Hostname: page-component-78c5997874-v9fdk Total loading time: 0 Render date: 2024-11-05T16:56:14.945Z Has data issue: false hasContentIssue false
  • English
  • Français

Silurian and late Ordovician K-bentonites as a record of late Caledonian volcanism in the British Isles

Published online by Cambridge University Press:  03 November 2011

N. J. Fortey ,
R. J. Merriman  and
W. D. Huff
N. J. Fortey
Affiliation:
British Geological Survey, Keyworth, Nottingham, NG12 5GG, UK
R. J. Merriman
Affiliation:
British Geological Survey, Keyworth, Nottingham, NG12 5GG, UK
W. D. Huff
Affiliation:
Department of Geology, University of Cincinnati, Ohio, USA
Get access Rights & Permissions [Opens in a new window]

Abstract

Silurian and late Ordovician K-bentonites of the British Isles provide a record of prolonged volcanism during the convergence of terranes associated with closure of the Iapetus and Tornquist Oceans. In the Southern Uplands–Longford-Down and Midland Valley terranes, they range from late Caradoc to Telychian, withfurther early Homerian occurrences. South of the Iapetus suture, in Eastern Avalonia, the range is Hirnantianto early Ludlow in northern England and early Telychian to earliest Ludfordian in the Welsh Borderland and English Midlands. In both cases, the distributions indicate that volcanism was more long-lived and probably more extensive than is depicted in current plate tectonic reconstructions. Average intervals between K-bentonites are estimated, based on Harland et al. (1990), as: c. 65000 years at Dob's Linn (late Aeronian to early Telychian); c. 39000 years in the Cautley area (Telychian); c. 51000 years in a borehole at Walsall (late Llandovery to Sheinwoodian). Trace element geochemistry suggests mostly subalkaline dacitic to rhyolitic magmas in which LILE-enrichment accompanies variable enrichment in crustally derived elements (Ta, Nb). The geochemistry suggests comparison with continental arc volcanism of ‘withinplate, attenuated lithosphere’ character. Ta–Nb enrichment and an absence of Eu anomalies from REE profiles are consistently present northof the Iapetus suture, but trace element patterns are less consistent south of the suture where negative Eu anomalies are generally present. Discriminant function analysis successfully distinguishes Llandovery, Wenlockand Ludlow K-bentonites from south of the Iapetus suture, and Llandovery K-bentonites from north and south ofthe suture. Those from north of the Iapetus suture probably originated in volcanism along the southern marginof Laurentia before final closure of the Iapetus Ocean. Those from south of the suture may have been derived from volcanism associated with late destruction of Iapetus and Tornquist oceanic crust, although an alternative involving volcanism at the southern margin of Eastern Avalonia or Baltica may accord better with the distribution of K-bentonites and the geographical trend of the fragmentary outcrops of Silurian volcanic rocks from southern Ireland to Belgium.

