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Meteorytowy krater Mjølnir na Morzu Barentsa w interpretacjach stratygraficznych

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Warianty tytułu
EN
The meteorite Mjølnir crater in the Barents Sea in stratigraphical interpretations
Języki publikacji
PL
Abstrakty
EN
The Mjølnir submarine crater attaining about 40 kilometers in diameter on the Barents Shelf is one of the largest meteorite craters in the World. It was formed in the earliest Ryzanian as proved by the ammonite datings of the ejecta bearing strata in the boreholes in the Barents Sea. The iridium anomalies related to that impact were recognized also on central Spitsbergen, and in Nordvik Peninsula of northern Siberia . The Mjølnir impact resulted in a large scale reworking and redeposition of sediments in the Boreal Sea across the Late Volgian and Ryazanian transition as documented e.g. in a close neighbourhood of the crater, but also in more distal successions in central Spitsbergen. So far, no unequivocal proof of this event was documented in more southern areas in Europe, but the detailed studies of complete successions in the nonmarine Purbeck-type facies in north-western and central Poland seem to be promising in this respect. This could allow for correlation of the Boreal ammonite subdivision with that based on the ostracodes. The palaeomagnetic studies of the continuous succession in the Nordvik Peninsula section of the uppermost Upper Volgian and Lower Ryazanian yielded also new information on the correlation between the Boreal and the Mediterranean biostratigraphical zonal schemes which is especially importantfor recognition of the uniform Jurassic-Cretaceous boundary in the World. The recent results of these studies indicate that the Mjolnir impact took place during magnetozone 17 r which suggests the correlation of that event with the boundary of the Jacobi and Occitanica ammonite zones corresponding to the boundary of the Lower and the Middle Berriasian of the Mediterranean domain. This confirms an opinion that the Volgian-Ryazanian boundary of the Boreal domain is placed much higher than the Tithonian-Berriasian boundary in the Tethyan domain - treated as a main candidate level for the uniform Jurassic-Cretaceous boundary in the World.
Rocznik
Strony
516--522
Opis fizyczny
Bibliogr. 45 poz., tab., wykr.
Twórcy
  • Państwowy Instytut Geologiczny - Państwowy Instytut Badawczy, ul. Rakowiecka 4, 00-975 Warszawa
autor
  • Państwowy Instytut Geologiczny - Państwowy Instytut Badawczy, ul. Rakowiecka 4, 00-975 Warszawa
Bibliografia
  • 1. BRAGIN VYU., DZYUBA O.S., KAZANSKY A.YU. & SHURYGIN B.N. 2013 - New magnetostratigraphic data on the Jurassic-Cretaceous boundary interval of Nordvik Peninsula (north of Eastern Siberia). Russian Geol. and Geoph., 54: 335-348.
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  • 6. DYPVIK H. & ZAKHAROV V. 2010 - Late Jurassic/Early Cretaceous phosphates of Nordvik, North Siberian Basin. Polar Research, 29: 235-249.
  • 7. DYPVIK H., GUDLAUGSSON S.T., TSIKALAS F., ATTREP M., FERRELL R.E., KRINSLEY D.K., M0RK A., FALEIDE J.I. & NAGY J. 1996 - Mj0lnir structure: an impact crater in the Barents Sea. Geology, 24: 779-782.
  • 8. DYPVIK H., KYTE F.T. & SMELROR M. 2000 - Iridium peaks and algal blooms - the Mjnlnir impact. Abstr. 31 st. Lunar and Planetary Conference, Houston, Texas, March 13-17: 1538.
  • 9. DYPVIK H., SANDBAKKEN P.T., POSTMA G. & M0RK A. 2004a - Early post-impact sedimentation around the central high of the Mj0lnir impact crater (Barents Sea, Late Jurassic). Sedim. Geol., 168: 227-247.
  • 10. DYPVIK H., M0RK A., SMELROR M., SANDBAKKEN P.T., TSIKALAS F., VIGRAN J.O., BREMER G.M.A., NAGY J., GBRIELSEN R.H., FALEIDE J.I., BAHIRU G.M. & WEISS H.M. 2004b - Impact breccias and ejecta from the Mjnlnir crater in the Barents Sea - the Ragnarok Formation and Sindre Bed. Norwegian J. Geol., 84: 143-167.
  • 11. DYPVIK H., SMELROR M., M0RK A. & TSIKALAS F. 2010 - Ejecta geology. [W:] Dypvik H., Tsikalas F. & Smelror M. (red.) The Mjnlnir impact event and its consequences. Geology and geophysics of a Late Jurassic/Early Creteceous marine impact event. Springer, 175-194.
