Hostname: page-component-848d4c4894-2pzkn Total loading time: 0 Render date: 2024-06-09T12:29:55.682Z Has data issue: false hasContentIssue false
  • English
  • Français

A model for stratigraphic and metamorphic inversions at Sulitjelma, central Scandes

Published online by Cambridge University Press:  01 May 2009

A. P. Boyle
A. P. Boyle
Affiliation:
Jane Herdman Laboratories, Department of Geological Sciences, Brownlow Street, University of Liverpool, P.O. Box 147, Liverpool L69 3BX, U.K.
Get access Rights & Permissions [Opens in a new window]

Abstract

The relationship between disposition of metamorphic isograds and early strain history is examined for the Sulitjelma Fold Nappe of the central Scandes. Evidence for stratigraphic inversion and the widespread inversion of the garnet isograd is reviewed, and new evidence for the nature of early Scandian deformation is presented. A two-stage model is presented which explains the inversions by (i) an initial phase of horizontal compression resulting in crustal thickening by vertical stretching during closure of a marginal basin, followed by (ii) continued horizontal compression and crustal thickening by eastward-directed nappe emplacement. The emplacement of the Sulitjelma Fold Nappe during the latter phase of progressive simple-shear-dominated deformation was accompanied by the development of sheath fold geometries and the overturning of isotherms to produce the widespread inversion of the garnet isograd.

Type
Research Article
Information
Geological Magazine , Volume 124 , Issue 5 , September 1987 , pp. 451 - 466
Copyright
Copyright © Cambridge University Press 1987

