PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
Tytuł artykułu

Comparative 230Th/U and 14C Dating of a Buried Stump Layer (Western Siberia)

Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Dating of late Pleistocene sediments remains a challenge in Quaternary chronology, due to the inherent limitations of the 14C and OSL methods. The 230Th/U radioisotope method is theoretically applicable to wood remnants contained within Pleistocene sediments, but few results have been published to date and in some cases, the age data are ambiguous. This paper tests the use of 230Th/U dating of fossil wood remnants dated earlier by radiocarbon method. We analyzed a buried larch trunk from a well-known stump layer in the Lipovka outcrop, located on the Tobol River bank in Western Siberia. The stump layer is preserved in situ. We determined the specific activities of U and Th isotopes in samples of both modern pine and fossil larch and proposed a model for the incorporation and distribution of U and Th in the buried wood during aging. Complications related with the recognition of geochemical closed systems with respect to U did not allow obtaining completely reliable 230Th/U age. Despite this the 230Th/U age obtained for the uppermost heartwood sample and 14C ages of the same larch trunk and other wood and vegetation remnants gave consistent results. These age data in combination with previously obtained pollen data testify the stump layer formation during the late cooling stage of the Karganian time (MIS-3, Middle Valdai).
Wydawca
Czasopismo
Rocznik
Strony
139--147
Opis fizyczny
Bibliogr. 39 poz., rys.
Twórcy
autor
  • Saint Petersburg State University, Russia, St. Petersburg, V.O., 10th Line, 33/35
autor
  • Saint Petersburg State University, Russia, St. Petersburg, V.O., 10th Line, 33/35
autor
  • Russian State Geological Prospecting University, Russia, Moscow, Miklukho-Maklay str., 23
  • Earth Cryosphere Institute SB RAS, Moscow branch, Russia, Moscow, Vavilov str., 30/6.
autor
  • Saint Petersburg State University, Russia, St. Petersburg, V.O., 10th Line, 33/35
autor
  • Saint Petersburg State University, Russia, St. Petersburg, V.O., 10th Line, 33/35
autor
  • Saint Petersburg State University, Russia, St. Petersburg, V.O., 10th Line, 33/35
Bibliografia
  • 1. Allard G, Roy M, Ghaleb B, Richard PJH, Larouche AC, Veillette JJ and Parent M, 2012. Constraining the age of the last interglacialglacial transition in the Hudson Bay lowlands (Canada) using UTh dating of buried wood. Quaternary Geochronology 7: 37–47, DOI 10.1016/j.quageo.2011.09.004.
  • 2. Arslanov KhA, 1987. Radiouglerod: Geokhimiya I geokhronologiya (Radiocarbon: Geochemistry and geochronology). LGU, Leningrad, 300 pp. 1987. (in Russian).
  • 3. Arslanov KhA, Tertychnaya TV and Chernov SB, 1993. Problems and methods of dating of low-activity samples by liquid scintillation counting. Radiocarbon 35(3): 393–398.
  • 4. Arslanov KhA, Laukhin SA, Maksimov FE, Velichkevich FYu, Sanko AF, Shilova GN and Chernov SB, 2004. Bedoba - opornyi razrez kazancevskogo gorizonta v Central'noi Sibiri (Bedoba - key section of Kazantsevian horizon in Central Siberia). Doklady Akademii Nauk 396: 796–799 (in Russian).
  • 5. Arslanov KhA, Laukhin SA, Maksimov FE, Savelieva LA, Chernov SB, Tertychnaya TV and Zherebtsov IE, 2009. Radiouglerodnaya hronologiya i landshafty lipovskogo-novoselovskogo mezhstadiala Zapadnoi Sibiri (po dannym izucheniya razreza u s. Lipovka) (Radiocarbon dating and landscapes of the lipovsky-novoselovsky interstadial in Western Siberia on the data of the Lipovka section study). Fundamental'nye problemy kvartera: itogi izucheniya i napravleniya dal'neishih issledovanii: Materialy VI Vserossiiskogo soveshaniya po izucheniyu chetvertichnogo perioda (Novosibirsk, 19–23 oktyabrya 2009 g.). Novosibirsk, Izd-vo SO RAN, 44–47 (in Russian).
  • 6. Astakhov VI, 2009. Srednii i pozdnii neopleistocen glyacial'noi zony Zapadnoi Sibiri: problemy stratigrafii i paleogeografii (Middle and Upper Pleistocene glacial zones in Western Siberia: stratigraphy and palaeogeography). Byulleten’ komissii po izucheniyu chetvertichnogo perioda 69: 8–24 (in Russian).
  • 7. Astakhov V and Mangerud J, 2005. The Age of the Karginsky Interglacial Strata on the Lower Yenisei. Doklady Earth Sciences 403: 673–676.