Keywords

K-bentonitesVolcanismSouthern Uplands-Longford Down terraneMidland Valley terraneIapetus Ocean
Type
Research Article
Information
Earth and Environmental Science Transactions of The Royal Society of Edinburgh , Volume 86 , Issue 3 , 1995 , pp. 167 - 180
Copyright
Copyright © Royal Society of Edinburgh 1995

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

Allen, P. M., Cooper, D. C. & Fortey, N. J. 1987. Composite lava flows of Ordovician age in the English Lake District. J GEOL SOC, LONDON 144, 945–60.CrossRefGoogle Scholar
Altaner, S. P., Hower, J., Whitney, G. & Aronson, J. L. 1984. Model for bentonite formation: Evidence from zoned K-bentonites in the disturbed belt, Montana. GEOLOGY 12, 412–15.2.0.CO;2>CrossRefGoogle Scholar
André, L., Hertogen, J. & Deutsch, S. 1986. Ordovician-Silurian magmatic provinces in Belgium and the Caledonian orogeny in middle Europe. GEOLOGY 14, 879–82.2.0.CO;2>CrossRefGoogle Scholar
André, L., Herbosch, A., Vanguestaine, M. & Verniers, J. 1991 Guidebook to the excursion on the stratigraphyand magmatic rocks of the Brabant massif, Belgium. ANN SOC GEOL BELGIQUE 114, 283323.Google Scholar
Ball, T. K. & Merriman, R. J. 1989. The petrology and geochemistry of the Ordovician Llewelyn Volcanic Group, Snowdonia, North Wales. BR GEOL SURV RES REP SG/89/1.Google Scholar
Bassett, M. G., Cocks, L. R. M., Holland, C. H., Rickards, R. B. & Warren, P. T. 1975. The type Wenlock series. INST GEOL SCI REP 75/13.Google Scholar
Batchelor, R. A. & Clarkson, E. N. K. 1993. Geochemistry of a Silurian metabentonite and associated apatite from the North Esk Inlier, Pentland Hills. SCOTT J GEOL 29, 123–30.CrossRefGoogle Scholar
Batchelor, R. A. & Jeppson, L. 1994. Late Llandovery bentonites from Gotland, Sweden, as chemostratigraphic markers. GEOL J GEOL SOC, LONDON 151, 741–6.CrossRefGoogle Scholar
Batchelor, R. A. & Weir, J. A. 1988. Metabentonite geochemistry: magmatic cycles and graptolite extinctions at Dob's Linn, southern Scotland. TRANS R SOC EDINBURGH: EARTH SCI 79, 1941.CrossRefGoogle Scholar
Batchelor, R. A., Weir, J. A. & Spjeldnaes, N. Geochemistry of Telychian metabentonites from Vik, Ringerike District, Oslo Region. NORSK GEOL TIDSSKRIFT (in press).Google Scholar
Bergström, S. M., Huff, W. D, Kolata, D. R. & Kaljo, D. 1992. Silurian K-bentonites in the Iapetus region: a preliminary eventstratigraphic and tectonomagmatic assessment. GEOL FOREN STOCKHOLM FORH 114, 327–34.CrossRefGoogle Scholar
Bluck, B. J. 1983. Role of the Midland Valley of Scotland in the Caledonian orogeny. TRANS R SOC EDINBURGH: EARTH SCI 74, 119–36.CrossRefGoogle Scholar
Boucot, A. J., Dewey, J. F., Dineley, D. L., Fletcher, R., Fyson, W. K., Griffin, J. G., Hickox, C. F, McKerrow, W. S. & Ziegler, A. M. 1974. Geology of the Arisaig area, Antigonish County, Nova Scotia. GEOL SOC AM SPEC PAP 139, 1191.Google Scholar
Brusewitz, A. M. 1986. Chemical and physical properties of Palaeozoic potassium bentonites from Kinnekulle, Sweden. CLAYS CLAY MINER 34, 442–54.CrossRefGoogle Scholar
Butler, A. J. 1937. On Silurian and Cambrian rocks encountered in a deep boring at Walsall, South Staffordshire. GEOL MAG 74, 240–57.CrossRefGoogle Scholar
