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A palaeomagnetic argument concerning post-Devonian displacement along the Great Glen Fault

Published online by Cambridge University Press:  01 May 2009

P. Turner
Affiliation:
School of PhysicsThe University Newcastle upon Tyne
D. H. Tarling
Affiliation:
School of PhysicsThe University Newcastle upon Tyne
R Archer
Affiliation:
School of PhysicsThe University Newcastle upon Tyne
R. N. Donovan
Affiliation:
School of PhysicsThe University Newcastle upon Tyne

Summary

The validity of using Devonian palaeomagnetic data to determine a post-Devonian displacement along the Great Glen Fault is assessed and it is concluded that there is no statistically significant difference between previous magnetic vectors E and W of the fault and thus no palaeomagnetic evidence for a large sinistral displacement in post-Devonian times. New palaeomagnetic results are presented which suggest that the Devonian red sandstones in the Orcadian Basin have such a complex diagenetic and palaeomagnetic history that they will then be unsuitable for such tectonic evaluations in the foreseeable future, although palaeomagnetic dating can be used to resolve some diagenetic-sedimentary features.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1976

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References

Baag, Czang-Go & Helsley, C. E. 1974. Evidence for penecontemporaneous magnetization of the Moenkopi Formation. J. Geophys. Res. 79, 3308–20.CrossRefGoogle Scholar
Briden, J. C., Morris, W. A. & Piper, J. D. A. 1973. Palaeomagnetic studies in the British Caledonides. VI. Regional and global implications. Geophys. J. R. astro. Soc. 34, 107–34.CrossRefGoogle Scholar
Collinson, D. W. 1974. The role of pigment and specularite in the remanent magnetism of red sandstones. Geophys. J. R. astro. Soc. 38, 253–64.CrossRefGoogle Scholar
Creer, K. M. & Embleton, B. J. J. 1967. Devonian palaeomagnetic pole for Europe and N. America, Nature, Lond. 214, 42–3.CrossRefGoogle Scholar
Embleton, B. J. J. 1968. Laboratory stability tests applied to Devonian lavas from Scotland. Geophys. J. R. astro. Soc. 16, 239–51.CrossRefGoogle Scholar
Lie, L. G., Storetvedt, K. M. & Gjellestad, G. 1969. The palaeomagnetism of the Kvam shesten Old Red sequence, southwest Norway. Norsk. geol. Tiddskr. 49, 241–9.Google Scholar
McMurray, E. W. 1970. Palaeomagnetic results from the Scottish lavas of Lower Devonian age. In Runcorn, S. K. (Ed.): Palaeogeophysics, pp. 253–62. London: Academic Press.Google Scholar
Mykura, W. 1975. Possible large-scale sinistral displacement along the Great Glen Fault in Scotland. Geol. Mag. 112, 91–4.CrossRefGoogle Scholar
Piper, J. D. A. 1975. Palaeomagnetism of Silurian lavas of Somerset and Gloucestershire, England. Earth Planet. Sci. Lett. 25, 355–60.CrossRefGoogle Scholar
Sallomy, J. T. & Piper, J. D. A. 1973. Palaeomagnetic studies in the British Caledonides. IV. Lower Devonian lavas of the Strathmore region, Scotland. Geophys. J. R. astro. Soc. 34, 4768.CrossRefGoogle Scholar
Storetvedt, K. M. 1971. Some palaeomagnetic problems of strongly oxidised rocks. Z. Geophys. 37, 487–92.Google Scholar
Storetvedt, K. M. 1974. A possible large scale sinistral displacement along the Great Glen Fault. Geol. Mag. 111, 2330.CrossRefGoogle Scholar
Storetvedt, K. M. 1975. Possible large-scale sinistral displacement along the Great Glen Fault in Scotland. Reply to W. Mykura. Geol. Mag. 112, 93–4.Google Scholar
Storetvedt, K. M. & Gjellestad, G. 1966. Palaeomagnetic investigation of an Old Red Sandstone Formation of southern Norway. Nature, Lond. 212, 5961.CrossRefGoogle Scholar
Storetvedt, K. M. & Halvorsen, E. 1968. On the palaeomagnetic reliability of the Scottish Devonian lavas. Tectonophysics, 5, 447–57.CrossRefGoogle Scholar
Storetvedt, K. M., Halvorsen, E. & Gjellestad, G. 1968. Thermal analysis of the natural remanent magnetism of some upper Silurian red sandstones in the Oslo Region. Tectonophysics, 5, 413–26.CrossRefGoogle Scholar
Storetvedt, K. M. & Petersen, N. 1972. Palaeomagnetic properties of the middle-upper Devonian volcanics of the Orkney Island. Earth Planet. Sci. Lett. 14, 269–78.CrossRefGoogle Scholar
Tarling, D. H. 1970. Palaeomagnetism and the origin of the red sea and Gulf of Aden. Phil. Trans. R. Soc. Lond. A., 267, 219–26.Google Scholar
Tarling, D. H., Donovan, R. N., Abou-Deeb, J. M. & El-Batrouk, S. I. (in press). Palaeomagnetic dating of haematite genesis in Orcadian Basin sediments. Scottish J. Geol. Google Scholar
Thorning, L. 1974. Palaeomagnetic results from Lower Devonian rocks of the Cheviot Hills, northern England. Geophys. J. R. astro. Sci. 36, 487–96.CrossRefGoogle Scholar
Turner, P. 1974. Origin of red beds in the Ringerike Group (Silurian) of Norway. Sedimentary Geology 12, 215–35.CrossRefGoogle Scholar
Turner, P. & Archer, R. 1975. Magnetization history of Lower Old Red Sandstones from the Gamrie Outlier, Scotland. Earth Planet. Sci. Lett. 27, 240–50.CrossRefGoogle Scholar
Waage, H. L. & Storetvedt, K. M. 1973. The Devonian geomagnetic axis relative to the Orcadian Basin, N. Scotland. Z. Geophys. 39, 937–51.Google Scholar
Walker, T. R. 1967. Formation of red beds in modern and ancient deserts. Bull. geol. Soc. Am. 78, 353–68.CrossRefGoogle Scholar
Wilson, R. L. & McElhinny, M. W. 1974. Investigation of the large scale palaeomagnetic field over the past 25 million years. Eastward shift of the Icelandic spreading ridge. Geophys. J. R. astro. Soc. 39, 570–86.CrossRefGoogle Scholar