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Caledonian nappe geometry in north-central Sweden and basin evolution on the Baltoscandian margin

Published online by Cambridge University Press:  01 May 2009

Rodney A. Gayer
Affiliation:
Department of Geology, University of Wales Cardiff, P.O. Box 914, Cardiff CF1 3YE, U.K.
Reinhard O. Greiling
Affiliation:
Geologisch–Paläontologisches Institut, Ruprecht Karls Universität, INF 234, D-6900 Heidelberg, Federal Republic of Germany

Abstract

Structural analysis of the Lower Allochthon in the north-central Scandinavian Caledonides has allowed the construction of restorable cross-sections consistent with the development of a foreland-propagating linked thrust system. The internal geometry of an antiformal stack, the Njakafjäll duplex, within the Lower Allochthon demonstrates tectonic shortening of c. 50% and suggests an overall predeformational width for the Lower Allochthon in this area of at least c. 130 km, and possibly considerably greater if the buried trailing edge of the Lower Allochthon lies in a comparable position to that farther south in Tröndelag. These results, combined with a stratigraphic analysis of the imbricates within the Lower Allochthon and of the adjoining Autochthon and Middle Allochthon, indicate the development, from Proterozoic through Cambrian times, of two sedimentary basins on the c. 200 km wide continental margin of Baltica bordering the Iapetus Ocean. The basins were separated by a region of basement relief, the Børgefjell domain, above which a reduced sequence of Vendian to Cambrian rocks accumulated. This Børgefjell basement high, and the similar Njakafjäll basement high to the east, subsequently became the sites of antiformal stack development. It is argued that the frequent incorporation of basement into the thrust sheets, together with the thin sedimentary fill of these basins, compared with the much greater fill in basins to the south in Jämtland and to the north of Finnmark, implies major palaeogeographic changes along the Baltoscandian margin, possibly related to early rift geometries. The apparent lack of subsequent foreland basin development in north-central Scandinavia compared with areas to the south may indicate a deeper level of thrust detachment beneath the Middle Allochthon to the north, such that any foreland basin sediments have been removed in the hangingwall and subsequently eroded. An alternative possibility is a primary absence of foreland basin development that may relate to a differing response to thrust loading by continental lithosphere which had been variably thinned during the earlier rift regime.