Caballero, E., Reyes, E., Delgado, A., Huertas, F. & Linares, J. 1992. The formation of bentonite: mass balance effects. APPL CLAY SCI 6, 265-76.CrossRefGoogle Scholar
Cameron, T. D. J. & Anderson, T. B. 1980. Silurian metabentonites in County Down, Northern Ireland. GEOL J 15, 5975.CrossRefGoogle Scholar
Cocks, L. R. M., Holland, C. H. & Rickards, R. B. 1992. A revised correlation of Silurian rocks in the British Isles. GEOL SOC, LONDON, SPEC REP 21.Google Scholar
Colman-Sadd, S. P., Stone, P., Swinden, H. S. & Barnes, R. P. 1992. Parallel geological development in the Dunnage Zone of Newfoundland and the Lower Palaeozoic terranes of southern Scotland: an assessment. TRANS R SOCEDINBURGH: EARTH SCI 83, 571–94.CrossRefGoogle Scholar
Cope, J. C. W., Ingham, J. K. & Rawson, P. F. 1992. Atlas of palaeogeography and lithofacies. GEOL SOC, LONDON, MEM 13, 153p.Google Scholar
Doran, R. J. P. 1974. The Silurian rocks of the southern part of the Slieve Phelim inlier, Co. Tipperary. PROC R IRISH ACAD 74B, 193202.Google Scholar
Fitton, R. G. & Hughes, D. J. 1970. Volcanism and plate tectonics. EARTH PLANET SCI LETT 8, 223–28.CrossRefGoogle Scholar
Fisher, R. V. & Schmincke, H.-U. 1984. Pyroclastic rocks. Berlin: Springer-Verlag.CrossRefGoogle Scholar
Fordham, B. G. 1992. Chronometric calibration of mid-Ordovician to Tournasian conodontzones: a compilation from recent graphiccorrelation and isotope studies. GEOL MAG 129, 709–21.CrossRefGoogle Scholar
Hagemann, F. 1966. Silurian bentonites in the Oslo region. NORGES GEOL UNDERS 242, 4661.Google Scholar
Harland, W. B., Armstrong, R. L., Cox, A. V., Craig, L. E., Smith, A. G. & Smith, D. G. 1990. A geologic timescale 1989. Cambridge: Cambridge University Press.Google Scholar
Harrison, W. B. III, 1991. Middle Silurian ash beds from the Michigan Basin. GEOL SOC AM ABSTR PROGRAMS 23, 17.Google Scholar
Hay, R. L., Lee, M, Kolata, D. R., Matthews, J. C. & Morton, J. P. 1988. Episodic potassic diagenesis of Ordovician tuffs in the Mississippi Valley area. GEOLOGY 16, 743–7.2.3.CO;2>CrossRefGoogle Scholar
Hodder, A. P. W., Green, B. E., & Lowe, D. J. 1990. A two-stage model for the formation of clay minerals from tephra-derived volcanic glass. CLAY MINER 25, 313–27.CrossRefGoogle Scholar
Holland, C. H. 1969. The Irish counterpart of the Silurian of Newfoundland. AM ASSOC PET GEOL MEM 12, 298308.Google Scholar
Holland, C. H. 1988. The fossiliferous rocks of the Dunquin Inlier, Dingle Peninsula, County Kerry, Ireland. TRANS R SOC EDINBURGH: EARTH SCI 79, 347–60.CrossRefGoogle Scholar
Howells, M. F., Reedman, A. J. & Campbell, S. D. G. 1991. Ordovician (Caradoc) marginal basin volcanism in Snowdonia (north-west Wales). London: British Geological Survey, HMSO.Google Scholar
Huff, W. D. & Kolata, D. R. 1989. Correlation of K-bentonite beds by chemical fingerprinting using multivariate statistics. In Cross, T. A. (ed.) Quantitative dynamicstratigraphy, 567–77, New York: Prentice Hall.Google Scholar
Huff, W. D. & Morgan, D. J. 1990. Stratigraphy, mineralogy and tectonic setting of Silurian K-bentonites in southern England and Wales. In Farmer, V. C. & Tardy, Y. (eds) Proceedings of the IX International Clay Conference, Strasbourg. SCI GEOL, MEM 88, 3342.Google Scholar
