, London 156, 549–60.CrossRefGoogle Scholar
Armstrong, H. A. & Coe, A. L. 1997. Deep-sea sediments record the geophysiology of the late Ordovician glaciation. Journal of the Geological Society, London 154, 929–34.CrossRefGoogle Scholar
Armstrong, H. A. & Dean, M. T. 1996. Conodonts from Ruddenleys, Lamancha and Crawford, Southern Uplands, Scotland, British Geological Survey, Technical Report WH/96/192R.Google Scholar
Barnes, R. P., Lintern, B. C. & Stone, P. 1989. Short Paper: Timing and regional implications of deformation in the Southern Uplands of Scotland. Journal of the Geological Society, London 146, 905–8.CrossRefGoogle Scholar
Barnes, R. P., Phillips, E. R. & Boland, M. P. 1995. The Orlock Bridge Fault in the Southern Uplands of southwestern Scotland: a terrane boundary? Geological Magazine 132, 523–9.CrossRefGoogle Scholar
Barnes, R. P., Phillips, E. R. & Merriman, R. J. 1996. Allochthonous Ordovician basaltic rocks of possible island arc affinity in the Southern Uplands, SW Scotland. In Hibbard, J. P., van Staal, C. R. & Cawood, P. A. (eds) New Perspectives in the Appalachian-Caledonian Orogen, Geological Association of Canada, Special Paper 41.Google Scholar
Bluck, B. J. 1983. Role of the Midland Valley of Scotland in the Caledonian orogeny. Transactions of the Royal Society of Edinburgh: Earth Sciences 74, 119–36.CrossRefGoogle Scholar
Cameron, I. B., Stone, P. & Smellie, J. L. 1986. Geology of the country around Girvan. Explanation of 1:50,000 British Geological Survey Sheet 7, Scotland.Google Scholar
Clarkson, E. N. K., Harper, D. A. T., Owen, A. W. & Taylor, C. M. 1992. Ordovician faunas in mass-flow deposits, Southern Uplands. Terra Nova 4, 245–53.CrossRefGoogle Scholar
Clarkson, E. N. K., Harper, D. A. T., Owen, A. W. & Taylor, C. M. 1993. Biggar. In McAdam, A. D., Clarkson, E. N. K. & Stone, P. (eds) Scottish Borders Geology, an excursion guide, 180–91. Edinburgh: Scottish Academic Press.Google Scholar
Craig, L. E. 1984. Stratigraphy in an accretionary prism: the Ordovician rocks in the North Down, Ireland. Transactions of the Royal Society of Edinburgh: Earth Sciences 74, 183–91.CrossRefGoogle Scholar
Daly, J. S. 1996. Pre-Carboniferous history of the Annagh Gneiss Complex, North-western Ireland, and correlation with Laurentia-Baltica. Irish Journal of Earth Sciences 74, 518.Google Scholar
Danelian, T. & Clarkson, E. N. K. 1998. Ordovician radiolaria from bedded cherts of the Southern Uplands. Scottish Journal of Geology 34, 133–7.CrossRefGoogle Scholar
Danelian, T., Clarkson, E. N. K., Floyd, J. D. & Armstrong, H. A. 1999. Radiolarian and conodont biostratigraphy of Arenig–Llanvirn chert sequences in the Southern Uplands of Scotland, British Geological Survey, Technical Report. WA/99/65. Keyworth, Nottingham: British Geological Survey.Google Scholar
Davidek, K., Landing, E., Bowring, S. A., Westrop, S. R., Rushton, A. W. A., Fortey, R. A. & Adrain, J. M. 1998. New uppermost Cambrian U–Pb date from Avalonian Wales and age of the Cambrian–Ordovician boundary. Geological Magazine 135, 305309.CrossRefGoogle Scholar
Dempster, T. J. 1985. Uplift patterns and orogenic evolution in the Scottish Dalradian. Journal of the Geological Society, London 142, 111–28.CrossRefGoogle Scholar
Dewey, J. F., Holdsworth, R. E. & Strachan, R. A. 1998. Transpression and transtension zones. In Holdsworth, R. E., Strachan, R. A. & Dewey, J. F. (eds) Continental Transpressional and Transtensional Tectonics, Geological Society, London, Special Publication 135, 114.Google Scholar
