Hostname: page-component-7bb8b95d7b-lvwk9 Total loading time: 0 Render date: 2024-09-18T03:45:57.905Z Has data issue: false hasContentIssue false
  • English
  • Français

Sm—Nd ages from the Ballantrae complex, SW Scotland

Published online by Cambridge University Press:  03 November 2011

P. J. Hamilton ,
B. J. Bluck  and
A. N. Halliday
P. J. Hamilton
Affiliation:
Isotope Geology Unit, Scottish Universities Research and Reactor Centre, East Kilbride, Glasgow G75 0QU, Scotland.
B. J. Bluck
Affiliation:
Department of Geology, University of Glasgow, Glasgow G12 8QQ, Scotland.
A. N. Halliday
Affiliation:
Isotope Geology Unit, Scottish Universities Research and Reactor Centre, East Kilbride, Glasgow G75 0QU, Scotland.
Get access Rights & Permissions [Opens in a new window]

Abstract

The Ballantrae complex has yielded its oldest yet determined age of 576 ± 32 Ma from an Sm–Nd internal isochron for a block ‘eclogite’ interpreted as being a component of the mélange-olistostrome unit at Knockormal. This unit is possibly older than the main ophiolitic part of the complex and the ‘eclogite’ block provides evidence for the existence of oceanic crust older than c. 575 Ma on the southern margin of the Laurentian shield.

An Sm–Nd internal isochron from a high-grade metapyroxenite in the metamorphic aureole beneath an obducted slab of mantle peridotite at Laigh Knocklaugh yields an age of 505 ± 11 Ma. This is interpreted as close to the age of metamorphism and is older than the K–Ar age of 478 ± 8 Ma determined for the amphibolites of the aureole which underlie the metapyroxenite. The metapyroxenite had a provenance deeper in the oceanic crust than the amphibolite and the former has been structurally detached and justaposed against the latter in this telescoped metamorphic sequence.

Keywords

Arenigeclogitemélangemetamorphic aureolemetapyroxeniteobductionolistostrometrondhjemite
Type
Midland Valley
Information
Earth and Environmental Science Transactions of The Royal Society of Edinburgh , Volume 75 , Issue 2: Deep Geology of the Midland Valley of Scotland and Adjacent Regions. Bicentenary Symposium , 1984 , pp. 183 - 187
Copyright
Copyright © Royal Society of Edinburgh 1984

