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The Iapetus suture in the British Isles

Published online by Cambridge University Press:  01 May 2009

W. S. McKerrow  and
N. J. Soper
W. S. McKerrow
Affiliation:
Department of Earth Sciences, Parks Road, Oxford OX1 3PR, U.K.
N. J. Soper
Affiliation:
Department of Geology, Mappin Street, Sheffield S1 3JD, U.K.
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Abstract

The position of the Iapetus Ocean suture can be traced between Ordovician fossil localities in the Southern Uplands and the Lake District which contain, respectively, distinct North American and European faunas. The Southern Uplands contains North American Caradoc faunas in the Northern Belt, and is considered to have been accreted onto the Laurentian (North American) margin between the Llandeilo and the end of the Wenlock. Deep seismic reflection profiling shows that a surface, probably parallel to the suture zone, dips down to the northwest from the Solway Line. In eastern Ireland, the surface trace of the suture coincides with the Navan Fault, which separates the Longford-Down massif from Ordovician sediments containing European faunas. The Navan–Silvermines Fault may represent the surface expression of the suture, but it is masked by Wenlock turbidites, which appear to have crossed over the plate boundary. Northward subduction of continental crust below the margin of Laurentia during the late Silurian may explain the influx of turbidite fans from the north or north west onto depressed crust to the south of the suture. Termination of subduction coincides with the widespread Acadian Orogeny in the Emsian (at 395±5 Ma).

Type
Articles
Information
Geological Magazine , Volume 126 , Issue 1 , January 1989 , pp. 1 - 8
Copyright
Copyright © Cambridge University Press 1989

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References

Allen, P. M. 1987. The Solway Line is not the Iapetus suture. Geological Magazine 124, 485–6.CrossRefGoogle Scholar
Arthurton, R. S. & Wadge, A. J. 1981. Geology of the country around Penrith. Memoir of the Geological Survey of Great Britain, 177 pp.Google Scholar
Barnes, R. P., Rock, N. M. E. & Gaskarth, J. W. 1986. Late Caledonian dyke swarms in Southern Scotland: new field, petrological and geochemical data for the Wigtown Peninsula, Galloway. Geological Journal 21, 101–25.Google Scholar
Beamish, D. & Smythe, D. K. 1986. Geophysical images of the deep crust: the Iapetus suture. Journal of the Geological Society of London 143, 489–97.CrossRefGoogle 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
Bluck, B. J. 1985. The Scottish paratectonic Caledonides. Scottish Journal of Geology 12, 437–64.Google Scholar
Boulter, C. A. & Soper, N. J. 1973. Structural relations of the Shap Granite. Proceedings of the Yorkshire Geological Society 39, 365–9.Google Scholar
Brenchley, P. J., Harper, J. C., Romano, M. & Skevington, D. 1967. New Ordovician faunas from Grangegeeth, Co. Meath. Proceedings of the Royal Irish Academy 65, 297304.Google Scholar
Brenchley, P. J., Harper, J. C., Mitchell, W. I. & Romano, M. 1977. A re-appraisal of some Ordovician successions in eastern Ireland. Proceedings of the Royal Irish Academy B77, 6585.Google Scholar
Brewer, J. A., Matthews, D. H., Warner, M. R., Hall, J., Smythe, D. K. & Whittington, R. J. 1983. BIRPS deep seismic reflection studies of the British Caledonides Nature 305, 206–10.Google Scholar
