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DOI
Warianty tytułu
Języki publikacji
Abstrakty
The International Berriasian Working Group (ISCS) suggested primary and secondary marker “datums” to fix the basal Berriasian boundary and thus to detine the Jurassic-Cretaceous boundary (Wimbledon et al., 2011, 2013). Two primary markers Calpionella, as well as calcareous nannoplankton, are practically unknown in the Boreal Realm. Testing and calibration of these markers, as well as of fossils of radiolarians and other signals, in the most complete sections, were declared as an important task for the near future. In the Tethys, the Jurassic-Cretaceous boundary based on radiolarians falls inside zone UAZ 13 of Baumgartner et al. (1995), whereas in the palaeo-Pacific it corresponds to the boundary between zones 4 and 5 of Pessagno et al. (2009), and in boreal Siberia it probably falls between the biohorizons of Parvicingula haeckeli and P. khabakovi. The radiolarian events at the Jurassic-Cretaceous boundary in the boreal successions of Russia can be proposed to be used as an additional biomarker to help develop new integrated boundary criteria. Thus, as the first appearance of the zonal species Calpionella alpina, which defines the Jurassic and Cretaceous boundary, coincides with the first occurrence of the calcareous dinocyst zonal species Stomiosphaerina proxima (Reháková, 2000), it is logical to propose a calcareous dinoflagellate, widely represented in the Upper Jurassic-Lower Cretaceous Bazhenovo Formation of Siberia, as a secondary marker.
Czasopismo
Rocznik
Tom
Strony
641--654
Opis fizyczny
Bibliogr. 55 poz., rys., tab.
Twórcy
autor
- Geological Institute, Russian Academy of Sciences, Moscow, 119017 Russia
Bibliografia
- 1. Afanasev, I.S., Gavrilova, E.V., Barun, E.M., Kalmikov, G.A., Balushkina, N.S., 2010. The Bazhenov Suite: unlocking the potential. Rogtec Exploration. Rosneft, 4: 20-25.
- 2. Baraboshkin, E.Yu, Guzhikov, A.Yu., Manikin, A.G., Pimenov, M.V., 2015. Bio- and magnetostratigraphic data on the Jurassic/Cretaceous boundary of the Kashpir and Gorodischi sections (Volga region, Russia). Proceedings volume: The International Scientific Conference on the Jurassic/Cretaceous boundary (eds. E.Yu. Baraboshkin and D.E. Bykov): 25-31. September 7-13, 2015, Samara (Russia). Togliatti, Kassandra.
- 3. Baumgartner, P.O., 1984. A Middle Jurassic-Early Cretaceous low-latitude radiolarian zonation based on Unitary Associations The Jurassic-Cretaceous boundary in Boreal Russia: radiolarian and calcareous dinoflagellate potential biomarkers and age of Tethyan radiolarites. Eclogae Geologicae Helvetiae, 77: 729-837.
- 4. Baumgartner, P.O., INTERRAD Jurassic-Cretaceous Working Group, 1995. Middle Jurassic to Lower Cretaceous Radiolaria of Tethys. Mémoiresde Geologie (Lausanne), 23.
- 5. Bragin, N.Y., 2009. Echinocampidae - new family of Radiolaria of Late Jurassic-Early Cretaceous of the Arctic Siberia (in Russian with English summary). Paleontologičeskij Žurnal, 4: 6-17.
- 6. Bragin, N.Y., 2011. Radiolarians of the Volgian and Berriasian stages of the north of Central Siberia. Stratigraphy and Geological Correlation, 19: 173-187.
- 7. De Wever, P., Dumitrica, P., Caulet, J.-P., Nigrini, C., Caridroit, M. , 2001 . Radiolarians in the Sedimentary Record. Amsterdam, Springer.
- 8. Dyer, R., Copestake, P., 1989. A review of latest Jurassic to earliest Cretaceous Radiolaria and their biostratigraphic potential to petroleum exploration in the North Sea. In: Northwest European Micropaleontology and Palynology (eds. D.J. Batten and M.C. Keen): 213-235. British Micropalaeontological Society, London.
- 9. Hardenbol, J., Thierry, J., Farley, M.B., Jacquin, Th., de Graciansky, P.-C., Vail, P.R. (with numerous contributors), 1998. Mesozoic and Cenozoic sequence chronostratigraphic framework of European basins. SEPM Special Publication, 60: 3-13, 763-781, and chart supplements.
