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2007 | 28 | 2 |

Tytuł artykułu

Type section of the Bravaisberget Formation [Middle Triassic] at Bravaisberget, Western Nathorst Land, Spitsbergen, Svalbard

Warianty tytułu

Języki publikacji

EN

Abstrakty

EN
The Bravaisberget Formation in Spitsbergen embraces an organic carbon-rich, clastic sequence that reflects a general shallow shelf development of the Middle Triassic depositional system in Svalbard. New observations and measurements of the type section of the formation at Bravaisberget in western Nathorst Land allow to present detailed litho- stratigraphical subdivision of the formation, and aid to reconstruct its depositional history. The subdivision of the formation (209 m thick at type section) into the Passhatten, Somovbreen, and Van Keulenfjorden members is sustained after Mørk et al. (1999), though with new position of the boundary between the Passhatten and Somovbreen mbs. The Passhatten Mb is defined to embrace the black shale-dominated sequence that forms the lower and middle parts of the formation (160 m thick). The Somovbreen Mb (20 m thick) is confined to the overlying, calcite-cemented sequence of marine sandstones. The Van Keulenfjorden Mb (29 m thick) forms the topmost part of the formation composed of siliceous and dolomitic sandstones. The formation is subdivided into twelve informal units, out of which eight is defined in the Passhatten Mb (units 1 to 8), two in the Somovbreen Mb (units 9 and 10), and also two in the Van Keulenfjorden Mb (units 11 and 12). Units 1, 3,5,7 and 9 contain noticeable to abundant phosphorite, and are interspaced by four black shale sequences (units 2,4,6, and 8). Unit 9 passes upwards gradually into the main sandstone sequence (unit 10) of the Somovbreen Mb. The base of the Van Keulenfjorden Mb is a discontinuity surface covered by thin phosphorite lag. The Van Keulenfjorden Mb consists of two superimposed sandstone units (units 11 and 12) that form indistinct coarsening-upward sequences. The Bravaisberget Fm records two consequent transgressive pulses that introduced high biological productivity conditions to the shelf basin. The Passhatten Mb shows pronounced repetition of sediment types resulting from interplay between organic-prone, fine-grained environments, and clastic bar environments that focused phosphogenesis. The lower part of the member (units 1 to 5) contains well-developed bar top sequences with abundant nodular phosphorite, which are under- and overlain by the bar side sequences grading into silt- to mud-shale. The upper part of the member (units 6 to 8) is dominated by mud-shale, showing the bar top to side sequence with recurrent phosphatic grainstones in its middle part. Maximum stagnation and deep-water conditions occurred during deposition of the topmost shale sequence (unit 8). Rapid shallowing trend terminated organic-rich environments of the Passhatten Mb, and was associated with enhanced phosphogenesis at base of the Somovbreen Mb (unit 9). Bioturbated sandstones of the Somovbreen Mb (unit 10) record progradation of shallow-marine clastic environments. The sequence of the Van Keulenfjorden Mb (units 11 and 12) was deposited in brackish environments reflecting closure of the Middle Triassic basin in western Svalbard.

Wydawca

-

Rocznik

Tom

28

Numer

2

Opis fizyczny

p.79-122,fig.,ref.

Twórcy

  • Polish Academy of Sciences, Twarda 51/55, 00-818 Warsaw, Poland
autor
autor
autor