  • 12. DZYUBA O.S. 2012 - Belemnites and biostratigraphy of the Jurassic- -Cretaceous boundary deposits of the Northern East Siberia: new data on the Nordvik peninsula. Stratigraphy and Geological Correlations, 20, 1: 53-72.
  • 13. GLIMSDAL S., PEDERSEN G.K., LANGTANGEN H.P., SHUVALOV V. & DYPVIK H. 2010 - The Mj0lnir tsunami. [ W: ] Dypvik H., Tsikalas F. & Smelror M. (red.) The Mj0lnir impact event and its consequences. Geology and geophysics of a Late Jurassic/Early Creteceous marine impact event. Springer, 257-271.
  • 14. GRABOWSKI J. 2011 - Magnetostratigraphy of the Jurassic-Cretace- ous boundary interval in the Western Tethys and its correlations with other regions: a review. Volumina Jurassica, 9: 105-128.
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  • 18. GUZHIKOV A.YU. 2013 -Solving unsolvable problems in stratigraphy - Comments to the paper "New data on the magnetostratigraphy of the Jurassic-Cretaceous boundary interval, Nordvik Peninsula" (northern East Siberia) by V. Yu. Bragin et al.. Russian Geol. and Geoph., 54: 349-354.
  • 19. HAMMER 0., NAKREM H.A., LITTLE C.T.S., HRYNIEWICZ K., SANDY M.R., DRUCKENMILLER P., KNUTSEN E.M., HURUM J.H. & H0YBERGET M. 2011 - Hydrocarbon seeps from close to the Jurassic-Cretaceous boundary. Palaeogeography, Palaeoclimatology, Palaeoecology, 306: 15-26.
  • 20. HOEDEMAEKER P.J. 1991 - Tethyan -Boreal correlations and the Jurassic-Cretaceous boundary. Newsletters on Stratigraphy, 25: 37-60.
  • 21. HOUSA V., PRUNER P., ZAKHAROV V.A., KOSTAK M., CHADIMA M., ROGOV M.A., SLECHTA S. & MAZUCH M. 2007 - Boreal-Tethyan correlation of the Jurassic-Cretaceous boundary interval by magneto- and biostratigraphy. Stratigraphy and Geological Correlation, 15 (3): 297-309.
  • 22. HUNT C.O. 2004 - Palynostratigraphy of the classic Portland and Purbeck sequences of Dorset, southern England, and the correlation of Jurassic-Cretaceous boundary beds in the Tethyan and Boreal realms. [W:] Beaudoin A.B, Head M.J (red.) The palynology and micropaleontology of boundaries. Geological Society of London, Special Publications, 230: 173-186.
  • 23. KUDIELKA G., KOEBERL C., MONTANARI A., NEWTON J. & REINHOLD W.U. 2001 - Stable isotope and trace element stratigraphy of the Jurassic-Cretaceous boundary, Bosso River Gorge, Italy. [W:] Buffetaut E., Koeberl C (red.) Geological and Biological Effects of Impact Events. Impact studies, vol. 1, Springer, 25-68.
  • 24. MAREK S., RAJSKA M. & SZTEJN J. 1989 - Nowe dane na temat stratygrafii pogranicza jury i kredy w Polsce centralnej (Kujawy). Kwart. Geol.,33: 209-224.
  • 25. MAREK S. & SHULGINA N. 1996 - Biostratigraphic correlation between Lower Creteceous deposits in the central region of East-Euro- pean Platform and the Polish Lowlands. Geol. Quart., 40: 129-140.
  • 26. MCDONALD I., IRVINE J.G., DE VOS E., GALE A.S. & REINOLD W.U. 2006 - Geochemical search for impact signatures in possible impact-generated units associated with the Jurassic-Cretaceous boundary in southern England and northern France. [W:] Cockell Ch., Koeberl Ch., Gilmour I. (red) Biological Processes Associated with Impact Events, Springer, Impact Studies 2006: 257-286.
  • 27. MITTA V.V. 2004 - On the ammonite succession in the Jurassic-Creta- ceous boundary beds of the Moscow Syneclise. Paleontological J., 38: 483-491.
  • 28. OGG J.G. & HINNOV L.A. 2012 - Jurassic. [ W: ] Gradstein F., Ogg J.G., Schmitz M. & Ogg G. (red.) The geologic time scale. Elsevier, 731-791.
  • 29. OGG J.G., HASENYAGER W. & WIMBLEDON W. 1994 - Jurassic- -Cretaceous boundary: Portland-Purbeck magnetostratigraphy and possible correlation to the Tethyan faunal realm. Geobios, 17: 519-527.