Dewey, J. F. & Mange, M. 1999. Petrography of Ordovician and Silurian sediments in the western Irish Caledonides: tracers of a short-lived Ordovician continent-arc collision orogeny and the evolution of the Laurentian Appalachian-Caledonian margin. In MacNiocaill, C. & Ryan, P. D. (eds) Continental Tectonics, Geological Society, London, Special Publication 164, 55107.CrossRefGoogle Scholar
Duller, P. R. & Floyd, J. D. 1995. Turbidite geochemistry and provenance studies in the Southern Uplands of Scotland. Geological Magazine 132, 557–69.CrossRefGoogle Scholar
Elders, C. F. 1987. The provenance of granite boulders in conglomerates of the Northern and Central Belts of the Southern Uplands of Scotland. Journal of the Geological Society, London 144, 853–63.CrossRefGoogle Scholar
Evans, J. A., Stone, P. & Floyd, J. D. 1991. Isotopic characteristics of Ordovician greywacke provenance in the Southern Uplands of Scotland. In Morton, A. C, Todd, S. P. & Haughton, P. D. W. (eds) Developments in Sedimentary Provenance Studies, Geological Society, London, Special Publication 57, 161–72.Google Scholar
Floyd, J. D. 1994. The derivation and definition of the ‘Southern Upland Fault’: a review of the Midland Valley-Southern Upland terrane boundary. Scottish Journal of Geology 30, 5162.CrossRefGoogle Scholar
Floyd, J. D. 1996. Lithostratigraphy of the Ordovician rocks in the Southern Uplands: Crawford Group, Moffat Shale Group, Leadhills Supergroup. Transactions of the Royal Society of Edinburgh: Earth Sciences 86, 153–65.CrossRefGoogle Scholar
Floyd, J. D. 1999. Geology of the Carrick-Loch Doon district. Memoir of the British Geological Survey, 1:50,000 Geological Sheets 8W & 8E (Scotland).Google Scholar
Floyd, J. D. 2001. The Southern Uplands Terrane: a stratigraphical review. Transactions of the Royal Society of Edinburgh: Earth Sciences 91 (for 2000), 349–62.CrossRefGoogle Scholar
Floyd, J. D. & Rushton, A. W. A. 1993. Ashgill greywackes in the Southern Uplands of Scotland: an extension of the Ordovician succession in the Northern Belt. Transactions of the Royal Society of Edinburgh: Earth Sciences 84, 7985.CrossRefGoogle Scholar
Floyd, J. D. & Trench, A. 1989. Magnetic susceptibility contrasts in ordovician greywackes of the southern Uplands of Scotland. Journal of the Geological Society, London 146, 7783.CrossRefGoogle Scholar
Hepworth, B. C., Oliver, G. J. H. & McMurtry, M. J. 1982. Sedi-mentology, volcanism, structure and metamorphism of the northern margin of a Lower Palaeozoic accretionary complex; Bail Hill–Abington area of the Southern Uplands of Scotland. In Leggett, J. K. (ed.). Trench-fore-arc geology, Geological Society, London, Special Publication 10, 521–34.CrossRefGoogle Scholar
Hutchison, A. R. & Oliver, G. J. H. 1998. Garnet provenance studies, juxtaposition of Laurentian marginal terranes and timing of the Grampian Orogeny in Scotland. Journal of the Geological Society, London 155, 541–50.CrossRefGoogle Scholar
Hutton, D. H. W. 1987. Strike-slip terranes and a model for the evolution of the British and Irish Caledonides. Geological Magazine 124, 405–25.CrossRefGoogle Scholar
Hutton, D. H. W., Aftalion, M. & Halliday, A. N. 1985. An Ordovician ophiolite in County Tyrone, Ireland. Nature 315, 210–12.CrossRefGoogle Scholar
Hutton, D. H. W. & Dewey, J. F. 1986. Palaeozoic terrane accretion in the Western Irish Caledonides. Tectonics 5, 1115–24.CrossRefGoogle Scholar
