PL EN


Preferencje help
Widoczny [Schowaj] Abstrakt
Liczba wyników
Tytuł artykułu

Distribution and origin of gaseous hydrocarbons and carbon dioxide in the Quaternary sediments at Starunia palaeontological site and vicinity (Carpathian region, Ukraine)

Treść / Zawartość
Identyfikatory
Warianty tytułu
Języki publikacji
EN
Abstrakty
EN
Near-surface gases were investigated in Starunia, where remains of mammoth and woolly rhinoceroses were discovered at the beginning of the 20th century. Samples were collected at 30 measurement sites, from 0.8, 1.6, 2.4, 3.2 and 4.0 m depths and analysed for their molecular and isotopic compositions. Most of the methane and all higher gaseous hydrocarbons accumulated within the near-surface zone are of thermogenic origin. The distribution of thermogenic methane and higher gaseous hydrocarbons in Quaternary sediments is variable and, generally, increases with depth. Microbial methane or a mixture of microbial and thermogenic methane also occurs at the near-surface zone. The presence of hydrogen and alkenes in the near-surface gases also suggests a contribution from recent, microbial processes. Helium of crustal origin migrated through the Rinne Fault and other tectonic zones located in the study area, and was subsequently dispersed during migration through the lithologically diversified Pleistocene and Holocene sediments. The high variability of the carbon dioxide concentration and stable carbon isotope composition at various depths in the near-surface zone is caused by its polygenetic origin (thermogenic, microbial, and oxidation of hydrocarbons and Quaternary organic matter), and also by its dissolution in water and oil during migration through lithologically diversified Pleistocene and Holocene sediments. Zones of thermogenic methane occurrence within Pleistocene sediments, dominated by muds saturated with bitumen and brines, provide the most favourable environment for preservation of large extinct mammals. It is likely that during the Pleistocene winters, when thick ice and snow covered the tundra lake and swamp, zones of outflow of brines, oils, helium, and thermogenic gaseous hydrocarbons had a higher temperature, which could have resulted in melting and cracking of the ice cover and drowning of large mammals. The most favourable conditions for preservation of large, extinct mammals probably still exists in the vicinity of sampling probe sites Nos 21, 22, 23 and 36. Zones of dominance of microbial methane concentrations are less favourable sites for preservation of extinct mammals, because this methane was generated within recent swamps and also within recent descending meteoric waters which infiltrated into Pleistocene and Holocene sediments. Older Pleistocene microbial gases have already escaped to the atmosphere.
Rocznik
Strony
403--419
Opis fizyczny
bibliogr. 51 poz., rys., tab., wykr.
Twórcy
autor
  • Faculty of Geology, Geophysics and Environmental Protection, AGH University of Science and Technology, Al. Mickiewicza 30, 30-059 Kraków, Poland, kotarba@agh.edu.pl
Bibliografia
  • Adamenko, O. M., Stelmakh, O. R., Zinchuk, M. S. & Kotarba, M. J., 2005. History of petroleum exploration in the Starunia area, fore-Carpathian region, Ukraine. In: Kotarba, M. J. (ed.), Polish and Ukrainian geological studies (2004-2005) at Starunia - the area of discoveries of woolly rhinoceroses. Polish Geological Institute and Society of Research on Environ mental Changes "Geosphere", Warszawa-Kraków: 53-61.
  • Alexandrowicz, S. W., 2004. Starunia and the Quaternary research in the tradition and initiatives of the Polish Academy of Arts and Sciences. (In Polish, English summary). Studia i materiały do dziejów Polskiej Akademii Umiejętności. Polska Akademia Umiejętności, Kraków, 3, 261 pp.
  • Alexandrowicz, S. W., 2005. The history of Starunia - a palaeontologic site and old ozokerite mine. In: Kotarba, M. J. (ed.), Polish and Ukrainian geological studies (2004- 2005) at Starunia - the area of discoveries of woolly rhinoceroses. Polish Geological Institute and Society of Research on Environmental Changes "Geosphere", Warszawa-Kraków: 21-36.
  • Barabasz, W., Chmiel, M. J. & Ostafin, M., 2009. Microbiological characteristics of Quaternary sediments at Starunia palaeontological site and vicinity (Carpathian region, Ukraine). Annales Societatis Geologorum Poloniae, 79: 439-446.