Huff, W. D., Anderson, T. B., Rundle, C. C. & Odin, G. S. 1991. Chemostratigraphy, K-Ar ages and illitizationof Silurian K-bentonites from the Central Belt of the Southern Uplands-Down-Longford terrane, British Isles. J GEOL SOC, LONDON 148, 861–8.CrossRefGoogle Scholar
Hughes, R. A. 1995. The duration of Silurian graptolite zones. GEOL MAG 132, 113–5.CrossRefGoogle Scholar
Hurst, J. M., Hancock, N. J. & McKerrow, W. S. 1978. Wenlock stratigraphy and palaeogeography of Wales and the Welsh Borderland. PROC GEOL ASSOC 89, 197226.CrossRefGoogle Scholar
Ingham, J. K., McNamara, K. J. & Rickards, R. B. 1978. The Upper Ordovician and Silurian rocks. In Moseley, F. (ed.) The geology of the Lake District. YORKSHIRE GEOL SOC OCCAS PUBL 3, 121–45.Google Scholar
Jackson, A. A. 1978. Stratigraphy, sedimentology and palaeontology of the Silurian rocks of the Galty Mountain area. PROC R IRISH ACAD 78B, 91112.Google Scholar
King, L. M. 1992. A basin study of the Early Palaeozoic Windermere Group, Northwest England. Unpublished PhD thesis, University of Cambridge.Google Scholar
Kneller, B. C. 1990. The Wenlock rocks of Sheet 38 (Ambleside). British Geological Survey Onshore Geology Series, Technical Report WA/90/64.Google Scholar
Kneller, B. C, King, L. M. & Bell, A. M. 1993. Foreland basin development and tectonism on the northwestern margin of eastern Avalonia. GEOL MAG 130, 691–7.CrossRefGoogle Scholar
Kokelaar, B. P., Howells, M. F., Bevins, R. E., Roach, R. A. & Dunkley, P. N. 1984. The Ordovician marginal basin of Wales. In Kokelaar, B. P. & Howells, M. F. (eds) Marginal basin geology: volcanic and associated sedimentary and tectonic processesin modern and ancient marginal basins. SPEC PUBL GEOL SOC, LONDON 16, 245–69.CrossRefGoogle Scholar
Kolata, D. R., Frost, J. K. & Huff, W. D. 1987. Chemical correlation of K-bentonite beds in the Middle Ordovician Decorah Subgroup, upper Mississippi Valley. GEOLOGY 15, 208–11.2.0.CO;2>CrossRefGoogle Scholar
Koren, T. N., Abushik, A. F., Modzalevskaya, T. L. & Predtechensky, N. N. 1989. Podolia. In Holland, C. M. & Bassett, M. G. (eds), A global standard for the Silurian system. National Museum of Wales Geological Series No. 9, pp. 141–9.Google Scholar
Laird, M. G. & McKerrow, W. S. 1970. The Wenlock sediments of north-west Galway, Ireland. GEOL MAG 107, 297317.CrossRefGoogle Scholar
Laufeld, S. & Jeppson, L. 1976. Silicification and bentonites in the Silurian of Gotland. GEOL FOREN STOCKHOLM FöRH 98, 3144.CrossRefGoogle Scholar
Lawrence, D. J. D., Webb, B. C, Young, B. & White, D. E. 1986.The geoelogy of the late Ordovician and Silurian rocks (Windermere Group) in the area around Kentmere andCrook. BR GEOL SURV REP 18, No. 5, 32 pp.Google Scholar
Leggett, J. K., McKerrow, W. S. & Eales, M. H. 1979. The Southern Uplands: A Lower Palaeozoic accretionary prism. J GEOL SOC, LONDON 136, 755–70.CrossRefGoogle Scholar
Lumsden, G. I., Tulloch, W., Howells, M. F. & Davies, A. 1967.The geology of the neighbourhood of Langholm. MEM GEOL SURV SCOTLAND.Google Scholar
McCaffrey, W. D., Barron, H. F., Molyneux, S. G. & Kneller, B. C. 1992. Recycled acritarchs as provenanceindicators: implications for Caledonian terrane reconstruction. GEOL MAG 129, 457–64.CrossRefGoogle Scholar