Hutton, D. H. W. & Murphy, F. C. 1987. The Silurian of the Southern Uplands and Ireland as a successor basin to the end-Ordovician closure of Iapetus. Journal of the Geological Society, London 144, 765–72.CrossRefGoogle Scholar
Kelley, S. & Bluck, B. J. 1989. Detrital mica ages from the Southern Uplands using Ar–Ar laser probe. Journal of the Geological Society, London 146, 401–103.CrossRefGoogle Scholar
Kelley, S. & Bluck, B. J. 1990. Discussion on detrital mica ages from the Southern Uplands using Ar–Ar laser probe. Journal of the Geological Society, London 141, 882–4.Google Scholar
Kelling, G., Davis, P. & Holroyd, J. 1987. Style, scale and significance of sand bodies in the Northern and Central Belts, southwestern Southern Uplands. Journal of the Geological Society, London 144, 787805.CrossRefGoogle Scholar
Lambert, R. St. J., Holland, J. G. & Leggett, J. K. 1981. Petrology and tectonic setting of some Orodovican volcanic rocks from the Southern Uplands of Scotland. Journal of the Geological Society, London 136, 755–70.Google Scholar
Lapworth, C. 1870. On the Lower Silurian Rocks in the neighbourhood of Galashiels. Transactions of the Geological Society of Edinburgh 2, 46.CrossRefGoogle Scholar
Lapworth, C. 1878. The Moffat Series. Quarterly Journal of the Geological Society of London 43, 240346.CrossRefGoogle Scholar
Leggett, J. K. 1980. The sedimentological evolution of a Lower Palaeozoic accretionary fore-arc in the Southern Uplands of Scotland. Sedimentology 27, 401–17.CrossRefGoogle Scholar
Leggett, J. K. 1987. The Southern Uplands as an accretionary prism: the importance of analogues in reconstructing palaeogeography. Journal of the Geological Society, London 144, 737–52.CrossRefGoogle Scholar
Leggett, J. K., McKerrow, W. S. & Eales, M. H. 1979. The Southern Uplands of Scotland; a Lower Palaeozoic accretionary prism. Journal of the Geological Society, London 136, 755–70.CrossRefGoogle Scholar
Leggett, J. K., McKerrow, W. S. & Casey, D. M. 1982. The anatomy of a Lower Palaeozoic accretionary fore-arc: the Southern Upland of Scotland. In Leggett, J. K. (ed.) Trench-fore-arc geology, Geological Society, London, Special Publication 10, 495520.CrossRefGoogle Scholar
Longman, C. D., Bluck, B. J. & van Breeman, O. 1979. Ordovician conglomerates and the evolution of the Midland Valley, Nature 280, 578–81.CrossRefGoogle Scholar
McKerrow, W. S., Leggett, J. K. & Eales, M. H. 1977. Imbricate thrust model of the Southern Uplands of Scotland. Nature 267, 237–9.CrossRefGoogle Scholar
McKerrow, W. S., Lambert, R. St. J. & Cocks, L. R. M. 1985. The Ordovician, Silurian and Devonian periods. In Snelling, N. J. (ed.) The Chronology of the Geological Record, Geological Society, London, Memoir 10, 7380.CrossRefGoogle Scholar
Merriman, R. J. & Kemp, S. J. 1998. Metamorphism of the Lower Palaeozoic rocks of the New Cumnock district, Southern Scotland, 1:50K Sheet 15W. British Geological Survey, Technical Report. WG/98/9. Keyworth, Nottingham: British Geological Survey.Google Scholar
Merriman, R. J. & Roberts, B. 1990. Metabentonites in the Moffat Shale Group, Southern Uplands of Scotland: Geochemical evidence of ensialic marginal basin volcanism. Geological Magazine 127, 259–71.CrossRefGoogle Scholar
Merriman, R. J. & Roberts, B. 2001. Low-grade metamorphism in the Scottish Southern Uplands terrane: deciphering the patterns of accretionary burial, shearing and cryptic aureoles. Transactions of the Royal Society of Edinburgh: Earth Sciences 91 (for 2000), 521–37.CrossRefGoogle Scholar