  • Berner, U. & Faber, E., 1996. Empirical carbon isotope/maturity relationships for gases from algal kerogens and terrigenous organic matter, based ondry, open-system pyrolysis. Organic Geochemistry, 24: 947-955.
  • Chung, H. M., Gormly, J. R. & Squires, R. M., 1988. Origin of gaseous hydrocarbons in subsurface environments: theoretical considerations of carbon isotope distribution. Chemical Geology, 71: 91-103.
  • Curtis, J. B., Kotarba, M. J., Lewan, M. D. & Więcław, D., 2004. Oil/source rock correlations in the Polish Flysch Carpathians and Mesozoic basement and organic facies of the Oligocene Menilite Shales: insights from hydrous pyrolysis experiments. Organic Geochemistry, 35: 1573-1596.
  • Dubessy, J., Pagel, M., Beny, J. M., Christensen, H., Hickel, B., Kosztolanyi, C. & Poty, B., 1988. Radiolysis evidenced by H2-O2 and H2-bearing fluid inclusions in three uranium deposits. Geochimica et Cosmochimica Acta, 52: 1155-1167.
  • Dzieniewicz, M. & Sechman, H., 2001. Kowadło sondy udarowej do badania gruntu. Wzór użytkowy RP nr 58584. (In Polish). Wiadomości Urzędu Patentowego, 05/2001.
  • Dzieniewicz, M. & Sechman, H., 2002. Zestaw do ręcznego pobierania próbek gazowych z warstw przypowierzchniowych Patent RP nr 184080. (In Polish). Wiadomości Urzędu Patentowego, 08/2002.
  • Gutsalo, L. K. & Plotnikov, A. M., 1981. Carbon isotopic composition in the CH4-CO2 system as acriterion for the origin of meth ane and carbon dioxode in Earth natural gases. (In Russian, English summary). Doklady Akademyi Nauk SSSR, 259: 470-473.
  • Hawkes, H. E., 1972. Free hydrogen in genesis of petroleum. American Association of Petroleum Geologists Bulletin, 56: 2268-2277.
  • Hunt, J. M., 1996. Petroleum Geochemistry and Geology, 2nd Edition, Freeman, New York, 743 pp.
  • Koltun, Y. V., Adamenko, O. M., Kotarba, M. J., Dudok, I. V., Pavluk, M. I., Burzewski, W. & Stelmakh, O. R., 2005. Geological setting and petroleum occurrence of the Starunia area, fore-Carpathian region, Ukraine. In: Kotarba, M. J. (ed.), Polish and Ukrainian geological studies (2004-2005) at Starunia - the area of discoveries of woolly rhinoceroses. Polish Geological Institute and Society of Research on Environmental Changes "Geosphere", Warszawa-Kraków: 61- 77.
  • Korin, S. S., 2005. Miocene salt-bearing Vorotyshcha Bedsin the Starunia area, fore-Carpathian region, Ukraine. In: Kotarba, M. J. (ed.), Polish and Ukrainian geological studies (2004- 2005) at Starunia - the area of discoveries of woolly rhinoceroses. Polish Geological Institute and Society of Research on Environmental Changes "Geosphere", Warszawa-Kraków: 79-86.
  • Kotarba, M., 1988. Geochemical criteria of origin of gases accumulated in the Upper Carboniferous coal-bearing strata of the Wałbrzych basin. (In Polish, English summary). Zeszyty Naukowe Akademii Górniczo-Hutniczej, 1199, Geologia, 42: 1-119.
  • Kotarba, M. J., 2002. Composition and origin of hydrocarbons saturat ing the remnants of woolly rhinoceros from Starunia, the Ukrainian Carpathians. (In Polish, English summary). Przegląd Geologiczny, 50: 531-534.
  • Kotarba, M. J. (ed.), 2005. Polish and Ukrainian geological studies (2004-2005) at Starunia - the area of discoveries of woolly rhinoceroses. Polish Geological Institute and Society of Research on Environmental Changes "Geosphere", Warszawa- Kraków, 218 pp.
  • Kotarba, M. J., 2009. Interdisciplinary studies at Starunia palaeontological site and vicinity (Carpathian region, Ukraine) in the years 2006-2009: previous discov eries and research, purposes, results and perspectives. Annales Societatis Geologorum Poloniae, 79: 219-241.
  • Kotarba, M. J. & Koltun, Y. V., 2006. The origin and habitat of hy rocarbons of the Polish and Ukrainian Parts of the Carpathian Province. In: Golonka, J. & Picha, F. J. (eds), The Carpathians and their foreland: geology and hydrocarbon resources. American Association of Petroleum Geologists Memoir, 84: 395-442.
