PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
Tytuł artykułu

New data on the post-impact material in radiolarian horizons in Outer Flysh Carpathians and search for a source crater

Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
In the Outer Carpathians in Barnasiówka radiolarian shale formation, there is an intercalation underlied by bentonite. There were found very rare elements and minerals in this intercalation. It was recognized that this horizon has been filled with products of a big object collision with Earth. The age of the manganese-iron intercalation was determined by potassium-argon (K-Ar) dating of illites to be (89.3±1.2) Ma. Similar age, (85.2±0.6) Ma, was found for the post-impact glass from the Boltysh crater in Ukraine. It was concluded that the formation of this intercalation was synchronous with the Boltysh crater formation at the Cenomanian/Turonian boundary. The research for the K-Ar age of the crater creation in Logoisk (Belarus) established its formation to (124.2±1.2) Ma ago.
Wydawca
Czasopismo
Rocznik
Tom
Strony
17--22
Opis fizyczny
Bibliogr. 40 poz., rys., tab.
Twórcy
autor
autor
Bibliografia
  • 1. Alexandrowicz SW, 1973. Gaize-type sediments in the Carpathian flysch. Neues Jahrbuch für Geologie und Paläontologie, Monatsh. 1: 1-17, Stuttgart.
  • 2. Arthur MA, Schlanger SO and Jenkyns HC, 1987. The Cenomanian-Turonian anoxic event, II: Palaeoceaonographic controls on organic matter production and preservation. In: Brooks J and Fleet AJ, eds, Marine Petroleum Source Rocks. Geological Society Special Publication, London, 26: 401-420.
  • 3. Bąk K, Bąk M and Paul Z, 2001. Barnasiówka Radiolarian Shale Formation – a new lithostratigraphic unit in the Upper Cenomanian - lowermost Turonian of the Polish Outer Carpathians (Silesian series). Annales Societatis Geologorum Poloniae 71: 75-103.
  • 4. Bieda F, Geroch S, Koszarski L, Książkiewicz M and Żytko K, 1963. Stratigraphie des Karpates externes polonaises (Geological research in the Carpathians). Biuletyn Instytutu Geologicznego 181: 5-174.
  • 5. Bralower TJ, 1988. Calcareous nannofossil biostratigraphy and assemblages of Cenomanian-Turonian boundary interval; implications for the origin and timing of oceanic anoxia. Paleoceanography 3: 275-316.
  • 6. Burtanówna J, Książkiewicz M and Sokołowski S, 1933. O występowaniu łupków radiolarytowych w kredzie średniej Beskidów Zachodnich (On occurrence of radiolarian shales in the Middle Cretaceous deposits of the Western Beskidy Mts.). Annales de la Société Géologique de Pologne 9: 96-99 (in Polish with German summary).
  • 7. Burtan J and Ciszewska K, 1956. Szczegółowa Mapa Geologiczna Polski, 1:50,000; arkusz Bochnia (Detailed Geological Map of Poland in scale 1:50,000; Bochnia sheet). Państwowy Instytut Geologiczny, Warszawa (in Polish).
  • 8. Burtan J and Turnau-Morawska M, 1978. Biochemiczne skały krzemionkowe Zachodnich Karpat fliszowych (Biochemical siliceous rocks of the West Carpathian Flysch). Prace Geologiczne Polskiej Akademii Nauk – Oddział w Krakowie 111: 1-36 (in Polish with English summary).
  • 9. Elder WP, 1987. The paleoecology of the Cenomanian-Turonian (Cretaceous) stage boundary extinctions at Black Mesa, Arizona. Palaios 2: 24-40.
  • 10. Gradstein FM and Ogg JG, 2004. Geologic time scale 2004 – why, how, and where next! Lethaia 37: 175-181.
  • 11. Geroch S, Gucwa I and Wieser T, 1985. Manganese nodules and other indications of regime and ecological environment in lower part of the Upper Cretaceous – exemplified by Lanckorona profile. In: Wieser T, ed., 13th Congress of Carpatho-Balkan Geological Association: Fundamental researches in the western part of the Polish Carpathians, Guide to Excursion I. CBGA XIII Congres, Cracow 1985: 88-100.
  • 12. Grieve R, Rupert J, Smith J and Therriault A, 1995. The record of terrestrial impact cratering. GSA Today 5: 189, 194-196.
  • 13. Gucik S, Gucwa I and Wieser T, 1983. Bogate w mangan i żelazo skały węglanowe łupków spaskich okolic Cisowej (Manganese- and iron rich carbonate rocks of Spas shales in the Cisowa vicinity). Sprawozdania z posiedzeń naukowych Instytutu Geologicznego. IG Warszawa: 437-438 (in Polish).
  • 14. Gucwa I, 1966. Results of geochemical examinations of radiolarian shales from Niedźwiada, near Ropczyce. Kwartalnik Geologiczny, 10: 1047-1059 (in Polish, English summary).
  • 15. Harland WB, Armstrong RL, Cox AV, Craig LE, Smith AG and Smith DG, 1990. A Geologic Time Scale 1989, Cambridge Univ. Press: 263 pp.
  • 16. Kauffman EG, 1984. The fabric of Cretaceous marine extinctions, In: Berggren WA and Van Couvering JA, eds, Catastrophes and Earth History: The New Uniformitarianism. Princeton, New Jersey, Princenton University Press: 151-246.
  • 17. Kauffman EG, 1986. High-resolution event stratigraphy: regional and global Cretaceous bio-events, In: Walliser OH, ed., Lecture Notes in Earth Sciences, Global Bio-Events. Springer-Verlag: 279-335.