  • 30. ROGOV M. & ZAKHAROV V. 2009 - Ammonite- and bivalve-based biostratigraphy and Panboreal correlation of the Volgian Stage. Science in China Series D. Earth Sc., 52: 1890-1909.
  • 31. SCHNYDER J., BAUDIN F. & DECONINCK J-F. 2005 - A possible tsunami deposit around the Jurassic-Cretaceous boundary in the Boulonnais area (northern France). Sedim. Geol., 177: 209-227.
  • 32. SCHULTE P., ALEGRET L., ARENILLAS I., ARZ J.A. i in. 2010 - The Chicxulub asteroid impact and mass extinction at the Cretaceous- -Paleogene boundary. Science, 327: 1214-1218.
  • 33. SHUVALOV V. & DYPVIK H. 2004 - Ejecta formation and crater development of the Mjolnir impact. Meteoritics & Planetary Science, 39:467-479.
  • 34. SHUVALOV V., DYPVIK H. & TSIKALAS F. 2002 - Numerical simulations of the Mjolnir marine impact crater. J. Geoph. Research, 107, E7, 5047, 10.1029/2001JE001698.
  • 35. SMELROR M., KELLY S.R.A., DYPVIK H., M0RK A., NAGY J. & TSIKALAS F. 2001 - Mjolnir (Barents Sea) meteorite impact ejecta offers a Volgian-Ryazanian boundary marker. Newsl. Stratigr., 38: 129-140.
  • 36. SMELROR M. & DYPVIK H. 2005 - Marine microplankton biostratigraphy of the Volgian-Ryazanian boundary strata, western Barents Shelf. NGU-Bull., 443: 61-69.
  • 37. TOMINAGA M. & SAGER W.W. 2010 - Revised Pacific M-anomaly geomagnetic timescale. Geoph. J. Internat., 182: 203-232.
  • 38. TSIKALAS F., GUDLAUGSSON S.T. & FALEIDE J.I. 1998 - Collapse, infilling and postimpact deformation at the Mjolnir impact crater, Barents Sea. Geol. Soc. Amer. Bull., 110: 537-552.
  • 39. TSIKALAS F., FALEIDE J.I., GUDLAUGSSON T. & ELDHOLM O. 2010 a - Impact structure and morphology. [W:] Dypvik H., Tsikalas F. & Smelror M. (red.) The Mjolnir impact event and its consequences. Geology and geophysics of a Late Jurassic/Early Creteceous marine impact event. Springer, 47-74.
  • 40. TSIKALAS F., FALEIDE J.I., WERNER S.C., TORSVIK T., GUDLAUGSSON T. & ELDHOLM O. 2010 b - Impact geophysics and modeling. [W:] Dypvik H., Tsikalas F. & Smelror M. (red.) The Mjolnir impact event and its consequences. Geology and geophysics of a Late Jurassic/Early Creteceous marine impact event. Springer, 75-137.
  • 41. WIERZBOWSKI A., HRYNIEWICZ K., HAMMER 0., NAKREM H.A. & LITTLE C.T.S. 2011 - Ammonites from hydrocarbon seep carbonate bodies from the uppermost Jurassic - lowermost Cretaceous of Spitsbergen and their biostratigraphical importance. N. Jb. Geol. Palaont. Abh., 262: 267-288.
  • 42. WIMBLEDON W.A.P., 2008 - The Jurassic-Cretaceous boundary: an age-old correlative enigma. Episodes, 31: 423-428.
  • 43. WIMBLEDON W.A.P., CASELLATO C.E., REHAKOVA D., BULOT L.G., ERBA E., GARDIN S., VERREUSSEL R.M.C.H., MUNSTERMAN D.K. & HUNT C.O. 2011 - Fixing a basal Berriasian and Jurassic-Cretace- ous (J/K) boundary - is there perhaps some light at the end of the tunnel? Rivista Ital. Pal. Strat, 117: 295-307.
  • 44. ZAKHAROV V.A., NALNYAEVA T.I. & SHULGINAN.I. 1983 - New data on the biostratigraphy of the Upper Jurassic and Lower Cretaceous deposits of the Paksa peninsula, Anabar embayment (north of Middle Siberia). Inst.Geol.Geoph., Siberian Branch Acad. Sci. USSR, 528: 56-99.
  • 45. ZAKHAROV V.A., LAPUKHOV A.S. & SHENFIL O.V. 1993 - Iridium anomaly at the Jurassic-Cretaceous boundary in northern Siberia. Russian J. Geol. Geoph., 34 (1): 83-90.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-23f5437d-d955-4316-ab63-8e4292fa96fc
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