Type
Articles
Copyright
Copyright © Cambridge University Press 1989

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References

Anderson, M. W. 1989. Basement-cover evolution during Caledonian orogenesis. Troms, N. Norway. In The Caledonide Geology of Scandinavia (ed. Gayer, R. A.), pp. 101–10. London: Graham & Trotman.CrossRefGoogle Scholar
Andersson, A., Dahlman, B., Gee, D. G. & Snäll, S. 1985. The Scandinavian Alum Shales. Sveriges Geologiska Undersökning Ca. 56, 150.Google Scholar
Barker, A. J. 1989. Metamorphic evolution of the Caledonian nappes, north central Scandinavia. In The Caledonide Geology of Scandinavia (ed. Gayer, R. A.), pp. 193204. London: Graham & Trotman.CrossRefGoogle Scholar
Bjørlykke, K., Elvsborg, A. & Høy, T. 1976. Late Precambrian sedimentation in the central sparagmite basin of South Norway. Norsk Geologisk Tidsskrift 56, 233–90.Google Scholar
England, P. C. & Richardson, S. W. 1977. The influence of erosion upon the mineral facies of rocks from different metamorphic environments. Journal of the Geological Society of London 134, 201–13.CrossRefGoogle Scholar
Foslie., S. & Strand, T. 1958. Namsvatnet med en del av Fröyningsfjell. Norges Geologiske Undersokelse 196, 182.Google Scholar
Gayer, R. A., Rice, A. H. N., Roberts, D., Townsend, C. & Welbon, A. 1987. Restoration of the Caledonian Baltoscandian margin from balanced cross-sections: the problem of excess continental crust. Transactions of the Royal Society of Edinburgh: Earth Sciences 78, 197217.CrossRefGoogle Scholar
Gayer, R. A. & Rice, A. H. N. 1989. Palaeogeographic reconstruction of the pre- to syn-lapetus rifting sediments in the Caledonides of Finnmark, N. Norway. In Caledonide Geology of Scandinavia (ed. Gayer, R. A.), pp. 127–39. London: Graham & Trotman.CrossRefGoogle Scholar
Gee, D. G. 1975. A tectonic model for the central part of the Scandinavian Caledonides. American Journal of Science 275A, 468515.Google Scholar
Gee, D. G., Guezou, J.-C., Roberts, D. & Wolff, F. C. 1985. The central-southern part of the Scandinavian Caledonides. In The Caledonide Orogen – Scandinavia and Related Areas (ed. Gee, D. G.Sturt, B. A.), pp. 109–33. Chichester: Wiley.Google Scholar
Gee, D. G., Karis, L., Kumpulainen, R. & Thelander, T. 1974. A summary of Caledonian front stratigraphy, northern Jämtland, southern Västerbotten, central Swedish Caledonides. Geologiska Föreningens i Stockholm Förhandlingar 96, 89397.CrossRefGoogle Scholar
Gee, D. G., Kumpulainen, R. & Thelander, T. 1978. The Tåsjö décollement, central Swedish Caledonides. Sveriges Geologiska Undersökning C472, 35pp.Google Scholar
Gee, D. G. & Zachrisson, E. 1979. The Caledonides in Sweden. Sveriges Geologiska Undersökning C769, 148.Google Scholar
Gee, D. G., Kumpulainen, R., Roberts, D., Stephens, M. B., Thon, A. & Zachrisson, E. 1985. Scandinavian Caledonides – Tectonostratigraphic map. Sveriges Geologiska Undersökning Ba 35.Google Scholar
Greiling, R. O. 1974. Das kristalline, präkambrische Grundgebirge im östlichsten Teil des Børgefjell-Fensters (Zentrale Kaledoniden Skandinaviens). Geologiska Föreningens i Stockholm Förhandlingar 96, 247–51.CrossRefGoogle Scholar
Greiling, R. O. 1981. Caledonian thrusting in the basement rocks of the Børgefjell window (north-central Scandinavian Caledonides) as related to major nappe transport. Terra Cognita 1, 47.Google Scholar
Greiling, R. O. 1982. Precambrian basement complexes in the north-central Scandinavian Caledonides and their Caledonian tectonic evolution. Geologische Rundschau 71, 8593.CrossRefGoogle Scholar
Greiling, R. O. 1985. Strukturelle and metamorphe Entwicklung an der Basis grosser, weittransportierter Deckeneinheiten am Beispiel des Mittleren Allochthons in den zentralen Skandinavischen Kaledoniden (Stalon-Deckenkomplex in Västerbotten, Schweden). Geotektonische Forschungen 69, 1129.Google Scholar
Greiling, R. O. 1988. Ranseren berggrunskart 2025/3, 1:50000, forelopig utgave. Norges Geologiske Undersøkelse.Google Scholar
Greiling, R. O. 1989. The Middle Allochthon in Västerbotten, northern Sweden: tectonostratigraphy and tectonic evolution. In The Caledonide Geology of Scandinavia (ed. Gayer, R. A.), pp. 6977. London: Graham & Trotman.CrossRefGoogle Scholar
Gustavson, M. 1973. Börgefjell–Beskrivelse til det berggrunnsgeologiske gradteigskart J. 19 – 1:100000. Norges Geologiske Undersokelse 298, 143.Google Scholar
Harland, W. B. & Gayer, R. A. 1972. The Arctic Caledonides and earlier oceans. Geological Magazine 109, 289314.CrossRefGoogle Scholar
Hossack, J. R. 1983. A cross-section through the Scandinavian Caledonides constructed with the aid of branch-line maps. Journal of Structural Geology 5, 103–11.CrossRefGoogle Scholar
Kulling, O. 1942. Grunddragen av fjällkedjerandens bergbyggnad inom Västerbottens län. Sveriges Geologiska Undersökning C445, 1320.Google Scholar
Kulling, O. 1972. The Swedish Caledonides. In Scandinavian Caledonides (ed. Strand, T. Kulling, O.), pp. 147302. Chichester: Wiley.Google Scholar
Kulling, O. 1982. Övresikt över södra Norbottensfjällens kaledonberggrund. Sveriges Geologiske Undersökning Ba 26, 1295.Google Scholar
Kumpulainen, R. & Nystuen, J. P. 1985. Late Proterozoic basin evolution and sedimentation in the westernmost part of Baltoscandia. In The Caledonide Orogen – Scandinavia and Related Areas (ed. Gee, D. G. Sturt, B. A.), pp. 213–32. Chichester: Wiley.Google Scholar
Lindqvist, J.-E. 1988. Tectonic implications of U-, Moand V-enriched graphitic phyllites in the Høgtuva and Nasafjäll Windows, Scandinavian Caledonides. Norsk Geologisk Tidsskrift 68, 187–99.Google Scholar
Nystuen, J. P. 1982. Late Proterozoic basin evolution on the Baltoscandian craton: the Hedmark Group, southern Norway. Norges Geologiske Undersøkelse 375, 174.Google Scholar
Nystuen, J. P. 1987. Synthesis of the tectonic and sedimentological evolution of the late Proterozoic – early Cambrian Hedmark Basin, the Caledonian Thrust Belt, southern Norway. Norsk Geologisk Tidsskrift 67, 395418.Google Scholar
Rice, A. H. N., Bevins, R. E., Robinson, D. & Roberts, D. 1989. Evolution of low grade metamorphic zones in the Caledonides of Finnmark. In The Caledonide Geology of Scandinavia (ed. Gayer, R. A.), pp. 177–91. London: Graham & Trotman.CrossRefGoogle Scholar
Roberts, D. & Gale, G. H. 1978. The Caledonian–Appalachian Iapetus Ocean. In Evolution of the Earth's Crust (ed. Tarling, D.H.), pp. 255342. London: Academic PressGoogle Scholar
Sjedlecka, A. 1975. Late Precambrian stratigraphy and structures of the north-eastern margin of the Fennoscandian Shield (East Finnmark–Timan Region). Norges Geologiske Undersøkelse 316, 313–48.Google Scholar
Sigmond, E. M. O., Gustavson, M. & Roberts, D. 1984. Berggrunskart over Norge – M 1:1 million. Norges Geologiske Undersøkelse.Google Scholar
Stephens, M. B. 1977. Stratigraphy and relationship between folding, metamorphism and thrusting in the Tärna–Björkvattnet area, northern Swedish Caledonides. Sveriges Geologiska Undersökning C726, 1146.Google Scholar
Stockmal, G., Beaumont, C. & Boutilier, R. 1986. Geodynamic models of convergent margin tectonics: transition from rifted margin to overthrust belt and consequences for foreland-basin development. American Association of Petroleum Geologists Bulletin 70, 181–90.Google Scholar
Strand, T. & Kulling, O. 1972. Scandinavian Caledonides. Chichester: Wiley. 302pp.Google Scholar
Zachrisson, E. 1969. Caledonian geology of northern Jämtland – southern Västerbotten. Sveriges Geologiska Undersökning C644, 133.Google Scholar