Hostname: page-component-78c5997874-mlc7c Total loading time: 0 Render date: 2024-11-16T21:15:21.008Z Has data issue: false hasContentIssue false

Structural evolution of a frontal ramp section of the West Spitsbergen, Tertiary fold and thrust belt, north of Isfjorden, Spitsbergen

Published online by Cambridge University Press:  01 May 2009

Ole Petter Wennberg
Affiliation:
Department of Geology, University of Oslo, Postbox 1047, Blindern, 0316 Oslo, Norway
Arild Andresen
Affiliation:
Department of Geology, University of Oslo, Postbox 1047, Blindern, 0316 Oslo, Norway
Sigurd Hansen
Affiliation:
Department of Geology, University of Tromsø, Norway
Steffen G. Bergh
Affiliation:
Department of Geology, University of Tromsø, Norway

Abstract

The geometry and kinematic evolution of a frontal ramp section associated with the Tertiary West Spitsbergen Orogenic Belt has been investigated in a small area (Lappdalen) north of Isfjorden. The previously recognized thrust front corresponds to a complex step or ramp in the position of the sole-thrust in the area. The sole-thrust is localized to the evaporites of the Permian Gipshuken Formation to the west of the footwall ramp, whereas to the east it continues as a bedding-parallel thrust in Triassic shales (Sassendalen Group). The area to the west of the footwall ramp is characterized by large scale thrusts and folds involving the Permian Gipshuken and Kapp Starostin formations and the lower part of the Triassic Sassendalen Group. East of the footwall ramp both Permian and Triassic strata are sub-horizontal and apparently undeformed. Three major thrust sheets are recognized. Based on the geometric relationship between folds and faults in the area, both fault-bend and fault-propogation mechanisms of folding are inferred. Restoration of the Kapp Starostin Formation to its pre-deformational state indicates a minimum of 35% shortening. Structural observations within the Sassendalen Group in the study area and on Dickson Land suggest that some of this shortening is transmitted eastwards along one or more bedding parallel thrusts in the Sassendalen Group.