- 10. Hull, D.M., 1997. Upper Jurassic Tethyan and southern Boreal radiolarians from western North America. Micropaleontology, 43 (Supplement 2): 1-202.
- 11. Kiessling, W., 1999. Late Jurassic radiolarians from the Antarctic Peninsula. Micropaleontology, 45: 1-96.
- 12. Kiessling, W., Scasso, R., Zeiss, A., Riccardi, A., Medina, F., 1998. Combined radiolarian-ammonite stratigraphy for the Late Jurassic of the Antarctic Peninsula: implications for radiolarian stratigraphy. Geodiversitas, 21: 687-713.
- 13. Lakova, I., Stoykova, K., Ivanova, D., 1999. Calpionellid, nannofossil and calcareous dinocyst bioevents and integrated biochronology of the Tithonian to Valanginian in the Western Balkanides, Bulgaria. Geologica Carpathica, 50: 151-168.
- 14. Marinov, V.A., 2014. Berriasian Foraminifera from Lena River Delta. Cretaceous system of Russia and the near abroad: problems of stratigraphy and paleogeography. Proceedings of the Seventh Russian Scientific Conference with International Participation, Vladivostok: 197-201.
- 15. Mekik, A.F., 2000. Early Cretaceous Pantanelliidae (Radiolaria) from northwest Turkey. Micropaleontology, 46: 1-30.
- 16. Mekik, A.F., Ling, H.Y., Özkan-Altiner, S., Altiner, D., 1999. Preliminary radiolarian biostratigraphy across the Jurassic-Cretaceous Boundary from northwestern Turkey. Geodiversitas, 21: 715-738.
- 17. Michalik, J., Reháková, D., 2011. Possible markers of the Jurassic/Cretaceous boundary in the Mediterranean Tethys: a review and state of art. Geoscience Frontiers, 2: 475-490.
- 18. Michalik, J., Reháková, D., Grabowski, J., Lintnerová, O., Svobodová, A., Schlogl, J., Sobień, K., Schnabl, P., 2016. Stratigraphy, plankton communities, and magnetic proxies at the Jurassic/Cretaceous boundary in the Pieniny Klippen Belt (Western Carpathians, Slovakia). Geologica Carpathica, 67: 303-328.
- 19. Mitta, V.V., Vishnevskaya, V.S., 2006 . Dynamics of the evolution of ammonites and radiolarians and anoxic events in the terminal Jurassic on the Russian Platform (in Russian). In: Cephalopoda 2006 (ed. T.B. Leonova): 55-63. PIN RAN, Moskva.
- 20. Nakrem, H.A., Kiessling, W., 2012. Late Jurassic (Volgian) radiolarians from Central Spitsbergen - a preliminary study. Norwegian Journal of Geology, 92: 149-155.
- 21. O’Dogherty, L., Carter, E.S., Dumitrica, P., Goričan, Š., De Wever, P., Bandini, A.N., Baumgartner, P.O., Matsuoka, A., 2009 . Catalogue of Mesozoic radiolarian genera. Part 2: Jurassic-Cretaceous. Geodiversitas, 31: 271-356.
- 22. Panchenko, I.V., Balushkina, N.S., Baraboshkin, E.Yu., Vishnevskaya, V.S., Kalmikov, G.A., Shurekova, O.V., 2015. Complexes of paleobiota in Abalak-Bazhenov deposits in the Central part of Western Siberia (in Russian). Neftegasovaya Geologiya. Teoriya i Praktika, 10: 4-27.
- 23. Panchenko, I.V., Nemova, V.D., Smirnova, M.E., Ilina, M.V., Baraboshkin, E.Yu., Ilyin, V.S., 2016 . Stratification and detailed correlation of Bazhenov horizon in central part of the Western Siberia due to lithological and paleontological study of the core and well logging (in Russian). Geologia Nefti i Gaza, (6): 36-48.
- 24. Pessagno, E.A., 1977. Upper Jurassic Radiolaria and radiolarian biostratigraphy of the California from the radiolarian cherts. Micropaleontology, 23: 231-234.
- 25. Pessagno, E.A., Blome, C.D., Hull, D., Six, W.M., 1993. Jurassic Radiolaria from the Josephine ophiolite and overlying strata. Smith River Subterrane (Klamath Mountains), southwestern California and southwestern Oregon. Micropaleontology, 39: 93-166.