Bibliografia

  • Abdullah W.H. 1999. Organic facies variations in the Triassic shallow marine and deep marine shales of central Spitsbergen, Svalbard. Marine and Petroleum Geology 16: 467-481.
  • Birkenmajer K. 1977. Triassic sedimentary formations of the Hornsund area, Spitsbergen. Studia Geologica Polonica 51: 7-74.
  • Birkenmajer K. 1981. The geology of Svalbard, the western part of the Barents Sea and the continental margin of Scandinavia. In: A.E.M. Nairn, M. Churkin, Jr. and F.G. Stehli (eds) The Oceanic Basins and Margins 5: 265-329.
  • Buchan S.H., Challinor A., Harland W.B. and Parker J.R. 1965. The Triassic stratigraphy of Svalbard. Norsk Polarinstitutt Skrifter 135: 1-94.
  • Dallmann W.K. (ed.) 1999. Lithostratigraphic Lexicon of Svalbard. Upper Palaeozoic to Quaternary Bedrock. Review and Recommendations for Nomenclature Use. Norsk Polarinstitutt, Tromsø: 318 pp.
  • Dallmann W.K., Hjelle A., Ohta Y., Salvigsen O., Bjornerud M.G., Hauser E.C., Maher H.D. and CrADDOCK C. 1990. Geological Map of Svalbard 1:100,000. Sheet B11G Van Keulenfjorden, Spitsbergen. Norsk Polarinstitutt, Oslo.
  • Dallmann W.K., Andersen A., Bergh S.G., maher H.D. and Ohta Y. 1993a. Tertiary fold- and-thrust belt of Spitsbergen, Svalbard. Norsk Polarinstitutt Meddelelser 128: 46 pp.
  • Dallmann W.K., Birkenmajer K., Hjelle A., Mørk A., Ohta Y., Salvigsen O. and Winsnes T.S. 1993b. Geological Map of Svalbard 1:100,000. Sheet C13G Sørkapp. Text Part. Norsk Polarinstitutt, Oslo: 73 pp.
  • Dallmann W.K., Ohta Y., Elvevold S. and Blomeier D. (eds) 2002. Bedrock Map of Svalbard and Jan Mayen. Norsk Polarinstitutt Temakart No. 33.
  • EGOROV A. Y. and Mørk A. 2000. The East Siberian and Svalbard Triassic successions and their sequence stratigraphical relationships. Centralblatt für Geologie und Paläontologie I, 11-12: 1377-1430.
  • Embry A.F. 1988. Triassic sea-level changes: Evidence from the Canadian Arctic Archipelago. In: C.K. Wilgus, B.S. Hastings, H. Posamentier, J. Van Wagoner, C.A. Ross and C.G.St.C. Kendall (eds) Sea-Level Changes: An Intergated Approach. Society Economic Paleontologists Mineralogists Special Publication 42: 249-259.
  • Embry A.F. 1989. Correlation of Upper Palaeozoic and Mesozoic sequences between Svalbard, Canadian Arctic Archipelago, and northern Alaska. In: J.D. Collinson (ed.) Correlation in Hydrocarbon Exploration. Graham & Trotman, London: 89-90.
  • Embry A.F. and Mørk A. (in press). Large magnitude, tectonically generated sequence boundaries near all Triassic stage boundaries - significance and implications. Polar Research.
  • Embry A.F., Krajewski K.P. and Mørk A. 2002. A Triassic upwelling zone: The Shublik Formation, Arctic Alaska, U.S.A. - Discussion. Journal of Sedimentary Research 72: 740-743.
  • Faleide J.L., Solheim A., Fiedler A., Hjelmestuen B.O., Andersen E.S. and Vanneste K. 1996. Late Cenozoic evolution of the western Barents Sea-Svalbard continental margin. Global and Planetary Change 12: 53-74.
  • Flood B., Nagy J. and Winsnes T.S. 1971. The Triassic succession of Barentsøya, Edgeøya, and Hopen (Svalbard). Norsk Polarinstitutt Meddelelser 100: 1-24.
  • Folk R.L. 1974. Petrology of Sedimentary Rocks. Hemphill Publishing Company, Austin, Texas, 184 pp.
  • Forsberg A. and Bjorøy M. 1983. A sedimentological and organic geochemical study of the Botneheia Formation, Svalbard, with special emphasis on the effects of weathering on the organic matter in shales. In: M. Bjorøy, P. Albrecht, C. Cornford et al. (eds) Advances in Organic Geochemistry 1981. Wiley, Chichester: 60-68.
  • Föllmi K.B., Garrison R.E. and Grimm K.A. 1991. Stratification in phosphatic sediments: Illustrations from the Neogene of California. In: G. Einsele, W. Ricken and A. Seilacher (eds) Cycles and Events in Stratigraphy. Springer-Verlag, Berlin: 492-507.
  • Gulbrandsen R.A. 1970. Relation of carbon dioxide content of apatite of the Phosphoria Formation to regional facies. U.S. Geological Survey Professional Paper 700B: B9-B13.
  • Harland W.B. 1997. The Geology of Svalbard. Geological Society London Memoir 17: 521 pp.
  • Hjelle A., Lauritzen Ø., Salvigsen O. and Winsnes T.S. 1985. Geological Map of Svalbard 1:100,000. Sheet B10G Van Mijenfjorden. Norsk Polarinstitutt, Oslo.
  • Korchinskaya M.V. 1972. Biostratigraphy of Triassic deposits of Svalbard. Bulletin of Canadian Petroleum Geology 20: 742-749.

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Bibliografia

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