Type
Articles
Copyright
Copyright © Cambridge University Press 1994

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

Andresen, A., Haremo, P., Swensson, E. & Bergh, S. G. 1992. Structural geology around the southern termination of the Lomfjorden Fault Complex, Agardhdalen, Spitsbergen. Norsk Geologisk Tidskrift 72, 8391.Google Scholar
Banks, C. J. & Warburton, J. 1986. ‘Passive roof’ duplex geometry in the frontal structures of the Kirthar and Sulaiman Mountain Belts, Pakistan. Journal of Structural Geology 8, 229–37.CrossRefGoogle Scholar
Bergh, S., Andresen, A., Bergvik, A. & Hansen, A. I., 1988. Tertiary thin-skinned compressional deformation on Oscar II Land, Central Vest-Spitsbergen. Norsk Polarinstitutt, Rapport 46, 51–4.Google Scholar
Bergh, S. & Andresen, A. 1990. Structural development of the Tertiary fold and thrust belt in east Oscar II Land, Spitsbergen. Polar Research 8, 217–36.CrossRefGoogle Scholar
Cutbill, J. L. & Challinor, A. 1965. Revision of the Stratigraphical Scheme for the Carboniferous and Permian Rocks of Spitsbergen and Bjørnøya. Geological Magazine 102, 418–39.CrossRefGoogle Scholar
Dallmann, W. K., Ohta, Y. & Andresen, A. (eds). 1988. Tertiary Tectonics of Svalbard.Norsk Polarinstitutt Rapport no. 46. Oslo, 110 pp.Google Scholar
Dahlstrøm, C. D. A. 1969. Balanced cross-sections. Canadian Journal of Earth Science 6, 743–57.CrossRefGoogle Scholar
Frebold, H. 1935. Geologie von Spitsbergen, der Bäreninsel, des König Karl-und Franz-Joseph-Landes. Geologie der Erde,Berlin, 195 pp.Google Scholar
Haremo, P. & Andresen, A. 1990. Tertiary décollement thrusting and inversion along Billefjorden and Lomfjorden Fault Zones, east central Spitsbergen. In Proceedings of the conference on structural and tectonic modelling and its application on to petroleum geology. Stavanger 18–20 10 1989 (eds Larsen, R. M., Brekke, H., Larsen, B. T. and Talleraas, E.), pp. 481–94. Norwegian Petroleum Society Special Publication 1. Amsterdam: Elsevier.Google Scholar
Haremo, P., Andresen, A., Dypvik, H., Nagy, J., ElverhøI, A., Elkeland, T. A. & Johansen, H. 1990. Structural development along the Billefjorden Fault Zone in the area between Kjellstrømdalen and Adventdalen/Sassendalen, central Spitsbergen. Polar Research 8, 195216.Google Scholar
Harland, W. B. 1969. Contribution of Spitsbergen to understanding of tectonic evolution of the North Atlantic region. In Atlantic geology and continental drift (ed. Kay, M.), pp. 817–51. American Association of Petroleum Geologists, Memoir no. 12.Google Scholar
Harland, W. B. & Horsfield, W. T. 1974. West Spitsbergen orogen. In Mesozoic-Cenozoic Orogenic Belts; Data for Orogenic Studies (ed. Spencer, A. M.), pp. 747–55. Special Publication of the Geological Society, London no. 4.Google Scholar
Harland, W. B., Mann, A. & Townsend, C. 1988. Deformation of Anhydrite-gypsum rocks in central Spitsbergen. Geological Magazine 125, 103–16.CrossRefGoogle Scholar
Jamison, W. R. 1987. Geometric analyses of fold development in overthrust terranes. Journal of Structural Geology 9, 207–19.CrossRefGoogle Scholar
Jordan, P. & Noack, T. 1992. Hangingwell geometry of overthrusts emanating from ductile decollements. In Thrust tectonics (ed. McClay, K. R.), pp. 311–18. London: Chapman & Hall.CrossRefGoogle Scholar
Lowell, J. D. 1972. Spitsbergen Tertiary Orogenic Belt and the Spitsbergen Fracture Zone. Bulletin of the Geological Society of America 83, 3091–102.CrossRefGoogle Scholar
Maher, D. H. 1988. Photointerpretation of Tertiary structures in platform cover strata of interior Oscar II Land, Spitsbergen. Polar Research 6, 155–72.CrossRefGoogle Scholar
Mitra, S. 1986. Duplex structures and imbricate thrust systems: geometry, structural position, and hydrocarbon potential. American Association of Petroleum Geologists Bulletin 70, 10871112Google Scholar
Mørk, A., Knarud, R. & Worsley, D. 1982. Depositional and diagenetic environments of the Triassic and Lower Jurassic succession of Svalbard. In Arctic Geology and Geophysics (eds Embry, M. and Balkwitt, H. R.), pp. 371–98. Canadian Society of Petroleum Geologists, Memoir no. 8.Google Scholar
Morley, C. K. 1988. Out-of-sequence thrusts. Tectonics 7, 539–61.CrossRefGoogle Scholar
Orvin, A. K. 1940. Outline of the Geological History of Spitsbergen. Skr. Svalbard og Ishavet no. 78, 57 pp.Google Scholar
Parker, J. R. 1966. Folding, faulting and dolerite intrusion in the Mesozoic rocks of the fault zone of central Spitsbergen. Norsk Polarinstitutt Årbok 1964, 4755.Google Scholar
Rich, J. L. 1934. Mechanics of low-angle overthrust faulting illustrated by Cumberland thrust block Virginia Kentucky and Tennessee. American Association of Petroleum Geologists Bulletin 18, 1584–6.Google Scholar
Ringseth, N. & Andresen, A. 1988. The Gipshuken Fault System – evidence for Tertiary thrusting along the Billefjorden Fault Zone. Norsk Polarinstitutt Rapport 46, 6770Google Scholar
Steel, R.J. & Worsley, D. 1984. Svalbard's post-Caledonian strata – an atlas of sedimentational patterns and paleogeographic evolution. In Petroleum Geology of the North European Margin (eds Spencer, A. M. and others), pp. 109–35. Proceedings of the North European Margin Symposium. London: Graham & Trotman.CrossRefGoogle Scholar
Suppe, J. 1983. Geometry and kinematics of fault-bend folding. American Journal of Science 283, 684721.CrossRefGoogle Scholar
Suppe, J. & Medwedeff, D. A. 1984. Fault-propagation folding. Geological Society of America 1984 Annual Meeting. Program with abstracts 16, 670.Google Scholar
Welbon, A. & Andresen, A. 1992. The Pretender Lineament – Structural and stratigraphic significance of a major lineament in Western Spitsbergen. Abstract, Symposium on Post-Devonian Evolution of Svalbard, University of Oslo 15–16 11 1990. Norsk Geologisk Tidsskrift 72, 139.Google Scholar
Welbon, A. & Maher, H. D. Jr 1992. Tertiary tectonism and basin inversion of the St Jonsfjorden region, Svalbard. Journal of Structural Geology 14, 4155CrossRefGoogle Scholar
Winsnes, T. S. 1988. Geological map 1:1000000. Bedrock map of Svalbard and Jan Mayen. Norsk Polarinstitutt, Temakart 3.Google Scholar