Hostname: page-component-586b7cd67f-t8hqh Total loading time: 0 Render date: 2024-12-01T06:30:54.927Z Has data issue: false hasContentIssue false

The distribution, geometry and kinematic significance of Caledonian buckle folds in the western Moine Nappe, northwestern Scotland

Published online by Cambridge University Press:  01 May 2009

G. I. Alsop
Affiliation:
Department of Geological Sciences, University of Durham, South Road, Durham DH1 3LE, U.K.
R. E. Holdsworth
Affiliation:
Department of Geological Sciences, University of Durham, South Road, Durham DH1 3LE, U.K.

Abstract

Within internal regions of orogenic belts, systems of ductile thrusts and folds may form which are geometrically and kinematically analogous to those observed in foreland thrust belts. The Moine Nappe of Sutherland, northwestern Scotland, developed during WNW-directed Caledonian displacements under amphibolite facies conditions. Broad zones of mylonite associated with the ductile Ben Hope and Moine thrusts both contain numerous, small-scale folds which can be attributed to transient flow perturbations. It is possible to isolate and differentiate generations of such folds basedon their association with particular major thrust zones and'or their geometry. In regions of lower strain between these thrusts, there are a series ofkilometre-scale buckle folds, the axial traces of which define arcuate trends. Those with hinges orthogonal to transport are northwestvergent, whilst those plunging subparallel to the mineral lineation display variable vergence. The spatial distribution of these geometries suggests a causal relationship with displacements on specific underlying thrusts. We propose that they reflect larger (kilometre-scale), and possibly longer-lived flow perturbations. The transport parallel folds are persistent features that often centre on earlier structural culminations, and are thought to reflect components of differential shear. The most prominent set of regional buckle folds root downwards into the ductile Moine Thrust, and openly refold the structurally overlying Ben Hope Thrust and its associated buckle folds, thus supporting a foreland propagating sequence of ductile displacements.

Type
Articles
Copyright
Copyright © Cambridge University Press 1993

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

Barr, D., Holdsworth, R. E. & Roberts, A. M. 1986. Caledonian ductile thrusting in a Precambrian metamorphic complex: the Moine of NW Scotland. Bulletin of the Geological Society of America 97, 754–64.2.0.CO;2>CrossRefGoogle Scholar
Choukroune, P., Gapais, D. & Merle, O. 1987. Shear criteria and structural symmetry. Journal of Structural Geology 9, 525–30.CrossRefGoogle Scholar
Coward, M. P. 1982. Surge zones in the Moine thrust zone of NW Scotland. Journal of Structural Geology 4, 247–56.CrossRefGoogle Scholar
Coward, M. P. & Enfield, M. A. 1987. The structure of the West Orkney and adjacent basins. In The Petroleum Geology of NW Europe (eds Brooks, J. and Glennie, K.), pp. 687–96. London: Graham and Trotman.Google Scholar
Coward, M. P. & Kim, J. H. 1981. Strain within thrust sheets. In Thrust and Nappe Tectonics (eds McClay, K. R. and Price, N. J.), pp. 275–92.Special Publication, Geological Society of London no. 9.Google Scholar
Coward, M. P. & Potts, G. J. 1983. Complex strain patterns developed atthe frontal and lateral tips to shear zones and thrust zones. Journal ofStructural Geology 5, 383–99.CrossRefGoogle Scholar
Escher, A. & Watterson, J. 1974. Stretching fabrics, folds and crustal shortening. Tectonophysics 22, 223–31.Google Scholar
Harris, A. L. & Johnson, M. R. W. 1991. Moine. In Geology of Scotland (ed. Craig, G. Y.), pp. 87–118. Geological Society, 628 pp.Google Scholar
Holdsworth, R. E. 1988. The stereographic analysis of facing. Journal ofStructural Geology 10, 219–23.Google Scholar
Holdsworth, R. E. 1989. The geology and structural evolution of a Caledonian fold and ductile thrust zone, Kyle of Tongue region, Sutherland, N Scotland. Journal of the Geological Society 146, 809–23.Google Scholar
Holdsworth, R. E. 1990. Progressive deformation structures associated with ductile thrusts in the Moine Nappe, Sutherland, N. Scotland. Journal of Structural Geology 12, 443–52.CrossRefGoogle Scholar
Holdsworth, R. E. & Grant, C. J. 1990. Convergence-related “dynamic spreading” in a mid-crustal ductile thrust zone: a possible orogenic wedge model. In Deformation Mechanisms, Rheology and Tectonics (eds Knipe, R. J. and Rutter, E. H.), pp. 491500. Special Publication, Geological Society of London no. 54.Google Scholar
Mendum, J. R. 1976. A strain study of the Strathan Conglomerate, North Scotland. Scottish Journal of Geology 12, 135–46.CrossRefGoogle Scholar
Moorhouse, V. E. & Moorhouse, S. J. 1983. The geology and geochemistry of the Strathy Complex of north-east Sutherland, Scotland. MineralogicalMagazine 47, 123–37.Google Scholar
Park, R. G. 1969. Structural correlation in metamorphic belts. Tectonophysics 7, 323–38.Google Scholar
Platt, J. P. 1983. Progressive refolding in ductile shear zones. Journalof Structural Geology 5, 619–22.CrossRefGoogle Scholar
Platt, J. P. 1986. Dynamics of orogenic wedges and the uplift of high pressure metamorphic rocks. Geological Society of America Bulletin 97, 1037–53.Google Scholar
Powell, D. & Phillips, W. E. A. 1985. Time of deformation in the Caledonian Orogen of Britain and Ireland. In The Nature and Timing of OrogenicActivity in the Caledonian Rocks of the British Isles (ed. Harris, A. L.), pp. 17–40. Memoir of the Geological Society of London no. 9.Google Scholar
Ramsay, J. G. 1967. Folding and Fracturing of Rocks, New York: McGraw-Hill. 568 pp.Google Scholar
Read, H. H., Phemister, J. & Ross, G. 1926. The geology of Strath Oykell and Lower Loch Shin. Memoir of the Geological Survey, Scotland.Google Scholar
Ridley, J. 1986. Parallel stretching lineations and fold axes oblique to displacement direction - a model and observations. Journal of Structural Geology 8, 647–54.CrossRefGoogle Scholar
Simpson, C. & Schmid, S. M. 1983. An evaluation of shear criteria to deduce the sense of movement in sheared rocks. Geological Society of America Bulletin 94, 1281–88.2.0.CO;2>CrossRefGoogle Scholar
Tobisch, O. T. & Patferson, S. R. 1988. Analysis and interpretation of composite foliations in areas of progressive deformation. Journal of Structural Geology 10, 745–54.Google Scholar
Turner, F. J. & Weiss, L. E. 1963. Structural Analysis of Metamorphic Tectonites, New York: McGraw-Hill. 545 pp.Google Scholar
Williams, P. F. 1985. Multiply deformed terrains - problems of correlation. Journal of Structural Geology 7, 269–80.Google Scholar