  • 18. Koszarski L, Nowak W and Żytko K, 1959. W sprawie wieku warstw godulskich. (Notes on the age of the Godula Beds, Carpathians Flysch). Kwartalnik Geologiczny 3: 127-151 (in Polish with English summary).
  • 19. Kotlarczyk J, 1978. Stratygrafia formacjii z Ropianki (fm) czyli warstw inoceramowych w jednostce skolskiej Karpat fliszowych (Stratigraphy of the Ropianka Formation or of Inoceramian Beds in the Skole Unit of the Flysch Carpathians). Prace Geologiczne Polskiej Akademii Nauk – Oddział w Krakowie 108: 1-81 (in Polish with English summary).
  • 20. Książkiewicz M, 1951. Objaśnienia do arkusza „Wadowice” Szczegółowej Mapy Geologicznej Polski 1:50,000 (Explanation to the Wadowice sheet of the Detailed Geological Map of Poland in scale 1:50,000). Warszawa, Państwowy Instytut Geologiczny: 228 pp. (in Polish).
  • 21. Lopez DE, McCartney K and Buzyna G, 1988. A model of correlated episodicity in magnetic-field reversals, climate, and mass extinction. The Journal of Geology 96: 1-16.
  • 22. Masaitis VL, Danilin AN, Mashchak MS, Raykhlin AI, Sielivanovskaya TV and Shadekov YM, 1980. Geologia astroblem (The geology of astroblemes). Nedra: 231 pp. (in Russian).
  • 23. Montanari A and Koeberl Ch, 2000. Impact Stratigraphy: the Italian record. Lecture Notes in Earth Sciences 93 Springer, Heidelberg-Berlin: 364 pp.
  • 24. Orth CJ, Attrep M, Mao XY, Kauffman EG, Diner R and Elder WP, 1988. Iridium abundance maxima in the upper Cenomanian extinction interval. Geophysical Research Letters 15: 346-349.
  • 25. Paul Z and Wieser T, 2002. Pochodzenie i związki genetyczne konkrecji manganowych, tufów i radiolarii z cenomańsko-turońskich warstw radiolariowych z zewnętrznych Karpat fliszowych. (Origin and genetic relation of manganese concretion, tufittes and radiolarians from the Cenomanian to Turonian radiolarian layers in the Outer Flysch Carpathians). Posiedzenia Naukowe PIG 59: 84-86 (in Polish).
  • 26. Poag CW, 1997a. The Chesapeake Bay bolide impact: a convulsive event in Atlantic Coastal Plain evolution. Sedimentary Geology 108: 45-90.
  • 27. Poag CW, 1997b. Roadblocks on the kill curve: Testing the Raup hypothesis. Palaios 12: 582-590.
  • 28. Raup DM and Sepkowski JJ Jr, 1986. Periodic extinction of families and genera. Science 231: 833-836.
  • 29. Sawłowicz Z, 1993. Iridium and other platinium-group elements as geochemical markers in sedimentary environments. Palaeogeography, Palaeoclimatology, Palaeoecology 104: 253-270.
  • 30. Sepkowski JJ Jr, 1990. The taxonomic structure of periodic extinction. Geological Society of America Special Papers 247: 33-44.
  • 31. Styrnałówna M and Cizancourt de H, 1925. O budowie geologicznej okolicy Rybnika nad Stryjem (About geology in Rybnik near Stryj River). Kosmos 50: 13-30 (in Polish).
  • 32. Sujkowski Z and Różycki SZ, 1930. Znalezienie typowych radiolarytów w Karpatach Wschodnich (Discovery of typical radiolarians in the Eastern Carpathians). Posiedzenia Naukowe Państwowego Instytutu Geologicznego 25: 14-15 (in Polish).
  • 33. Sujkowski Z, 1931. Sprawozdanie z badań petrograficznych w Karpatach w r. 1930 (Report on petrographic examinations in the Carpathians in 1930). Posiedzenia Naukowe Państwowego Instytutu Geologicznego 29: 32-33 (in Polish).
  • 34. Uličny D, Hladiková J, Moses JA Jr, Čech S, Hradecká L and Svobodová M, 1997. Sea-level changes and geochemical anomalies across the Cenomanian-Turonian boundary: Pecinov quarry, Bohemia. Palaeogeography, Palaeoclimatology, Palaeoecology 132: 265-285.
  • 35. Van Couvering JA, Aubry MP, Berggren WA, Bujak JP, Naeser CW and Wieser T, 1981. The terminal Eocene event and the Polish Connection. Palaeogeography, Palaeoclimatology, Palaeoecology 36: 321-362.
  • 36. Wieser T, 1973. Klinoptylolit w łupkach radiolariowych cenomanu z Międzybrodzia k. Sanoka (Clinoptyllolite in the Cenomanian radiolarian shales at Międzybrodzie near Sanok). Kwartalnik Geologiczny 17: 651-652 (in Polish).
  • 37. Wieser T, 1982a. Manganiferous carbonate micronodules of the Polish Carpathian flysch deposits and their origin. Mineralia Polonica 13: 25-42.
  • 38. Wieser T, 1982b. Barites and celestobarites in the flysch of the Polish Carpathians. Archiwum Mineralogiczne 38: 13-25.
  • 39. Wieser T, 1985a. Birnesite micronodules in the Polish Carpathian flysch deposits. Mineralia Polonica 16: 23-34.
  • 40. Wieser T, 1985b. The teschenite formation and other evidences of magmatic activity in the Polish Flysch Carpathians and their geotectonic and stratigraphic significance. In: Wieser T, ed., Fundamental researches in the western part of the Polish Carpathians. Guide to excursion I. CBGA XIII Congres, Cracow 1985: 23-36.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BATA-0001-0046
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.