  • 8. Astakhov V and Mangerud J, 2007. The geochronometric age of Late Pleistocene terraces on the lower Yenisei. Doklady Earth Sciences 416: 1022–1026, DOI 10.1134/S1028334X07070094.
  • 9. Firsov LV, Panychev VA and Orlova LA, 1985. Katalog radiouglerodnyh dat (Catalogue of radiocarbon dates). IGiG SORAN, Novosibirsk, 88 pp. (in Russian).
  • 10. Gaigalas A, Arslanov KhA, Maksimov FE, Kuznetsov VYu and Chernov SB, 2007. Uranium-Thorium isochron dating results of penultimate (Late Mid-Pleistocene) Interglacial in Lithuania from Mardasavas site. Geologija 57: 21–29.
  • 11. Geyh MA, 2001. Reflections on the 230Th/U dating of dirty material. Geochronometria 20: 9–14.
  • 12. Geyh MA and Müller H, 2005. Numerical 230Th/U dating and palynological review of the Holsteinian/Hoxnian Interglacial. Quaternary Science Rewiews 24: 1861–1872, DOI 10.1016/j.quascirev.2005.01.007.
  • 13. Heijnis H, 1992. Uranium/Thorium dating of Late Pleistocene peat deposits in N.W. Europe. Rijksuniversitet, Groningen, 149 pp.
  • 14. Ivanovich M and Harmon RS, 1992. In: Uranium-series Disequilibrium: Applications to Earth, Marine and Environmental Sciences, second ed. Clarendon Press, Oxford, 910 pp.
  • 15. Kaplyanskaya FA and Tarnogradsky VD, 1974. Srednii i nizhnii plejstocen nizovii Irtysha (Middle and Upper Pleistocene of the Irtysh river downstream). Nedra, Leningrad, 159 pp. (in Russian).
  • 16. Kaufman A, 1993. An evaluation of several methods for determining 230Th/U ages in impure carbonates. Geochimica et Cosmochimica Acta 57: 2303–2317, DOI 10.1016/0016-7037(93)90571-D.
  • 17. Kaufman A and Broecker WS, 1965. Comparison of Th230 and C14 ages for carbonates materials from Lakes Lahontan and Bonneville. Journal of Geophysical Research 70: 4030–4042, DOI 10.1029/JZ070i016p04039.
  • 18. Kind NV, 1974. Geohronologiya pozdnego antropogena po izotopnym dannym (Geochronology of the Late Quaternary period based on isotope data). Nauka, Moscow, 225 pp. (in Russian).
  • 19. Krivonogov SK, 1988. Stratigrafiya i paleogeografiya Nizhnego Priirtysh'ya v epohu poslednego oledeneniya (po karpologicheskim dannym) (Stratigraphy and paleogeography of lower part of the Irtish river system through the Last Glaciation). Nauka, Novosibirsk, 232 pp. (in Russian).
  • 20. Kuznetsov VYu, 2008. Radiohronologiya chetvertichnyh otlozhenii (Geochronology of the Quaternary deposits). KOMILFO, St. Petersburg, 312 pp. (in Russian).
  • 21. Kuznetsov VYu and Maksimov FE, 2003. Novyi podhod k geohronologii mezhlednikovyh otlozhenii Russkoi ravniny na osnove uran-torievogo metoda datirovaniya pogrebennogo torfa (A new approach to geochronology of interglacial deposits from the Russian Plain on the base of the Th/U dating buried peat). Doklady Akademii Nauk 392: 802–806 (in Russian).
  • 22. Kuznetsov VYu and Maksimov FE, 2012. Metody chetvertichnoi geohronometrii v paleogeografii i morskoi geologii (Methods of Quaternary Geochronometry in Palaeogeography and Marine Geology). Nauka, St. Petersburg, 191 pp. (In Russian).
  • 23. Kuznetsov VYu, Arslanov KhA, Alekseev MN, Pisareva VV, Chernov SB, Maksimov FE and Baranova NG, 2002. New age data of buried peat deposits from the site “Fili Park” (Moscow, Russia) by the uranium-thorium dating and palynological analysis and its stratigraphic significance. Geochronometria 21: 41–48.
  • 24. Kuznetsov VYu, Arslanov KhA, Kozlov VB, Maksimov FE, Savelyeva LA, Chernov SB and Baranova NG, 2003. Perspektivy primeneniya uran-torievogo metoda neravnovesnoi geochronologii dlya datirovaniya mezhlednikovyh kontinental'nyh otlozhenii (Prospects of 230Th/U disequilibrium method application for dating Interglacial continental sediments). Vestnik Sankt-Peterburgskogo gosudarstvennogo universiteta Seriya 7(15): 40–51 (in Russian).