McKerrow, W. S., Dewey, J. S. & Scotese, C. R. 1991. The Ordovician and Silurian development of the lapetus Ocean. In Bassett, M. G., Lane, P. D. & Edwards, D. (eds) The Murchison Symposium: Proceedings of an international conference on the Silurian System. SPEC PAP PALAEONTOL 44, 165–78.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. GEOL MAG 127, 259–71.CrossRefGoogle Scholar
Merriman, R. J., Rex, D. C, Soper, N. J. & Peacor, D. R. 1995.The age of Acadian cleavage in northern England, UK: K-Ar and TEM analysis of a Silurian metabentonite. PROC YORKSHIRE GEOL SOC 50, 255–65.CrossRefGoogle Scholar
Millward, D., Moseley, F. & Soper, N. J. 1978. The Eycott and Borrowdale volcanic rocks. In Moseley, F. (ed.), YORKSHIRE GEOL SOC OCCAS PUBL 3, 91120.Google Scholar
Milodowski, A. E. & Zalasiewicz, J. A. 1991. Redistribution of rare earth elements during diagenesis of turbidite/hemipelagite mudrock sequences of Llandovery age from central Wales. In Morton, A. C, Todd, S. P. & Haughton, P. D. (eds) Developments in sedimentary provenance studies. GEOL SOC SPEC PUBL 57, p1011124.CrossRefGoogle Scholar
Mole, M. J., Trewin, N. H. & Still, J. 1992. Mobility of the high field strength, rare earth elements andyttrium during late diagenesis. J GEOL SOC, LONDON 149, 689–92.Google Scholar
Morris, J. H. 1987. The Northern Belt of the Longford-Down Inlier, Ireland and Southern Uplands: an Ordovician back-arc basin. J GEOL SOC, LONDON 144, 773–86.CrossRefGoogle Scholar
Mossier, J. H. & Hayes, J. B. 1966. Ordovician potassium bentonites of Iowa. J SEDIMENT PETROL 36, 414427.Google Scholar
Murphy, F. C. et al. 1991. An appraisal of Caledonian suspect terranes inIreland. IRISH J EARTH SCI 11, 1141.Google Scholar
Parkin, J. 1976. Silurian rocks of the Bull's Head, Annascaul and Derrymore glen inliers, Co. Kerry. PROC R IRISH ACAD 76B, 577606.Google Scholar
Pearce, J. A., Harris, N. B. W. & Tindle, A. G. 1984. Trace element discrimination diagrams for the tectonic interpretation of granitic rocks. J PETROL 25, 956–83.CrossRefGoogle Scholar
Pearce, R. B. 1995. The geochemistry of Llandovery and Wenlock age K-bentonites in theSouthern Uplands. SCOTT J GEOL 31,23–8.CrossRefGoogle Scholar
Pharaoh, T. C, Merriman, R. J., Evans, J. A., Brewer, T. S., Webb, P. C. & Smith, N. J. P. 1991. Early Palaeozoic arc-related volcanism in the concealed Caledonides of southern Britain. ANN SOC GEOL BELGIQUE 114, 6391.Google Scholar
Pharaoh, T. C, Brewer, T. S. & Webb, P. C. 1993. Subduction-related magmatism of late Ordovician age in Eastern England. GEOL MAG 130, 647–56.CrossRefGoogle Scholar
Phillips, W. E. A. 1974. The stratigraphy, sedimentary environments and palaeogeography of the Silurian strata of Clare Island, Co, Mayo. J GEOL SOC, LONDON 130, 1941.CrossRefGoogle Scholar
Phipps, C. B. & Reeve, F. A. E. 1967. Stratigraphy and geological history of the Malvern, Abberley and Ledbury hills. GEOL J 5, 339–68.CrossRefGoogle Scholar
Pickering, K. T., Bassett, M. G. & Siveter, D. J. 1988. Late-Ordovician early-Silurian destruction of thelapetus Ocean: Newfoundland, British Isles and Scandinavia—a discussion. TRANS R SOC EDINBURGH: EARTH SCI 79,361–82.CrossRefGoogle Scholar
