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Salt tectonics in the southern North Sea, the Netherlands

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Book cover Geology of Gas and Oil under the Netherlands

Abstract

In the Netherlands sector of the continental shelf salt structures are almost exclusively formed by Zechstein salt. Almost without exception these are related to basement faults, which have controlled the relative location of the salt structures, the triggering of salt movement, and the rate of salt movement. Differences in development of salt diapirs coincide with structural units. Dip-slip movement along basement faults enabled the upward flow of salt, because it weakened the overburden and created a differential stress field due to differential loading. Buoyancy related to density inversion alone seems insufficient to deform the overburden. Faulting is the trigger mechanism for the salt movement. The larger the throw on the fault, the further the salt structures will develop. A relationship has been proven between the timing of deformation phases and increased intensity of salt movement. It is shown that the intersection of fault systems in the basement is reflected in the geometry of the salt structures. In the study area, many hydrocarbon accumulations are related to salt structures. The hydrocarbons have been trapped in configurations, either structural or stratigraphie, that formed in response to the formation of the salt structures. Salt generally acts as a seal, but migration routes for hydrocarbons from below-salt source rocks into higher strata occur in areas of salt depletion. The study is mainly based on 2000 km of a regional 2D seismic survey (SNST83, Nopec/Geco-Prakla).

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References

  • Dronkert, H., S.D. Nio, W. Kouwe, N. Van der Poel & Y. Baumfalk 1989 Buntsandstein of the Netherlands Offshore. Non-exclusive Study Intergeos BV, Leiderdorp, 3 vols.: 450 pp

    Google Scholar 

  • Dronkert, H. & G. Remmelts 1995 Influence of salt structures on reservoir rocks in block L-2, Dutch continental shelf. In: Rondeel, H.E., D.A.J. Batjes & W.H. Nieuwenhuijs (eds) Geology of gas and oil under the Netherlands — this volume

    Google Scholar 

  • Duyverman, HJ., K. Geil, O. Michelsen & K. Sorensen 1991 Tertiary geology and prospectivity of the Netherlands’ northern off-shore — Paper presented at the Eur. Ass. Petroleum Geosc. Conference at Florence. No E021.

    Google Scholar 

  • ECL (Exploration Consultants Ltd.) 1983 Offshore Netherlands, petroleum exploration appraisal, vol. 1. Regional exploration review — Exploration Consultants Ltd., Henley on Thames, 110 PP

    Google Scholar 

  • Fontaine, J.M., G. Guastella, P. Jouault & P. de la Vega 1993 Fl 5-A: a Triassic gas field on the eastern limit of the Dutch Central Graben. In: Parker, J.R. (ed.) Petroleum Geology of Northwest Europe: Proc. 4th Conference London 1992 — Geol. Soc, London: 583–593

    Chapter  Google Scholar 

  • Foster, P.T. & P.R. Rattey 1993 The evolution of a fractured chalk reservoir: Machar oilfield, UK North Sea. In: Parker, J.R. (ed.) Petroleum geology of Northwest Europe: Proc. 4th Conference London 1992 — Geol. Soc, London: 1445–1452

    Chapter  Google Scholar 

  • Hancock, J.M. & PA Scholle 1975 Chalk of the North Sea. In: Woodland, A.W. (ed.) Petroleum and the continental shelf of North West Europe, vol. 1 Geology — Applied Science Publishers, London:413–427

    Google Scholar 

  • Heybroek, P. 1975 On the structure of the Dutch part of the Central North Sea Graben. In: Woodland A.W. (ed.) Petroleum and the continental shelf of North West Europe, vol. 1 Geology — Applied Science Publishers, London: 339–351

    Google Scholar 

  • Houlleberghs, E., P. Haltmeier & J. Van De Sande 1993 Use of Prediction Techniques in an Integrated Study of the L5 Field, Offshore Netherlands — Am. Ass. Petroleum Geol. Bull. 77: 1631 (Abstr.)

    Google Scholar 

  • Jaritz, W 1987 The origin and development of salt structures in northwest Germany. In: Lerche, I., & J.J. O’Brien (eds) Dynamical geology of salt and related structures — Academic Press, Orlando: 480–493

    Google Scholar 

  • Jenyon, M.K. 1986 Salt tectonics — Elsevier Applied Science Publ., London/New York: 191 pp

    Google Scholar 

  • Jørgensen, L.N. & P.M. Andersen 1991 Integrated study of the Kraka Field — Soc. Petroleum Eng. Paper 23082

    Google Scholar 

  • Koyi, H. 1991 Gravity overturns, extension and basement fault activation—J. Petroleum Geol. 14: 117–142

    Article  Google Scholar 

  • Koyi, H., M.K. Jenyon & K. Petersen 1993 The effect of basement faulting on diapirism — J. Petroleum Geol. 16: 285–312