Meschede, M. 1986. A method of discriminating between different types of mid-ocean ridge basalts and continental tholeiites with the Nb–Zr–Y diagram. Chemical Geology 56, 207–18.CrossRefGoogle Scholar
Morris, J. H. 1987. The Northern Belt of the Longford-Down, Ireland and Southern Uplands, Scotland: an Ordovician back-arc basin. Journal of the Geological Society, London 144, 773–86.CrossRefGoogle Scholar
Nicol, J. 1848. On the geology of the Silurian rocks in the Valley of the Tweed. Quarterly Journal of the Geological Society, London 4, 197.CrossRefGoogle Scholar
Ogawa, Y. 1998. Tectonostratigraphy of the Glen App area, Southern Uplands, Scotland: anatomy of an Ordovician accretionary prism. Journal of the Geological Society, London 155, 651–62.CrossRefGoogle Scholar
Owen, A. W., Harper, D. A. T. & Clarkson, E. N. K. 1996. The trilo-bites and brachiopods of the Wrae Limestone, an Ordovician conglomerate in the Southern Uplands. Scottish Journal of Geology 32, 133–49.CrossRefGoogle Scholar
Owen, A. W., Armstrong, H. A. & Floyd, J. D. 1999a. Rare earth element geochemistry of upper Ordovician cherts from the Southern Uplands of Scotland. Journal of the Geological Society, London 156, 191204.CrossRefGoogle Scholar
Owen, A. W., Armstrong, H. A. & Floyd, J. D. 1999b. Rare earth elements in chert clasts as provenance indicators in the Ordovician and Silurian of the Southern Uplands of Scotland. Sedimentary Geology 124, 185–95.CrossRefGoogle Scholar
Owen, A. W. & Clarkson, E. N. K. 1992. Trilobites from Kilbucho and Wallace's Cast and the location of the Northern Belt of the Southern Uplands during the late Ordovician. Scottish Journal of Geology 28, 317.CrossRefGoogle Scholar
Peach, B. N. & Horne, J. 1899. The Silurian rocks of Britain. Volume 1: Scotland, Memoirs of the Geological Survey of the United Kingdom. Glasgow: HMSO.Google Scholar
Pearce, J. A. 1983. Role of the sub-continental lithosphere in magma genesis at active continental margins. In Hawkesworth, C. J. & Norry, M. J. (eds) Continental basalts and mantle xenoliths Nantwich: Shiva, 230–49.Google Scholar
Pearce, J. A. & Cann, J. R. 1973. Tectonic setting of basic volcanic rocks determined using trace element analyses. Earth and Planetary Science Letters 19, 290300.CrossRefGoogle Scholar
Phillips, E. R., Barnes, R. P., Merriman, R. J. & Floyd, J. D. 1995a. The tectonic significance of Ordovician basaltic rocks in the Southern Uplands, SW Scotland, Geological Magazine 132, 549–56.CrossRefGoogle Scholar
Phillips, E. R., Barnes, R. P., Boland, M. P., Fortey, N. J. & McMillan, A. A. 1995b. The Moniaive Shear Zone: A major zone of sinistral strike-slip deformation in the Southern Uplands of Scotland. Scottish Journal of Geology 31, 139–49.CrossRefGoogle Scholar
Phillips, E. R., Smith, R. A. & Carroll, S. 1998. Strike-slip, terrane accretion and the pre-Carboniferous evolution of the Midland Valley of Scotland. Transactions of the Royal Society Edinburgh: Earth Sciences 88, 209–24.CrossRefGoogle Scholar
Phillips, E. R., Smith, R. A. & Floyd, J. D. 1999. The Bail Hill Volcanic Group: alkaline within-plate volcanism during Ordovician sedimentation in the Southern Uplands, Scotland. Transactions of the Royal Society Edinburgh: Earth Sciences 89, 233–47.CrossRefGoogle Scholar