Piper, D. J. W. 1972. Sedimentary environments and palaeogeography of the late Llandovery and earliest Wenlock of North Connemara, Ireland. J GEOL SOC, LONDON 128, 3351.CrossRefGoogle Scholar
Piper, D. J. W. 1975. A reconnaissance of the sedimentology of the lower Silurian mudstones, English Lake District. SEDIMENTOLOGY 22, 623–30.CrossRefGoogle Scholar
Rickards, R. B. 1967. The Wenlock and Ludlow succession in the Howgill Fells (north-west Yorkshire and Westmorland). Q J GEOL SOC, LONDON 123, 215–49.CrossRefGoogle Scholar
Rickards, R. B. 1970. The Llandovery (Silurian) graptolites of the Howgill Fells, northern England. PALAEONTOL SOC MONOGR 123 (for 1969), 1108.Google Scholar
Rickards, R. B. 1978. Silurian. In Moseley, F.(ed.) Geology of the Lake District. YORKSHIRE GEOL SOC OCCAS PUBL 3, 130–45.Google Scholar
Roberts, B. & Merriman, R. J. 1990. Cambrian and Ordovician metabentonitesand their relevance to the origins of associated mudrocks in the northern sector of the Lower Palaeozoic Welsh marginal basin. GEOL MAG 127, 3143.CrossRefGoogle Scholar
Romano, M. & Spears, D. A. 1991. Bentonites from the Horton Formation (Upper Silurian) of Ribblesdale, Yorkshire. PROC YORKSHIRE GEOL SOC 48, 277–85.CrossRefGoogle Scholar
Sanderson, R. W. & Cave, R. 1980. Silurian volcanism in the central Welsh Borderland. GEOL MAG 117, 455–62.CrossRefGoogle Scholar
Scotese, C. R. & McKerrow, W. S. 1990. Revised world maps and introduction. In McKerrow, W. S. & Scotese, C. S. (eds) Palaeozoic palaeogeography and biogeography. MEM GEOL SOC, LONDON 12, 124.CrossRefGoogle Scholar
Scott, R. W. & Kneller, B. C. 1990. A report on the Ashgill and Llandoveryage rocks of Sheet 38 (Ambleside). British Geological Survey Onshore Geology Series, Technical Report WA/90/63, 35 p.Google Scholar
Self, S. & Sparks, R. S. J. (eds) 1981. Tephra studies. Proceedings of the NATO Advanced Studies Institute ‘Tephra Studies as a Tool in Quaternary Research’.Dordrecht, Boston, London: D. Reidel Publishing Co.Google Scholar
Sloan, R. J. & Bennett, M. C. 1990. Geochemical character of Silurian volcanism in SW Ireland. J GEOL SOC, LONDON 147,1051–60.CrossRefGoogle Scholar
Smith, D. G. W. 1967. The petrology and mineralogy of some Lower Devonian bentonites from Gaspe, P. Q. CAN MINERAL 9, 141165.Google Scholar
Smith, R. A., Johnston, T. P. & Legg, I. C. 1991. Geology of the country around Newtownards. London, HMSO: British Geological Survey.Google Scholar
Soper, N. J. 1994. The Lower Palaeozoic rocks of 1:10000 sheets SD28SW, SD28SE, SD27NW andSD27NE, Low Furness, Cumbria. BR GEOL SURV TECH REP WA/94/61, 26 p.Google Scholar
Soper, N. J. & Hutton, D. H. W. 1984. Late Caledonian displacements in Britain: implications for a three-plate collision model. TECTONICS 3, 781–94.CrossRefGoogle Scholar
Soper, N. J. & Woodcock, N. H. 1990. Silurian collision and sediment dispersal patterns in southern Britain. GEOL MAG 127, 527–42.CrossRefGoogle Scholar
Soper, N. J., Webb, B. C. & Woodcock, N. H. 1987. Late Caledonian (Acadian) transpression in north-west England: timing, geometry and geotectonic significance. PROC YORKSHIRE GEOL SOC 46, 175–92.CrossRefGoogle Scholar
Spjeldnaes, N. 1959. Silurian bentonites from Gotland, Sweden. GEOL FOREN STOCKHOLM FORH 8, 582–7.CrossRefGoogle 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. J GEOL SOC, LONDON 144, 753–64.CrossRefGoogle Scholar