  • Kotarba, M. J. & Lewan, M. D., 2004. Characterizing thermogenic coalbed gas from Polish coals of different ranks by hydrous pyrolysis. Organic Geochemistry, 35: 615-646.
  • Kotarba, M. J., Dzieniewicz, M. & Sechman, H., 2005a. Geochemical survey, molecular and isotopic compositions, and genetic identification of near-surface gases from the Starunia area, fore-Carpathian region, Ukraine. In: Kotarba, M. J. (ed.), Polish and Ukrainian geological studies (2004-2005) at Starunia - the area of discoveries of woolly rhinoceroses. Polish Geological Institute and Society of Research on Environmental Changes "Geosphere", Warszawa-Kraków: 157- 174.
  • Kotarba, M. J., Więcław, D., Koltun, Y. V., Lewan, M. D., Marynowski, L. & Dudok, I. V., 2005b. Organic geochemical study and genetic correlations between source rocks and hydrocarbons from surface seeps and deep accumulations in the Starunia area, fore-Carpathian region, Ukraine. In: Kotarba, M. J. (ed.), Polish and Ukrainian geological studies (2004- 2005) at Starunia - the area of discoveries of woolly rhinoceroses. Polish Geological Institute and Society of Research on Environmental Changes "Geosphere", Warszawa- Kraków: 125-145.
  • Kotarba, M. J. & Nagao, K., 2008. Composition and ori in of natural gases accumulated in the Polish and Ukrainian parts of the Carpathian region: Gaseous hy drocarbons, noble gases, carbon dioxide and nitrogen. Chemical Geology, 255: 426- 438.
  • Kotarba, M. J., Alexandrowicz, S. W. & Stachowicz-Rybka, R., 2008a. Historia i program dalszych badań geologicznych na obszarze byłej kopalni ozokerytu i stanowiska paleontologicznego w Staruni (In Polish). Przegląd Geologiczny, 56: 34-441.
  • Kotarba, M. J., Dzieniewicz, M., Mościcki, W. J. & Sechman, H., 2008b. Unique Quaternary environment for discoveries of woolly rhinoceroses in Starunia, fore-Carpathian region, Ukraine: Geochemical and geoelectric studies. Geology, 36, 7: 567-570.
  • Kotarba, M. J. & Stachowicz-Rybka, R., 2008. Wyjątkowe stanowisko paleontologiczne i środowisko osadów plejstoceńskich, w których znaleziono nosorożce włochate w Staruni (Karpaty Wschodnie). (In Polish). Przegląd Geologiczny, 56: 442-452.
  • Kotarba, M. J., Curtis, J. B. & Lewan, M. D., 2009a. Comparison of natural gases accumulated in Oligocene strata with hy drous pyrolysis gases from Menilite Shales of the Polish Outer Carpathians. Organic Geochemistry, 40: 769-783.
  • Kotarba, M. J., Więcław, D., Toboła, T., Zych, H., Kowalski, A. & Ptak, S., 2009b. Bitumen and salt contents within the Quaternary sediments at Starunia palaeontological site and vicinity (Carpathian region, Ukraine). Annales Societatis Geologorum Poloniae, 79: 447-461.
  • Mościcki, W. J., 2009. Characterization of near-surface sediments based on combined geoelectric studies at Starunia palaeontological site and vicinity (Carpathian region, Ukraine). Annales Societatis Geologorum Poloniae, 79: 333-342.
  • Philp, R. P., 1987. Surface Prospecting Methods for Hydrocarbon Accumulations. In: Brooks, J. & Welte, D. (eds), Ad vances in Petroleum Geochemistry, 2, Academic Press, London: 209-250.
  • Porzucek, S. & Madej, J., 2009a. Recognition of geological structures at Starunia palaeontological site and vicinity (Carpathian region, Ukraine) based on gravity surveys. Annales Societatis Geologorum Poloniae, 79: 357-363.
  • Porzucek, S. & Madej, J., 2009b. Detection of near-surface geological heterogeneity at Starunia palaeontological site and vicinity (Carpathian region, Ukraine) based on microgravity survey. Annales Societatis Geologorum Poloniae, 79: 365- 374.
  • Rooney, M. A., Claypool, G. E. & Chung, H. M., 1995. Modeling thermogenic gas generation using carbon isotope ratios of natural gas hydrocarbons. Chemical Geology, 126: 219-232.