    Article  Google Scholar 

  • Megson, J.B. 1991 The North Sea Chalk-play: Examples from the Danish Central Graben. In: Hardman, R.F.P. (ed) Exploration Britain: Geological insights for the next decade — Geol. Soc, London, Spec Publ. 67: 247–281

    Google Scholar 

  • Ministry of Economic Affairs 1984–1993 Olie en Gas in Nederland opsporing en winning/Oil and gas in the Netherlands exploration and production— Ministry of Economic Affairs, The Hague (published yearly)

    Google Scholar 

  • Oudmayer, B.C. & J. De Jager 1993 Fault reactivation and oblique-slip in the Southern North Sea. In: Parker, J.R. (ed.) Petroleum geology of Northwest Europe: Proc 4th Conference London 1992 — Geol. Soc, London: 1281–1292

    Chapter  Google Scholar 

  • Remmelts, G., E. Muyzert, D.J. van Rees, M.C. Geluk, C.C. de Ruyter & A.F.B. Wildenborg 1993 Evaluation of salt bodies and their overburden in the Netherlands for the disposal of radioactive waste, b. Salt movement — Rijks Geologische Dienst, Haarlem, report 30.012B/ERB: 87 pp

    Google Scholar 

  • Sanneman, D. 1963 Über Salzstock-Familien in NW-Deutschland — Erdöl. Z. 79: 499–596

    Google Scholar 

  • Sanneman, D. 1968 Saltz-stock Families in Northwestern Germany. In: Diapirism and diapirs — Am. Ass. Petroleum Geol. Mem. 8: 261–270

    Google Scholar 

  • Trusheim, F 1957 Über Halokinese und ihre Bedeutung für die structurelle Entwickelung Norddeutschlands — Z. dt.geol. Ges. 109:111–151

    Google Scholar 

  • Trusheim, F. 1960 Mechanism of salt migration — Am. Ass. Petroleum Geol. Bull. 44: 1519–1540

    Google Scholar 

  • Tsai, EC, J.E. O’Rourke & W. Silva 1987 Basement rock faulting as a primary mechanism for initiating major salt deformation features. In: Proc. 28th Symposium on Rock Mechanics, Tucson, USA: 621–631

    Google Scholar 

  • Van Adrichem Boogaert, H.A. & W.FP. Kouwe (compilers) 1993 – 1994 Stratigraphie nomenclature of the Netherlands, revision and update by RGD & NOGEPA - Med. Rijks Geol. Dienst 50 (loose- leaf publication)

    Google Scholar 

  • Van Hoorn, B. 1987 Structural evolution, timing and tectonic style of the Sole Pit inversion — Tectonophysics 137: 239–284

    Google Scholar 

  • Van Wijhe, D.H. 1987 Structural evolution of inverted basins in the Dutch offshore — Tectonophysics 137: 171–219

    Article  Google Scholar 

  • VUA (Vrije Universiteit, Amsterdam), Sectie Structurele Geologie/Tektoniek 1992a Intraplaattektoniek, bekkenmodellering en zoutdiapirisme. Impiementatietechnieken. Tussenrapportage OPLA project februari 1992, OPLA92–56

    Google Scholar 

  • VUA (Vrije Universiteit, Amsterdam), Sectie Structurele Geologie/Tektoniek 1992b Intraplaattektoniek, bekkenmodellering en zoutdiapirisme. Inhoudelijke deelstudie: Modellering Deel 1 en 2. Tussenrapportage OPLA project augustus 1992, OPLA92–76

    Google Scholar 

  • Ziegler, P.A. 1987 Late-Cretaceous intra-plate compressional deformations in the Alpine foreland — a geodynamic model — Tectono- physics 137: 389–420

    Article  Google Scholar 

  • Ziegler, P.A. 1990 Geological Atlas of Western and Central Europe — Shell Int. Petr. Mij. The Hague: 239 pp

    Google Scholar 

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Author information

Authors and Affiliations

  1. Geological Survey of the Netherlands, Postbus 157, 2000 AD, Haarlem, the Netherlands

    G. Remmelts

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  1. G. Remmelts
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Editors and Affiliations

  1. Institute of Earth Sciences, Vrije Universiteit, Amsterdam, the Netherlands

    H. E. Rondeel

  2. The Hague, the Netherlands

    D. A. J. Batjes

  3. Delft University of Technology, Delft, the Netherlands

    W. H. Nieuwenhuijs

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© 1996 Kluwer Academic Publishers

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Remmelts, G. (1996). Salt tectonics in the southern North Sea, the Netherlands. In: Rondeel, H.E., Batjes, D.A.J., Nieuwenhuijs, W.H. (eds) Geology of Gas and Oil under the Netherlands. Springer, Dordrecht. https://doi.org/10.1007/978-94-009-0121-6_13

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  • DOI: https://doi.org/10.1007/978-94-009-0121-6_13

  • Publisher Name: Springer, Dordrecht

  • Print ISBN: 978-94-010-6541-2

  • Online ISBN: 978-94-009-0121-6

  • eBook Packages: Springer Book Archive

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