Briden, J. C., Kent, D., Lapointe, P., Livermore, R. A., Roy, J., Seguin, M. K., Smith, A. G., Van der Voo, R. & Watts, D. R. 1988. Palaeomagnetic constraints on the evolution of the Caledonide–Appalachian orogen. In The Caledonian–Appalachian Orogen, (ed. Harris, A. L., Fettes, D. J.). Geological Society of London, Special Publication 38, 3548.Google Scholar
Clarkson, E. N. K. & Tripp, R. P. 1982. The Ordovician trilobite Calyptaulax brongniartii (Portlock). Transactions of the Royal Society of Edinburgh: Earth Sciences 72, 287–94.Google Scholar
Cocks, L. R. M. & Fortey, R. A. 1982. Faunal evidence for oceanic separations in the Palaeozoic of Britain. Journal of the Geological Society of London 139, 465–78.CrossRefGoogle Scholar
Dean, W. T. 1959. The stratigraphy of the Caradoc Series in the Cross Fell Inlier. Proceedings of the Yorkshire Geological Society 32, 185228.CrossRefGoogle Scholar
Dean, W. T. 1962. The trilobites of the Caradoc Series in the Cross Fell Inlier of northern England. Bulletin of the British Museum (Natural History), Geology 7, 65134.Google Scholar
Dewey, J. F. 1969. Evolution of the Appalachian–Caledonian orogen. Nature 241, 124–9.Google Scholar
Dineley, D. L. & Loeffler, E. J. 1979. Early vertebrates and the Caledonian earth movements. (ed. Harris, A. L., Holland, C. H., Leake, B. E.). In The Caledonides of the British Isles – Reviewed, pp. 411–14. Geological Society of London Special Publication 8.Google 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
Fortey, R. A. & Cocks, L. R. M. 1986. Marginal faunal belts and their structural implications, with examples from the Lower Palaeozoic. Journal of the Geological Society of London 143, 151–60.Google Scholar
George, T. N. 1963. Palaeozoic growth of the British Caledonides. In The British Caledonides. (ed. Johnson, M. R. W., Stewart, F. H.). pp. 133. Edinburgh: Oliver & Boyd.Google Scholar
Hall, J., Powell, D. W., Warner, M. R., El-Isa, Z. M. H., Adesanya, O. & Bluck, B. J. 1983. Seismological evidence for shallow crystalline basement in the Southern Uplands of Scotland. Nature 305, 418–20.CrossRefGoogle Scholar
Harper, D. A. T. 1984. Brachiopods from the Upper Ardmillan succession (Ordovician) of the Girvan district, Scotland. Part 1. Palaeontographical Society Monograph, 78 pp.Google Scholar
Harper, D. A. T., Mitchell, W. I., Owen, A. W. & Romano, M. 1985. Upper Ordovician brachiopods and trilobites from the Clashford House Formation near Herbertstown, Co. Meath, Ireland. Bulletin of the British Museum (Natural History), Geology 38, 287308.Google Scholar
Heirtzler, J. R. & le Pichon, X. 1965. Crustal structure of the mid-ocean ridges, Part. 3: magnetic anamolies over the Mid-Atlantic ridge. Journal of Geophysical Research 70, 4013–33.Google Scholar
Holland, C. H. 1981. Cambrian and Ordovician of the Paratectonic Caledonides. In A Geology of Ireland (ed. Holland, C. H.). pp. 4164. Edinburgh: Scottish Academic Press.Google 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.Google Scholar
Hutton, D. H. W., Aftalion, M. & Halliday, A. N. 1985. An Ordovician ophiolite in County Tyrone, Ireland. Nature 315, 210–2.Google 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 of London 144, 765–72.CrossRefGoogle Scholar
Ingham, J. K. & McNamara, K. J. 1978. The Coniston Limestone Group. In The Geology of the Lake District (ed. Moseley, F.). Yorkshire Geological Society, Occasional Publication 3, 121–9.Google Scholar
Jones, O. T. 1956. The geological evolution of Wales and adjacent regions. Quarterly Journal of the Geological Society of London 111, 323–51.Google Scholar
Kemp, A. E. S. 1986. Tectonostratigraphy of the Southern Belt of the Southern Uplands. Scottish Journal of Geology 22, 241–56.Google Scholar