- 26. Pessagno, E.A. Jr., Hull, D.M., Hopson, C.A., 2000. Tectonostratigraphic significance of sedimentary strata occurring within and above the Coast Range ophiolite (California Coast Ranges) and the Josephine ophiolite (Klamath Mountains) northwestern California. GSA Special Paper, 349: 383-394.
- 27. Pessagno, E.A., Cantu-Chapa, A., Mattinson, J.M., Meng, X., Kariminia, S.M., 2009. The Jurassic-Cretaceous boundary: new data from North America and the Caribbean [Part 1 of 4]. Stratigraphy, 6: 185-264.
- 28. Petrova, S., Rabrenović, D., Lakova, I., Koleva-Rekalova, E., Ivanova, D., Metodiev, L., Malešević, N., 2012. Biostratigraphy and microfacies of the pelagic carbonates across the Jurassic/Cretaceous boundary in eastern Serbia (Stara Planina-Poreč Zone). Geologica Balcanica, 41: 53-76.
- 29. Popova, I.M., Baumgartner, P.O., Filippov, A.N., Khanchuk, A.I., 1998. Jurassic and Early Cretaceous Radiolaria of the Lower Amurian Terrane: Khabarovsk region, far east of Russia. The Island Arc, 8: 491-522.
- 30. Reháková, D., 2000. Calcareous dinoflagellate and calpionellid bioevents versus sea-level fluctuations recorded in the west Carpathian (Late-Jurassic/Early Cretaceous) pelagic environments. Geologica Carpathica, 51: 229-243.
- 31. Rogov, M.A., 2015. The “Lilliput effect” and the evolution of Late Jurassic Boreal ammonites (in Russian). In: Contributions to current cephalopod research: morphology, systematics, evolution, ecology and biostratigraphy (eds. T.B. Leonova, I.S. Barskov and V.V Mitta): 46-48. Proceeding of conference, Moscow, 2-4 April, 2015. Russian Academy of Sciences, Borissiak Paleontological Institute.
- 32. Schnabl, P., Pruner, P., Wimbledon, W.A.P., 2015. A review of magnetostratigraphic results from the Tithonian-Berriasian of Nordvik (Siberia) and possible biostratigraphic constraints. Geologica Carpathica, 66: 489-498.
- 33. Vasileva, E.L., 2015. On the Jurassic/Cretaceous boundary in the decisions of the Interdepartmental Stratigraphic committee. Proceedings volume: The International Scientific Conference on the Jurassic/Cretaceous boundary (eds. E.Yu. Baraboshkin and D.E. Bykov): 77-82. September 7-13, 2015, Samara (Russia). Togliatti, Kassandra.
- 34. Vennari, V.V., Pujana, I., 2017. Finding of two new radiolarian associations calibrated with ammonoids in the Vaca Muerta Formation (Late Jurassic-Early Cretaceous), Neuquen Basin, Argentina. Journal of South American Earth Sciences, 75: 35-50.
- 35. Vishnevskaya, V.S., 1993. Jurassic and Cretaceous radiolarian biostratigraphy in Russia. Micropaleontology, Special Publication, 6: 175-200.
- 36. Vishnevskaya, V.S., 1997. Development of Palaeozoic-Mesozoic Radiolaria in the northwestern Pacific Rim. Marine Micropaleontology, 30: 79-95.
- 37. Vishnevskaya, V.S., 1998. The Domanikoid facies of the Russian Platform and the basin paleogeography. Mémoires du Museum National d'Histoire Naturelle (Paris), 177: 45-69.
- 38. Vishnevskaya, V.S., 2001. Jurassic and Cretaceous Radiolarian Biostratigraphy of Russia. Moscow, GEOS.
- 39. Vishnevskaya, V., 2012. Evolution of the Family Parvicingulidae (Radiolaria) and climatic fluctuations. Radiolaria Newsletter, 28: 193-195.
- 40. Vishnevskaya, V.S., 2013. Biostratigraphy and paleogeography of the Bazhenovo Formation based on radiolarian analysis (in Russian). Jurassic System of Russia: problems of stratigraphy and paleogeography. Fifth All-Russian meeting. September 23-27, 2013, Tyumen. Research materials (eds.V.A. Zakharov , M.A. Rogov, B.N. Shurigin): 34-37. Yekaterinburg, Izdat Nauka Servis.