  • 25. Laukhin SA, Arslanov KhA, Maksimov FE, Kuznetsov VYu, Shilova GN, Velichkevich FYu, Chernov SB and Nikonorov YaA, 2008a. New outcrop of buried Kazantsevo peat at lower reaches of the Irtysh River. Doklady Earth Sciences 419: 200–204, DOI 10.1134/S1028334X08020025.
  • 26. Laukhin SA, Maksimov FE, Arslanov KhA, Kuznetsov VYu, Chernov SB, Shilova GN and Velichkevich FYu, 2008b. Geochronology and landscape-climatic environments of the Early Zyryanian Interstadial in West Siberia. Doklady Earth Sciences 421: 796–799, DOI 10.1134/S1028334X08050188.
  • 27. Ludwig KR and Titterington DM, 1994. Calculation of 230Th/U isochrons, ages, and errors. Geochimica et Cosmochimica Acta 58: 5031–5042, DOI 10.1016/0016-7037(94)90229-1.
  • 28. Maksimov FE and Kuznetsov VYu, 2010. Novaya versiya 230Th/U datirovaniya verhne- i sredneneopleistoceovyh pogrebennyh organogennyh otlozhenii (New version of Th/U dating of Upper and Middle Pleistocene buried organic-rich deposits). Vestnik Sankt- Peterburgskogo gosudarstvennogo universiteta Seriya 7(4): 94– 107 (in Russian).
  • 29. Maksimov F, Arslanov Kh, Kuznetsov V and Chernov S, 2006. 230Th/U and 14C dating of Upper and Middle Pleistocene Interglacial and Interstadial organic deposits from the East-European Plain and Siberia. Pleistocene Environments in Eurasia Chronology, Palaeoclimate and Teleconnection. INTAS Final Workshop 34–38. Hannover, Germany.
  • 30. Maksimov FE, Laukhin SA, Arslanov KhA, Kuznetsov VYu, Shilova GN, Chernov SB, Zherebtsov IE and Levchenko SB, 2010a. The first Uranium-Thorium dating of the Middle Neopleistocene peat in West Siberia. Doklady Earth Sciences 433: 915–919, DOI 10.1134/S1028334X10070159.
  • 31. Maksimov F, Laukhin S, Kuznetsov V, Arslanov K and Shilova G, 2010b. First 230Th/U date of Middle Pleistocene peat bog in Siberia 230Th/U and 14C dating of middle Valdai (middle Würm) deposits from the north-western Russia. 10th Intern. Conf. Methods of Absolute Chronology. Gliwice, Poland, p.103.
  • 32. Manskaya SM and Kodina LA, 1975. Geokhimiya lignina (Geochemistry of lignin). Nauka, Moscow, 230 pp. (in Russian).
  • 33. Oschadleus HD, Vogel JC and Scott L, 1996. Radiometric date for the Port Durnford peat and development of yellow-wood forest along the South African east coast. South African Journal of Science 92: 43–45.
  • 34. de Vernal A, Causse C, Hillaire-Marcel C, Mott RJ and Occhietti S, 1986. Palynostratigraphy and Th/U ages of upper Pleistocene interglacial and interstadial deposits on Cape Breton Island, eastern Canada. Geology 14: 554–557, DOI 10.1130/0091- 7613(1986)14<554:PATAOU>2.0.CO;2.
  • 35. Vogel JC and Kronfeld J, 1980. A new method for Dating Peat. South African Journal of Science 76: 557–558.
  • 36. Volkova VS, 1966. Chetvertichnye otlozheniya nizovii Irtysha i ih biostratigraficheskaya harakteristika (Quaternary deposits of the Irtish river downstream and their biostratigraphy). Nauka, Novosibirsk, 174 pp. (in Russian)
  • 37. Volkova VS, 2011. Problemy palinologii, dinamika rastitel’nyh zon v pozdnem Kainozoe Zapadnoy Sibiri i ih znachenie dlya stratygrafii (Problems of palynology, dynamics of vegetation zones of Western Siberia in Late Cenozoic and its significance for stratigraphy). Novosti paleontologii i stratigrafii 16–17: 131–136 (Prilozhenie k zhurnalu Geologiya i geofizika 52). (In Russian
  • 38. Volkova VS, Arkhipov SA and Babushkin AE, 2003. Kainozoi Zapadnoi Sibiri (Cenozoic of Western Siberia (Kainozoi Zapadnoi Sibiri)). GEO, Novosibirsk, 247 pp. (in Russian).
  • 39. Van der Wijk A, Mook G and Ivanovich M, 1988. Correction for environmental 230Th in U/Th disequilibrium dating of peat. The Science of the Total Environment 70: 19–40, DOI 10.1016/0048- 9697(88)90249-5.
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-523c517b-5df9-4967-b556-8ff9caa329a8
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.