Styles, M. T., Stone, P. & Floyd, J. D. 1989. Arc detritus in the Southern Uplands: mineralogical characterisation of a ‘missing’ terrane. J GEOL SOC, LONDON 146, 397400.CrossRefGoogle Scholar
Teale, C. T. & Spears, D. A. 1986. The mineralogy and origin of some Silurian bentonites, Welsh Borderland, UK. SEDIMENTOL 33, 757–65.CrossRefGoogle Scholar
Thirlwall, M. F. 1988. Geochronology of Late Caledonian magmatism in northern Britain. J GEOL SOC, LONDON 145, 951–67.CrossRefGoogle Scholar
Thorpe, R. S., Leat, P. T., Bevins, R. E. & Hughes, D. J. 1989. Lateorogenic alkaline/subalkaline Silurian volcanism of the Skomer Volcanic Group in the Caledonides of South Wales. J GEOL SOC, LONDON 146, 125–32.CrossRefGoogle Scholar
Tipper, J. C. 1976. The stratigraphy of the North Esk Inlier, Midlothian. SCOTT J GEOL 12, 1522.CrossRefGoogle Scholar
Tucker, R. D., Krogh, T. E., Ross, R. J. Jr & Williams, S. M. 1990. Time-scale calibration by high-precision U-Pb zircon dating of interstratified volcanic ashes in the Ordovician and Lower Silurian stratotypes of Britain. EARTH PLANET SCI LETT 100, 51–8.CrossRefGoogle Scholar
Turner, J. S. 1935. Gothlandian vulcanicity in Western Europe. GEOL MAG 72, 145–51.CrossRefGoogle Scholar
Van Der Kamp, P. C. 1969. The Silurian volcanic rocks of the Mendip Hills, Somerset, and the Tortworth area, Gloucestershire, England. GEOL MAG 106, 542–53.CrossRefGoogle Scholar
Walker, G. P. L. 1981. Plinian eruptions and their products. BULL VOLCANOL 44, 223–40.CrossRefGoogle Scholar
Walton, E. K. & Oliver, G. J. H. 1991. Lower Palaeozoic—structure and palaeogeography. In Craig, G. Y. (ed.) Geology of Scotland (Third edition). London: The Geological Society. 612 pp.Google Scholar
White, D. E. & Lawson, J. D. 1978. The stratigraphy of new sections in theLudlow Series of the type area, Ludlow, Salop, England. INST GEOL SCI REP 78/30.Google Scholar
Williams, D. M., O'Connor, P. D. & Menuge, J. 1992. Silurian turbidite provenance and the closure ofIapetus. J GEOL SOC, LONDON 149, 349–57.CrossRefGoogle Scholar
Wilson, D. W. R. 1954. The stratigraphy and palaeontology of the Valentian rocks of Cautley (Yorks W.R.). Unpublished PhD thesis, University of Birmingham.Google Scholar
Winchester, J. A. & Floyd, P. A. 1977. Geochemical discrimination of different magma series and their differentiation products using immobile elements. CHEM GEOL 20, 325–43.CrossRefGoogle Scholar
Woodcock, N. H. & Pharaoh, T. C. 1993. Silurian facies beneath East Anglia. GEOL MAG 130, 681–90.CrossRefGoogle Scholar
Wright, A. D. 1985. The Ordovician-Silurian boundary at Keisley, northern England. GEOL MAG 122, 261–73.CrossRefGoogle Scholar
Zeigler, A. M., McKerrow, W. S., Burne, R. V. & Baker, P. E. 1969. Correlation and environmental setting of the Skomer Volcanic Group, Pembrokeshire. PROC GEOLASSOC 80, 409-40.Google Scholar
Zhang, Y.-S. & Huff, W. D. 1994. Grain size characteristics of a Middle Ordovician eruption and its source area. In Lanphere, M. A., Dalrymple, G. B. & Turrin, B. D. (eds), Abstracts of the Eighth International Conference on Geochronology, Cosmochronology and Isotope Geology. US GEOL SURV CIRC 1107, 364.Google Scholar