Kemp, A. E. S. 1987 a. Sedimentological evolution of the Southern Uplands during Silurian time. In Deep Marine Clastic Sedimentology: Models and Case Histories (ed. Leggett, J. K., Zuffa, G. G.). London: Graham & Trotman.Google Scholar
Kemp, A. E. S. 1987 b. Tectonic development of the Southern Belt of the Southern Uplands accretionary complex. Journal of the Geological Society of London 144, 827–38.Google Scholar
Klemperer, S. L. & Matthews, D. H. 1987. Iapetus suture located beneath the North Sea by BIRPS deep seismic reflection profiling. Geology 15, 195–8.Google Scholar
Kokelaar, B. P., Howells, M. F., Bevins, R. E., Roach, R. A. & Dunkley, P. N. 1984. The Ordovician marginal basin of Wales. In Marginal Basin Geology (ed. Kikelaar, B. P., Howells, M. F.). pp. 245–69. Special Publication of the Geological Society, London, 16.Google Scholar
Lambert, R. St. J., Holland, R. G. & Leggett, J. K. 1981. Petrology and tectonic setting of some Ordovician volcanic rocks from the Southern Uplands of Scotland. Journal of the Geological Society of London 138, 421–36.Google Scholar
Leggett, J. K. 1987. The Southern Uplands as an accretionary prism: the importance of analogues in reconstructing palaeogeography. Journal of the Geological Society of London 144, 737–52.Google Scholar
Leggett, J. K., McKerrow, W. S., Morris, J. H., Oliver, G. J. H. & Phillips, W. A. E. 1979. The northwestern margin of the Iapetus Ocean. In The Caledonides of the British Isles – Reviewed. (ed. Harris, A. L., Holland, C. H., Leake, B. E.). pp. 499511. Geological Society of London Special Publication 8.Google Scholar
Leggett, J. K., McKerrow, W. S. & Soper, N. J. 1983. A model for the crustal evolution of southern Scotland. Tectonics 2, 187210.Google Scholar
Macdonald, R., Thorpe, R. S., Gaskarth, J. W. & Grindrod, A. R. 1985. Multi-component origin of Caledonian lamprophyres of northern England. Mineralogical Magazine 49, 485–94.Google Scholar
McKenzie, D. P. & Parker, R. L. 1967. The North Pacific, an example of tectonics on a sphere. Nature 216, 116–20.Google Scholar
McKerrow, W. S. 1962. The chronology of Caledonian folding in the British Isles. Proceedings of the National Academy of Sciences of the USA 48, 1905–13.Google Scholar
McKerrow, W. S. 1987. The Southern Uplands Controversy. Journal of the Geological Society of London 144, 735–6.Google Scholar
McKerrow, W. S. 1988 a. Wenlock to Givetian deformation in the British Isles and Canadian Appalachians. In The Caledonian–Appalachian Orogen. (ed. Harris, A. L., Fettes, D. J.). Geological Society of London, Special Publication, 38, 437–48.Google Scholar
McKerrow, W. S. 1988 b. The development of the Iapetus Ocean from the Arenig to the Wenlock. In The Caledonian–Appalachian Orogen. (ed. Harris, A. L., Fettes, D. J.). Geological Society of London, Special Publication, 38, 405–12.Google Scholar
McKerrow, W. S. & Cocks, L. R. M. 1976. Progressive faunal migration across the Iapetus Ocean. Nature 263, 304–6.Google Scholar
McKerrow, W. S. & Cocks, L. R. M. 1986. Oceans, island arcs and olistostromes: the use of fossils in distinguishing sutures, terranes and environments around the Iapetus Ocean. Journal of the Geological Society of London 143, 185–91.CrossRefGoogle Scholar
McKerrow, W. S., LambertR, St. J. R, St. J. & Cocks, L. R. M. 1985. The Ordovician, Silurian and Devonian periods. In The Chronology of the Geological Record, (ed. Snelling, N. J.). pp. 7380. Geological Society of London, Memoir 10.Google Scholar
McKerrow, W. S., Leggett, J. K. & Eales, M. 1977. Imbricate thrust model of the Southern Uplands of Scotland. Nature 267, 237–39.Google Scholar