Phillips, E. R. & Floyd, J. D. 1999. The mineralogy, petrology and provenance of lithic clasts from Ordovician and Silurian conglomerates from the Southern Uplands of Scotland, British Geological Survey, Technical Report, WG/99/5. Keyworth: Nottingham: British Geological Survey.Google Scholar
Rock, N. M. S., Gasgarth, J. W. & Rundle, C. C. 1986. Late Caledonian dyke-swarms in Southern Scotland: a regional zone of primitive K-rich lamprophyres and associated vents. Journal of Geology 94, 505–22.CrossRefGoogle Scholar
Rushton, A. W. A. 1995. Graptolites from the area north of Sanquhar, British Geological Survey, Technical Report. WH/95/203R. Keyworth: Nottingham: British Geological Survey.Google Scholar
Rushton, A. W. A. & Stone, P. 1991. Terriginous input to the Moffat Shale sequence, Southern Uplands. Scottish Journal of Geology 27, 167–9.CrossRefGoogle Scholar
Scrutton, C. T., Jeram, A. J. & Armstrong, H. A. 1998. Kilbucho-phyllid corals from the Ordovician (Caradoc) of Pomeroy, Co. Tyrone: implications for coral phylogeny and for movement on the Southern Uplands Fault. Transactions of the Royal Society of Edinburgh: Earth Sciences 88, 117–26.CrossRefGoogle Scholar
Scrutton, C. T. & Clarkson, E. N. K. 1991. A new Scleractinian-like coral from the Ordovician of the Southern Uplands, Scotland. Palaeontology 34, 179–94.Google Scholar
Smith, R. A. 1995. The Siluro-Devonian evolution of the southern Midland Valley of Scotland. Geological Magazine 132, 503–13.CrossRefGoogle Scholar
Smith, R. A. 1999. Geology of the New Cumnock district. Description of 1:50 000 geological sheet 15W (Scotland). Keyworth and Edinburgh: British Geological Survey.Google Scholar
Stone, P., Floyd, J. D., Barnes, R. P. & Lintern, B. C. 1987. A sequential back-arc and foreland basin thrust duplex model for the Southern Uplands of Scotland. Journal of the Geological Society, London 144, 753–64.CrossRefGoogle Scholar
Stone, P., Green, P. M., Lintern, B. C, Plant, J. A., Simpson, P. R. & Breward, N. 1991. Geochemistry characterises provenance in southern Scotland. Geology Today 7, 177–80.CrossRefGoogle Scholar
Stone, P., Plant, J. A., Mendum, J. R. & Green, P. M. 1999. A regional geochemical assessment of some terrane relationships in the British Caledonides. Scottish Journal of Geology 35, 145–56.CrossRefGoogle Scholar
Stone, P. & Evans, J. A. 1995. Nd-study of provenance patterns across the Iapetus Suture. Geological Magazine 132, 571–80.CrossRefGoogle Scholar
Styles, M. T., Stone, P. & Floyd, J. D. 1989. Short paper: arc detrius in the Southern Uplands: mineralogical characterisation of a ‘missing’ terrane. Journal of the Geological Society, London 146, 397400.CrossRefGoogle Scholar
Styles, M. T., Perez-Alverez, M. & Floyd, J. D. 1995. Pyroxenous grey-wackes in the Southern Uplands of Scotland and their petrotec-tonic implications. Geological Magazine 132, 539–47.CrossRefGoogle Scholar
Taira, A., Okada, H., Whitaker, J. H. McD. & Smith, A. J. 1982. The Shimanto Belt of Japan: Cretaceous-Lower Miocene active-margin sedimentation. In Leggett, J. K. (ed.) Trench-Forearc geology, Geological Society, London, Special Publication 10, 526.CrossRefGoogle Scholar
Thirlwall, M. F. 1981. Peralkaline rhyolites from the Ordovician Tweeddale lavas, Peebleshire, Scotland. Geological Journal 16, 41–4.CrossRefGoogle Scholar
Walker, R. G. 1978. Deep water sandstone facies and ancient submarine fans: models for exploration for stratigraphic traps. The American Association of Petroleum Geologists Bulletin 62, 932–66.Google Scholar