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

Barrett, T. J., Jenkyns, H. C., Leggett, J. K. & Robertson, A. H. F. 1982. Comment and reply on ‘Age and origin of Ballantrae opthiolite and its significance to the Caledonian orogeny and the Ordovician Time scale’. GEOLOGY 9, 331–3.2.0.CO;2>CrossRefGoogle Scholar
Bloxam, T. W. 1968. The petrology of Byne Hill, Ayrshire. TRANS R SOC EDINBURGH 68, 105–22.CrossRefGoogle Scholar
Bloxam, T. W. 1981. Trondhjemite in the Girvan-Ballantrae complex, Ayrshire, Scotland. J GEOL 89, 754–64.CrossRefGoogle Scholar
Bloxam, T. W. & Allen, J. B. 1960. Glaucophane schist, eclogite and associated rocks from Knockormal in the Girvan-Ballantrae Complex, South Ayrshire. TRANS R SOC EDINBURGH 64, 129.CrossRefGoogle Scholar
Bluck, B. J.Halliday, A. N., Aftalion, M. & Maclntyre, R. M. 1980. Age and origin of Ballantrae ophiolite and its significance to the Caledonian orogeny and the Ordovician time-scale. GEOLOGY 8, 492–5.2.0.CO;2>CrossRefGoogle Scholar
Church, W. R. & Gayer, R. A. 1973. The Ballantrae ophiolite. GEOL MAG 110, 497510.CrossRefGoogle Scholar
Dewey, J. F. 1974. Continental margins and ophiolite obduction: Appalachian Caledonian System. In Burk, C. A. and Drake, C. L. (eds) Geology of continental margins, 933–50. New York: Springer.CrossRefGoogle Scholar
Halliday, A. N. 1984. Coupled Sm–Nd and U–Pb systematics in late Caledonian granites and the basement under northern Britain. NATURE 307, 229–33.CrossRefGoogle Scholar
Harris, P. M., Farrar, E., Macintyre, R. M., York, D. & Miller, J. A. 1965. Potassium–Argon age measurements on two igneous rocks from the Ordovician system of Scotland. NATURE 205, 353–3.CrossRefGoogle Scholar
Hooker, P. J., Hamilton, P. J. & O'Nions, R. K. 1981. An estimate of the Nd isotopie composition of Iapetus seawater from ca. 490 metaliferous sediments. EARTH PLANET SCI LETT 56, 180–8.CrossRefGoogle Scholar
Humphries, F. J. & Cliff, R. A. 1982. Sm–Nd dating and cooling history of Scourian granulites, Sutherland. NATURE 295, 515–7.CrossRefGoogle Scholar
Hunter, R. H., Upton, B. J. G. & Aspen, P. 1984. Meta-igneous granulite and ultramafic xenoliths from basalts of the Midland Valley of Scotland: petrology and mineralogy of the lower crust and upper mantle. TRANS R SOC EDINBURGH EARTH SCI 75, 7584.CrossRefGoogle Scholar
Jacobsen, S. B. & Wasserburg, G. J. 1979. Nd and Sr isotopie study of the Bay of Islands ophiolite complex and the evolution of the source of mid-ocean ridge basalts. J GEOPHYS RES 84, 7429–45.CrossRefGoogle Scholar
Jacobsen, S. B. & Wasserburg, G. J. 1980. Sm–Nd isotopie evolution of chondrites. EARTH PLANET SCI LETT 50, 139–55.CrossRefGoogle Scholar
Jelínek, E., Souček, J., Bluck, B. J., Bowes, D. R. & Treloar, P. J. 1980. Nature and significance of beerbachites in the Ballantrae ophiolite, SW Scotland. TRANS R SOC EDINBURGH EARTH SCI 71, 159–79.CrossRefGoogle Scholar
Jelínek, E., Souček, J., Randa, Z., Jakeš, P., Bluck, B. J. & Bowes, D. R. 1984. Geochemistry of peridotites, gabbros and trondhjemites of the Ballantrae complex, SW Scotland. TRANS R SOC EDINBURGH EARTH SCI 75, 193209.CrossRefGoogle Scholar
Longman, C. D., Bluck, B. J. & van Breemen, O. 1979. Ordovician conglomerates and the evolution of the Midland Valley. NATURE 280, 578–81.CrossRefGoogle Scholar
Richard, P., Shimizu, N. & Allegre, C. J. 1976. 143Nd/144Nd, a natural tracer: an application to oceanic basalts. EARTH PLANET SCI LETT 31, 269–78.CrossRefGoogle Scholar
Roddick, J. C., Cameron, W. A. & Smith, A. G. 1979. Permo-Triassic and Jurassic 40Ar/39Ar ages from Greek ophiolites and associated rocks. NATURE 279, 788–90.CrossRefGoogle Scholar
Saunders, A. D., Tarney, J., Stern, C. R. & Dalziel, I. W. D. 1979. Geochemistry of Mesozoic marginal basin floor igneous rocks from southern Chile. BULL GEOL SOC AM 90, 237–58.2.0.CO;2>CrossRefGoogle Scholar
Spray, J. G. & Williams, G. D. 1980. The sub-ophiolite metamorphic rocks of the Ballantrae Igneous Complex, SW Scotland. J GEOL SOC LONDON 137, 359–68.CrossRefGoogle Scholar
Spray, J. G. & Roddick, J. D. 1980. Petrology and 40Ar/39Ar geochronology of some Hellenic sub-ophiolitic metamorphic rocks. CONTRIB MINERAL PETROL 72, 4355.CrossRefGoogle Scholar
Steiger, R. H. & Jäger, E. 1977. Subcommission on Geochronology: convention on the use of decay constants in geochronology and cosmochronology. EARTH PLANET SCI LETT 36, 359–62.CrossRefGoogle Scholar
Stone, P. & Rushton, A. N. A. 1983. Graptolite faunas from the Ballantrae ophiolite complex and their structural implications. SCOTT J GEOL 19, 297310.CrossRefGoogle Scholar
Stukas, V. & Reynolds, P. H. 1974. 40Ar/39Ar dating of the Long Range Dikes, Newfoundland. EARTH PLANET SCI LETT 22, 256–66.CrossRefGoogle Scholar
Thirlwall, M. S. & Bluck, B. J. 1984. Sm–Nd isotope and chemical evidence that the Ballantrae “ophiolite” is polygenetic. In Gass, I. G., Lippard, S. J. and Skelton, A. W. (eds) Ophiolites and Oceanic Lithosphere. GEOL SOC LONDON SPEC PUBL 13, 215–30.Google Scholar
Treloar, P. J., Bluck, B. J., Bowes, D. R. & Dudek, A. 1980. Hornblende-garnet metapyroxenite beneath serpentinite in the Ballantrae complex of SW Scotland and its bearing on the depth provenance of obducted oceanic lithosphere. TRANS R SOC EDINBURGH EARTH SCI 71, 202–12.CrossRefGoogle Scholar
Wasserburg, G. J., Jacobsen, S. B., De Paolo, D. J. & McCulloch, M. T. 1981. Precise determinations of Sm/Nd ratios, Sm and Nd isotopie abundances in standard solutions. GEOCHIM COSMOCHIM ACTA 45, 2311–23.CrossRefGoogle Scholar
Wilkinson, J. M. & Cann, J. R. 1974. Trace elements and tectonic relationships of basement rocks in the Ballantrae igneous complex, Ayrshire. GEOL MAG 11, 35–11.CrossRefGoogle Scholar
York, D. 1969. Least squares fitting of a straight line with correlated errors. EARTH PLANET SCI LETT 5, 320–4.CrossRefGoogle Scholar
Zindler, A., Hart, S. R., Frey, F. A. & Jacobsen, S. P. 1979. Nd and Sr isotope ratios and rare earth element abundances in Reykjanes Peninsula basalts: evidence for mantle heterogeneity beneath Iceland. EARTH PLANET SCI LETT 45, 249–62.CrossRefGoogle Scholar