Mitchell, W. I. 1977. The Ordovician Brachiopoda from Pomeroy, Co. Tyrone. Palaeontographical Society Monograph, 138 pp.Google Scholar
Morgan, W. J. 1968. Rises, trenches, great faults and plate motions. Journal of Geophysical Research 73, 1959–82.Google Scholar
Murphy, F. C. 1987. Late Caledonian granitoids and timing of deformation in the Iapetus suture zone of eastern Ireland. Geological Magazine 124, 135–42.CrossRefGoogle Scholar
Murphy, F. C. & Hutton, D. H. W. 1986. Is the Southern Uplands of Scotland really an accretionary prism? Geology 14, 354–7.Google Scholar
Oliver, G. J. H. & McKerrow, W. S. 1984. Seismological evidence for shallow crystalline basement in Southern Uplands, Scotland. Nature 309, 8990.CrossRefGoogle Scholar
Pankhurst, R. J. 1982. Geochronological tables for British igneous rocks. In Igneous Rocks in the British Isles (ed. Sutherland, D. S.). pp. 575–81. Chichester: Wiley.Google Scholar
Paul, C. R. C. 1976. Palaeogeography of primitive echionoderms in the Ordovician. In The Ordovician System (ed. Bassett, M. G.). pp. 533–74. University of Wales Press and National Museum of Wales, Cardiff.Google Scholar
Peach, B. N. & Horne, J. 1899. The Silurian Rocks of Britain, vol. l., Scotland. Memoir of the Geological Survey, UK, 749 pp.Google Scholar
Phillips, W. E. A. & Holland, C. H. 1981. Late Caledonian deformation. In A Geology of Ireland (ed. Holland, C. H.). pp. 107–19. Edinburgh: Scottish Academic Press.Google Scholar
Phillips, W. E. A., Stillman, C. J. & Murphy, T. 1976. A Caledonian plate tectonic model. Journal of the Geological Society of London 132, 579609.Google Scholar
Rickards, R. B. 1978. Silurian. In The Geology of the Lake District (ed. Moseley, F.). pp. 130–45. Yorkshire Geological Society, Occasional Publication 3.Google Scholar
Rock, N. M. S., Gaskarth, J. W. & Rundle, C. C. 1985. Late Caledonian dyke-swarms in Southern Scotland: a regional zone of primitive K-rich lamprophyres and associated vents. Journal of Geology 94, 505–22.Google Scholar
Rodgers, J. 1968. The eastern edge of the North American continent during the Cambrian and Early Ordovician. In Studies in Appalachian Geology: Northern and Maritime, (ed. E-an, Zen, White, W. S., Hadley, J. B., Thomson, J. B.). pp. 141–9. New York: Wiley-Interscience.Google Scholar
Ross, R. J. & Ingham, J. K. 1970. Distribution of the Toquima-Table Head (Middle Ordovician Whiterock) faunal realm in the Northern Hemisphere. Geological Society of America Bulletin 81, 393408.Google Scholar
Schallreuter, R. E. L. & Siveter, D. J. 1985. Ostracodes across the Iapetus Ocean. Palaeontology 28, 577–98.Google Scholar
Soper, N. J. 1986. The Newer Granite problem: a geotectonic view. Geological Magazine 123, 227–36.Google Scholar
Soper, N. J. & Hutton, D. H. W. 1984. Late Caledonian sinistral displacements in Britain: implications for a three plate collision model. Tectonics 3, 781–94.Google Scholar
Soper, N. J. & Roberts, D. E. 1971. Age of cleavage in the Skiddaw Slates in relation to the Skiddaw aureole. Geological Magazine 108, 293302.Google Scholar
Soper, N. J., WebbB, C. B, C. & Woodcock, N. H. 1987. Late Caledonian (Acadian) transpression in north-west England: timing geometry and geotectonic significance. Proceedings of the Yorkshire Geological Society 46, 175–92.Google Scholar
Stille, H. 1924. Grundfragen der verleichenden Tektonik. Berlin: Borntraeger, 447 pp.Google Scholar
Stone, P. 1984. Constraints for genetic models for the Ballantrae complex. SW Scotland. Transactions of the Royal Society of Edinburgh: Earth Sciences 75, 189–91.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 of London 144, 753–64.Google Scholar