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

Barker, A. J. & Gayer, R. A. 1985. Caledonide–Appalachian tectonic analysis and evolution of related oceans. In The Tectonic Evolution of the Caledonide–Appalachian Orogen (ed. Gayer, R. A.), pp. 126–65. Brunschweig/Wiesbaden: Vieweg.Google Scholar
Boyle, A. P. 1980. The Sulitjelma amphibolites, Norway: part of a Lower Palaeozoic ophiolite complex? In Ophiolites: Proceedings International Ophiolite Symposium (ed. Panayioutou, A.), pp. 567–75. Nicosia, Cyprus: Cyprus Geological Survey Department.Google Scholar
Boyle, A. P. 1986. Metamorphism of basic and pelitic rocks at Sulitjelma, Central Scandes. Lithos 19, 113–28.CrossRefGoogle Scholar
Boyle, A. P., Griffiths, A. J. & Mason, R. 1979. Stratigraphical inversion in the Sulitjelma area, Central Scandinavian Caledonides. Geological Magazine 116, 393402.CrossRefGoogle Scholar
Boyle, A. P., Mason, R. & Hansen, T. S. 1985. A new tectonic perspective of the Sulitjelma Region. In The Caledonide Orogen – Scandinavia and Related Areas (eds. Gee, D. G. & Sturt, B. A.), pp. 529–41. Chichester: Wiley.Google Scholar
Bruhn, R. L. 1979. Rock structures formed during backarc basin deformation in the Andes of Tierra del Fuego. Bulletin of the Geological Society of America 90, 9981012.2.0.CO;2>CrossRefGoogle Scholar
Burton, K. W. 1986. Garnet-quartz intergrowths in graphitic pelites: the role of the fluid phase. Mineralogical Magazine 50, 611–20.CrossRefGoogle Scholar
Cobbold, P. R. & Quinquis, H. 1980. Development of sheath folds in shear regimes. Journal of Structural Geology 2, 119–26.CrossRefGoogle Scholar
Cooper, M. A., Bliss, G. M., Ferriday, I. L. & Halls, C. 1979. The geology of the Sorjusdalen area, Nordland, Norway. Norges geologiske Undersekelse 351, 3150.Google Scholar
Furnes, H., Ryan, P. D., Grenne, T., Roberts, D., Sturt, B. A. & Prestvik, T. 1985. Geological and geochemical classification of the ophiolitic fragments of the Scandinavian Caledonides. In The Caledonide Orogen – Scandinavia and Related Areas (eds. Gee, D. G. & Sturt, B. A.), pp. 657–70. Chichester: Wiley.Google Scholar
Gee, D. G., Kumpulainen, R., Roberts, D., Stephens, M. B., Thon, A. & Zachrisson, E. 1985. Scandinavian Caledonides – Tectonostratigraphic Map. In The Caledonide Orogen – Scandinvia and Related Areas (eds. Gee, D. G. & Sturt, B. A.), Map 1. Chichester: Wiley.Google Scholar
Geis, H.-P. 1978. Structural control of stratiform deposits with a new example from Sulitjelma. Economic Geology 73, 1161–67.CrossRefGoogle Scholar
Grocott, J. 1979. Controls of metamorphic grade in shear belts. Rapport Gronlands Geologiske Undersegelse 89, 4762.CrossRefGoogle Scholar
Hall, R. 1982. Ophiolites and passive continental margins. Ofioliti 7, 279–98.Google Scholar
Hansen, T. S. 1980. Some guide-lines to ore in the Sulitjelma ore field. Norges geologiske Undersokelse 360, 237–8.Google Scholar
Henderson, J. R. 1981. Structural analysis of sheath folds with horizontal X-axes, northeast Canada. Journal of Structural Geology 3, 203–10.CrossRefGoogle Scholar
Henley, K. J. 1970. The structural and metamorphic history of the Sulitjelma region, Norway, with special reference to the nappe hypothesis. Norske geologisk Tiddskrift 50, 97136.Google Scholar
Holdsworth, R. E. & Roberts, A. M. 1984. Early curvilinear fold structures and strain in the Moine of the Glen Garry region, Inverness-shire. Journal of the Geological Society of London 141, 327–38.CrossRefGoogle Scholar
Jamieson, R. A. 1980. Ophiolite emplacement as recorded in the dynamothermal aureole of the St Anthony complex, north-western Newfoundland. In Ophiolites: Proceedings International Ophiolite Symposium (ed. Panayiotou, A.), pp. 620–7. Nicosia, Cyprus: Cyprus Geological Survey Department.Google Scholar
Kautsky, G. 1953. Der geologische Bau des Sulitjelma-Salojaure-gebietes in den nordskandinavischen Kaledoniden. Sveriges geologiska Undersökning C528, 1233.Google Scholar
Kirk, W. & Mason, R. 1984. Facing structure in the Furulund Group, Sulitjelma, Norway. Proceedings of the Geologists' Association 95, 4350.CrossRefGoogle Scholar
Kulling, O. 1972. Berggrundskarta över Norrbottensfjällens södra del, 1:400000. Sveriges geologiska Undersökning.Google Scholar
Mason, R. 1971. The chemistry and structure of the Sulitjelma gabbro. Norges geologiske Undersøkelse 269, 108–41.Google Scholar
Mason, R. 1980. Temperature and pressure estimates in the contact aureole of the Sulitjelma gabbro: implications for an ophiolite origin. In Ophiolites: Proceedings International Ophiolite Symposium (ed. Panayiotou, A.), pp. 576–81. Nicosia, Cyprus: Cyprus Geological Survey Department.Google Scholar