- 41. Vishnevskaya, V.S., 2016. Age of the oil siliceous-limestone sequences of the Bazhenovo Formation from Western Siberia based on radiolarian analysis (in Russian). Problems of regional geology of the North Eurasia. Research materials of Conference 14-15 April, 2016. Moscow, MGRI-RGGRU: 22-24.
- 42. Vishnevskaya, V.S., Baraboshkin, E.Yu., 2001. New data on biostratigraphy of the Volgian Stage lectostratotype near the Gorodishche Village (Middle Volga Region). Stratigraphy and Geological Correlation, 9: 491-500.
- 43. Vishnevskaya, V.S., Filatova, N.I., 2012. Allochthonous Mesozoic marine sequences of Northeastern Asia and Western North America: correlation of the stratigraphic levels. Russian Journal of Pacific Geology, 6: 189-208.
- 44. Vishnevskaya, V.S., Filatova, N.I., 2016. Sedimentary settings of marine Middle Mesozoic allochthonous complexes of Northeastern Asia and their correlation. Stratigraphy and Geological Correlation, 24: 575-592.
- 45. Vishnevskaya, V.S., Kozlova, G.E., 2012. Volgian and Santonian-Campanian radiolarian events from the Russian Arctic and Pacific Rim. Acta Palaeontologica Polonica, 57: 773-790.
- 46. Vishnevskaya, V.S., Murchey, B.L., 2002. Climatic affinity and possible correlation of some Jurassic to Lower Cretaceous radiolarian assemblages from Russia and North America. Micropaleontology, 48: 89-111.
- 47. Vishnevskaya, V.S., Pralnikova, I.E., 1999. Jurassic radiolarians from Northern Russia. Stratigraphy and Geological Correlation, 7: 473-491.
- 48. Vishnevskaya, V.S., Amon, E.O., Marinov, V.A., Shurygin, B.N., 2014 . A new find of Early Cretaceous radiolarians on the Arctic Coast of East Siberia (Lena River Delta Area). Doklady Earth Sciences, 458: 1047-1051.
- 49. Wimbledon, W.A.P., 2008. The Jurassic-Cretaceous boundary: an age-old correlative enigma. Episodes, 31: 423-428.
- 50. Wimbledon, W.A.P., Casellato, C.E., Reháková, 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/Cretaceous (J/K) boundary - is there perhaps some light at the end of the tunnel? Rivista Italiana di Paleontologia e Stratigrafia, 117: 295-307.
- 51. Wimbledon, W.A.P., Reháková, D., Pszczółkowski, A., Casellato, C.E., Halásová, E., Frau, C., Bulot, L.G., Grabowski, J., Sobień, K., Pruner, P., Schnabl, P., Čížková, K., 2013. A preliminary account of the bio- and magnetostratigraphy of the Upper Tithonian-Lower Berriasian interval at Le Chouet, Drôme (SE France). Geologica Carpathica, 64: 437-460.
- 52. Yang, Q., 1993. Taxonomic studies of Upper Jurassic (Tithonian) Radiolaria from the Taman Formation, east-central Mexico. Palaeoworld, 3: 1-164.
- 53. Zakharov, V.A., 2010. Boreal climate in Mesozoic (in Russian). Priroda, 4: 37-42.
- 54. Zakharov, V.A., Rogov, M.A., 2006. New data on the Jurassic-Cretaceous boundary deposits in the Arctic (Nordvik Peninsula, Northern Siberia). Proceedings of the Third All-Russian Conference “Cretaceous System of Russia and Nearby Countries: problems of Stratigraphy and Paleogeography”, Saratov, September 26-30, 2006, Saratov: SO EAGO: 61-63.
- 55. Zakharov, V.A., Bogomolov, Yu.I., llyina, A.G., Konstantinov, N.V., Kurushin, 1.1., Lebedeva, N.K., Meledina, S.V., Nikitenko, B.L., Sobolev, E.S., Shurygin, B.N., 1997. Boreal zonal standard and biostratigraphy of the Siberian Mesozoic. Geologiya i Geofizika, 38: 927-956.
Uwagi
Opracowanie ze środków MNiSW w ramach umowy 812/P-DUN/2016 na działalność upowszechniającą naukę (zadania 2017).
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-c48a0d2a-384e-4e78-8eed-c887f81eb9b0