Stubblefield, C. J. 1950. A new komaspid genus of wide distribution in early Ordovician times. Annals and Magazine of Natural History (12) 3, 341–52.CrossRefGoogle Scholar
Taylor, P. D. & Cope, J. C. W. 1987. A treptostome bryozoan from the Lower Arenig of south Wales: implications of the oldest described bryozoan. Geological Magazine 124, 367–71.Google Scholar
Taylor, P. D. & Curry, G. B. 1985. The earliest known fenestrate bryozoan, with a short review of Lower Ordovician Bryozoa. Palaeontology 28, 147–58.Google Scholar
Thirlwall, M. F. 1981. Implications for Caledonian plate tectonic models of chemical data from volcanic rocks of the British Old Red Sandstone. Journal of the Geological Society of London 138, 123–38.Google Scholar
Thirlwall, M. F. 1983. Isotope geochemistry and origin of calkalkaline lavas from Caledonian continental margin volcanic arc. Journal of Volcanological and Geothermal Research 18, 589631.Google Scholar
Thirlwall, M. F. in press. Geochronology of Old Red Sandstone magmatism in Northern Britain. Journal of the Geological Society of London 145.Google Scholar
Thompson, R. N. & Fowler, M. B. 1986. Subduction-related shoshonitic and ultrapotassic magmatism: a study of Siluro-Devonian syenites from the Scottish Caledonides. Contributions to Mineralogy and Petrology 94, 507–22.Google Scholar
Upton, B. G. J., Aspen, P. & Chapman, N. A. 1983. The upper mantle and deep crust beneath the British Isles: evidence from inclusions in volcanic rocks. Journal of the Geological Society of London 140, 105–21.Google Scholar
Vine, F. J. & Matthews, D. H. 1963. Magnetic anomalies over oceanic ridges. Nature 199, 947–9.Google Scholar
Wadge, A. J., Gale, N. H., Beckinsale, R. D. & Rundle, C. C. 1978. A Rb-Sr isochron for the Shap Granite. Proceedings of the Yorkshire Geological Society 42, 297305.Google Scholar
Weir, J. A. 1962. Geology of the Lower Palaeozoic inliers of Slieve Bernagh and the Cratloe Hills, Co. Clare. Scientific Proceedings of the Royal Dublin Society A1, 233–63.Google Scholar
Whittington, H. B. & Hughes, C. P. 1973. Ordovician trilobite distribution and geography. In Organisms and Continents through time. (ed. Hughes, N. F.). pp. 235–40. Special Paper in Palaeontology. 12.Google Scholar
Williams, A. 1962. The Barr and Lower Ardmillan Series (Caradoc) of the Girvan district, south-west Ayrshire, with descriptions of the Brachiopoda. Geological Society of London, Memoir 3, 267 pp.Google Scholar
Williams, A. 1976. Plate tectonics and biofacies evolution as factors in Ordovician correlation. In The Ordovician System (ed. Bassett, M. G.). pp. 2966. University of Wales Press and National Museum of Wales, Cardiff.Google Scholar
Williams, A. & Curry, G. B. 1985. Lower Ordovician Brachiopoda from the Tourmakeady Limestone, Co. Mayo. Ireland. Bulletin of the British Museum (Natural History) Geology 38, 183269.Google Scholar
Wilson, J. T. 1966. Did the Atlantic close and then reopen? Nature 211, 676–81.Google Scholar
Wright, A. D. 1968. The westward extension of the Upper Ashgillian Hirnantia fauna. Lethaia 1, 352–67.Google Scholar
Wright, A. D. 1970. The stratigraphic distribution of the Ordovician inarticulate brachiopod Orthisocrania divaricata (M'Coy) in the British Isles. Geological Magazine 107, 97103.CrossRefGoogle Scholar
Ziegler, A. M., Barrett, S. F. & Scotese, C. R. 1981. Palaeoclimate, sedimentation and continental accretion. Philosophical Transactions of the Royal Society of London, A, 301, 253–64.Google Scholar