  • Savary, V. & Pagel, M., 1997. The effects of water radiolysis on local redox conditions in the Oklo, Gabon, natural fission reactors 10 to 16. Geochimica et Cosmochimica Acta, 61: 4479-4494.
  • Schoel M., 1988. Multiple origins of methane in the Earth. Chemical Geology, 71: 1-10.
  • Sechman, H., Kotarba, M. J. & Dzieniewicz, M., 2009. Surface geochemical survey at Starunia palaeontological site and vicinity (Carpathian region, Ukraine). Annales Societatis Geologorum Poloniae, 79: 375-390.
  • Sokolov, W. A. & Grigoriev, G. G., 1962. Mietodika i rezultaty gazowykh gieokhimicheskikh nieftiegazopoiskowykh rabot. (In Russian). Gostoptiekhizdat, Moskva, 403 pp.
  • Sokołowski, T. & Stachowicz-Rybka, R., 2009. Chronostratigraphy and changes of environment of Late Pleistocene and Holocene at Starunia palaeontological site and vicinity (Carpathian region, Ukraine). Annales Societatis Geologorum Poloniae, 79: 315-331.
  • Sokołowski, T., Stachowicz-Rybka, R. & Woronko, B., 2009. Upper Pleistocene and Holocene deposits at Starunia palaeontological site and vicinity (Carpathian region, Ukraine). Annales Societatis Geologorum Poloniae, 79: 255-278.
  • Stachowicz-Rybka, R., Granoszewski, W. & Hrynowiecka- Czmielewska, A., 2009. Quaternary environmental changes at Starunia palaeontological site and vicinity (Carpathian regoin, Ukraine) based on palaeobotanical studies. Annales Societatis Geologorum Poloniae, 79: 279-288.
  • Ślączka, A., Krugłov, S., Golonka, J., Oszczypko, N. & Popadyuk, I., 2006. Geology and hydrocarbon resources of the Outer Carpathians, Poland, Slovakia and Ukraine: General geology. In: Golonka, J. & Picha, F. J. (eds), The Carpathians and their foreland: Geology and hydrocarbon resources. American Association of Petroleum Geologists Memoir, 84: 221-258.
  • Tedesco, S. A. (ed.), 1995. Surface Geochemistry in Petroleum Exploration. Chapman & Hall Int. Thomson Publ. Co., New York, 206 pp.
  • Whiticar, M. J., 1994. Correlation of natural gases with their sources. In: Magoon, L. B. & Dow, W. G. (eds), The petroleum system - from source to trap. American Association of Petroleum Geologists Memoir, 60: 261-283.
  • Whiticar, M. J. & Faber, E., 1986. Methane oxidation in sediment and water column environments - isotope evidence. Organic Geochemistry, 11: 759-768.
  • Whiticar, M. J., Faber, E. & Schoell, M., 1986. Biogenic methane formation in marine and Fresh water environments: CO2 reductions. vs acetate fermentation-Isotope evidence. Geochimica et Cosmochimica Acta, 50: 693-709.
  • Woltemate, I., Whiticar, M. J. & Schśll, M., 1984. Carbon and hydrogen isotopic composition of bacterial methane in a shallow fresh water lake. Limnologic Oceanography, 29: 985-992.
  • Zhang, Y. G. & Chen, H. J., 1985. Concepts on the generation and accumulation of biogenic gas. Journal of Petroleum Geology, 8: 405-422.
  • Zinger, A. S., 1962. Molecular hydrogen in gas dissolved in waters of oil-gas fields, Lower Volga Region. Geochemistry, 10: 1015-1023.
  • Zobell, C. R., 1947. Microbial transformation of molecular hydrogen in marine sediments, with particular reference to petroleum. American Association of Petroleum Geologists Bulletin, 31: 1709-1751.
  • Zou, Y.-R., Cai, Y., Zhang, Ch., Zhang, X. & Peng, P., 2007. Variations of natural gas carbon isotope-type curves and their interpretation - A case study. Organic Geochemistry, 38: 1398- 1415
Typ dokumentu
Bibliografia
Identyfikator YADDA
bwmeta1.element.baztech-article-BUS7-0001-0014
JavaScript jest wyłączony w Twojej przeglądarce internetowej. Włącz go, a następnie odśwież stronę, aby móc w pełni z niej korzystać.