Mason, R. 1981. A trondhjemite vein in the Sulitjelma gabbro, Norway, and its implications for the age of the Sulitjelma ophiolite. Geological Magazine 118, 525–31.CrossRefGoogle Scholar
Mason, R. 1984. Inverted isograds at Sulitjelma, Norway: the result of shear-zone deformation. Journal of Metamorphic Geology 2, 7782.CrossRefGoogle Scholar
Mason, R. 1985. A major stratigraphical and metamorphic inversion in the Upper Allochthon of the Scandinavian Caledonides. In The Tectonic Evolution of the Caledonide–Appalachian Orogen (ed. Gayer, R. A.), pp. 117–25. Braunschweig/Wiesbaden: Vieweg.Google Scholar
Minnigh, L. D. 1979. Structural analysis of sheath folds in a metachert from the western Italian Alps. Journal of Structural Geology 1, 275–82.CrossRefGoogle Scholar
Nicholson, R. 1966. On the relations between volcanic and other rocks in the fossiliferous east Lomivann area of Norwegian Sulitjelma. Norges geologiske Undersokelse 260, 143–56.Google Scholar
Nicholson, R. 1984. An eclogite from the Caledonides of southern Norrbotten. Norsk geologisk Tidsskrift 64, 165–69.Google Scholar
Nicholson, R. & Rutland, R. W. R. 1969. A section across the Norwegian Caledonides: Bodø to Sulitjelma. Norges geologiske Undersokelse 260, 186.Google Scholar
Oxburgh, E. R. & Turcotte, D. L. 1974. Thermal gradients and regional metamorphism in overthrust terrains with special reference to the eastern Alps. Schweizerische Mineralogische and Petrographische Mitteilungen 54, 641–62.Google Scholar
Ramdohr, P. 1938. Antimonreiche Paragenesen von Jakobs bakken bei Sulitjelma. Norsk geologisk Tidsskrift 18, 275–89.Google Scholar
Roberts, D. & Sturt, B. A. 1980. Caledonian deformation in Norway. Journal of the Geological Society of London 137, 241–50.CrossRefGoogle Scholar
Roberts, D., Sturt, B. A. & Furnes, H. 1985. Volcanite assemblages and environments in the Scandinavian Caledonides and the sequential development history of the mountain belt. In The Caledonide Orogen – Scandinavia and Related Areas (eds. Gee, D. G. & Sturt, B. A.), pp. 919–30. Chichester: Wiley.Google Scholar
Shackleton, R. M. 1957. Downward-facing structures of the Highland Border. Quarterly Journal of the Geological Society of London 113, 361–92.CrossRefGoogle Scholar
Sigmond, E. M. O., Gustavson, M. & Roberts, D. 1984. Berggrunnskart over NorgeM. 1: 1 million. Tronheim: Norges Geologiske Undersøkelse.Google Scholar
Sjögren, H. 1900. Overskrift at Sulitelma-områdets geologi. Geologiska Föreningens Stockholm Förhandlingar 22, 437–62.CrossRefGoogle Scholar
Stephens, M. B. & Gee, D. G. 1985. A tectonic model for the evolution of the eugeoclinal terranes in the central Scandinavian Caledonides. In The Caledonide Orogen – Scandinavia and Related Areas (eds. Gee, D. G. & Sturt, B. A.), pp. 953–77. Chichester: Wiley.Google Scholar
Stephens, M. B., Gustavson, M., Ramberg, I. B. & Zachrisson, E. 1985. The Caledonides of Central-North Scandinavia – a tectonostratigraphic overview. In The Caledonide Orogen – Scandinavia and Related Areas (eds. Gee, D. G. & Sturt, B. A.), pp. 135–62. Chichester: Wiley.Google Scholar
Stephens, M. B. & van Roermund, H. L. M. 1984. Occurrence of glaucophane and crossite in eclogites of the Seve Nappes, southern Norrbotten Caledonides, Sweden. Norsk geologisk Tidsskrift 64, 155–63.Google Scholar
Sturt, B. A., Roberts, D. & Furnes, H. 1984. A conspectus of Scandinavian Caledonian ophiolites. In Ophiolites and Oceanic Lithosphere (eds. Gass, I. G., Lippard, S. J. & Shelton, A. W.), pp. 381–91. Special Publication of the Geological Society of London.Google Scholar
Sundblad, K. 1980. A tentative ‘volcanogenic’ formation model for the sediment-hosted Ankarvattnet Zn-Cu-Pb massive sulphide deposit, central Swedish Caledonides. Norges geologiske Undersøkelse 360, 211–27.Google Scholar
Vogt, T. 1927. Sulitelmafeltets geologi og petrografi. Norges geologiske Undersøkelse 121, 1560.Google Scholar
Watterson, J. 1986. Fault dimensions, displacements and growth. Pure and Applied Geophysics 124, 365–73.CrossRefGoogle Scholar
Wilson, M. R. 1971. The timing of orogenic activity in the Bodø-Sulitjelma tract. Norges geologiske Undersøkelse 269, 184–90.Google Scholar
Wilson, M. R.. 1972 a.Excess radiogenic argon in metamorphic amphiboles and biotites from the Sulitjelma region, Central Scandinavian Caledonides. Earth and Planetary Science Letters 14, 403–12.CrossRefGoogle Scholar
Wilson, M. R. 1972 b. Strain determination using rotational porphyroblasts, Sulitjelma, Norway. Journal of Geology 80, 421–31.CrossRefGoogle Scholar
Wilson, M. R. 1981. Geochronological results from Sulitjelma, Norway. Terra Cognita 1, 82.Google Scholar