К реконструкции состава источников сноса триасовых отложений, вскрытых Ен-Яхинской сверхглубокой скважиной СГ-7 (cевер Западной Сибири)

A. V. Maslov, T. V. Karaseva, Yu. L. Ronkin

Аннотация


Анализ микроэлементного состава глинистых пород триаса, вскрытых сверхглубокой скважиной Ен-Яхинская, показал, что в их формировании принимали участие как местные/локальные источники сноса, так и источники далекие, в роли которых могла выступать интенсивно размывавшаяся в это время Уральская складчатая область.


Ключевые слова


Ен-Яхинская сверхглубокая скважина; глинистые породы; распределение редких и рассеянных элементов: триас; источники сноса; север Западной Сибири

Полный текст:

PDF

Литература


Baturina T.P., Saraev S.V., Travin A.V. 2005. Kamennougolnye i permotriasovye vulkanity v zone sochleneniya Urala i Zapadnoy Sibiri [Carboniferous and Permian-Triassic volcanics at the junction of the Urals and Western Siberia]. Geologiya i geofizika. 46(5):504-516. (in Russain)

Belokon-Karaseva T.V., Bashkova S.E., Belyaeva G.L., Ekhlakov Yu.A., Gorbachev V.I. 2006. Perspektivy neftegazonosnosti glubokopogruzhennykh otlozheniy severa Zapadnoy Sibiri po dannym sverkhglubokogo bureniya [Oil and gas potential of deep deposits of the north of Western Siberia according results of ultradeep drilling]. Geologiya nefti i gaza (6):2-9. (in Russian)

Gurari F.G., Budnikov I.V., Devyatov V.P., Ekhanin A.E., Kazakov A.M., Moskvin V.I. 1988. Stratigrafiya i paleogeografiya ranney i sredney yury Zapadno-Sibirsky plity [Stratigraphy and paleogeography of Early and Middle Jurassic of the West-Siberian Plate]. In Regionalnaya stratigrafiya yury Zapadno-Sibirskoy plity. Novosibirsk, SNIIGGiMS, pp. 60-75. (in Russian)

Devyatov V.P., Nikitenko B.L., Shurygin B.N. 2011. Paleogeografiya Sibiri v yurskom periode na etapakh osnovnykh perestroek [Jurassic paleogeography of Siberia on the stages of major reconstruction]. News of paleontology and stratigraphy. 16-17: 87-101. (in Russian)

Erokhin Yu.V., Ivanov K.S., Fedorov Yu.N. 2008. Kontaktovyy metamorfizm v doyurskom osnovanii Shaimskogo rayona Zapadno-Sibirskogo basseina [Contact metamorphism in pre-Jurassic basement of the Shaim region of the Western Siberian megabasin]. In Sostoyanie, tendentsii i problemy razvitiya neftegazovogo potentsiala Zapadnoy Sibiri. Tumen, ZapSibNIIGG, pp. 174-182. (in Russian)

Erokhin Yu.V., Khiller V.V., Ivanov K.S., Rylkov S.A., Bochkarev V.S. 2014. Mineralogiya metamorficheskikh slantsev iz doyurskogo osnovaniya yuzhnoy chasti poluostrova Yamal [Schist’s mineralogy of the pre-Jurassic basement, southern Yamal Peninsula]. Litosfera 5:136-140. (in Russian)

Ekhlakov Yu.A., Yugrumov A.N., Sanfirova S.S. 2012. Novye dannye o stroenii krasnoselkupskoy serii Zapadnoy Sibiri [New data on the structure of Krasnoselkupskaya Group of Western Siberia]. Geologia, geofizika i razrabotka neftyanykh i gazovykh mestorozhdeniy 7:16-25. (in Russian)

Ivanov K.S., Erokhin Yu.V. 2010a. Pozdneordovikskie vylkanity iz ofiolitovoy assotsiatsii fundamenta Shaimskogo rayona (Zapadnaya Sibir) [Late Ordovician volcanic rocks of ophiolite association from the basement of Shaim region (Western Siberia)]. In Ezhegodnik-2009. Yekaterinburg, IGG UB RAS, pp. 134-137. (in Russian)

Ivanov K.S., Erokhin Yu.V. 2010b. Veshchestvennyy sostav i vozrast kislykh vylkanitov i granitoidov doyurskogo osnovaniya Tynyarskoi ploschadi vostoka Yugry [Composition and age of the felsic volcanics and granitoids of the pre-Jurassic basement of Tynyarskaya area of the eastern Yugra]. In Puti realizatsii nefte-gazovogo i rudnogo potentsiala Khanty-Mansiyskogo avtonomnogo okruga-Yugra. V. 1. IzdatNaukaServis, Khanty-Mansiysk, pp. 142-155. (in Russian)

Ivanov K.S., Erokhin Yu.V., Panov V.F., Savenko V.A., Fedorov Yu.N. 2014. Geokhimicheskaya neodnorodnost i reconstruktsiya istochnikov snosa verkhneyurskikh peshchanikov v zapadnoy chasti Zapadnoy Sibiri [The geochemical heterogeneity and reconstruction of the provenances of the Upper Jurassic sandstones in the western part of Western Siberia]. Doklady Akademii nauk. 456(3):332-337. (in Russian)

Ivanov K.S., Erokhin Yu.V., Ronkin Yu.L., Khiller V.V., Rodionov N.V., Lepikhina O.P. 2012b. Pervye svedeniya o ranneproterozoyskom sialicheskom fundamente na vostoke Zapadno-Sibirskoy platformy (rezultaty issledovaniy Tynyarskogo riolit-granitnogo massiva) [The first information about the Early Proterozoic sialic basement in the East of the West Siberian Platform (results of Tynyar rhyolite-granite massif study)]. Geologiya i geofizika. 53(10):1304-1321. (in Russian)

Ivanov K.S., Erokhin Yu.V., Fedorov Yu.N. 2012a. O vozraste granitoidov Nyalinskoy ploshchadi fundamenta Zapadnoy Sibiri [About the age of granitoids of the Nyalinskaya area of Western Siberia]. In Ezhegodnik-2011. Yekaterinburg, IGG UB RAS, pp. 207-210. (in Russian)

Ivanov K.S., Erokhin Yu.V., Fedorov Yu.N., Ponomarev V.S. 2007. Veshchestvennyy sostav plutonov «granitno-metamorficheskoy osi» (Shaimskiy rayon, Zapadnaya Sibir) [Composition of the «granite-schist axis» plutons (Shaim region, Western Siberia)] In Endogennoe orudenenie v podvizhnykh poyasakh. Yekaterinburg, IGG UB RAS, pp. 9-12. (in Russian)

Ivanov K.S., Erokhin Yu.V., Khiller V.V. 2010a. Vozrast granitoudov fundamenta Vostochno-Sheburskoy ploshchadi (Zapadnaya Sibir) [Age of granitoids from the basement of the East-Shebur area (Western Siberia)] In Uralskaya mineralogicheskaya shkola-2010. Yekaterinburg, UrSMU, pp. 76-79. (in Russian)

Ivanov K.S., Koroteev V.A., Pecherkin M.F., Fedorov Yu.N., Erokhin Yu.V. 2009. Istoriya geologicheskogo razvitiya i stroenie fundamenta zapadnoy chasti Zapadno-Sibirskogo neftegazonosnogo megabasseyna [History of geological evolution and the basement structure of the western part of Western Siberian oil-and-gas megabasin]. Geologiya i Geofizika. 50(4):484-501. (in Russian)

Ivanov K.S., Pisetskiy V.B., Erokhin Yu.V., Biglov K.Sh., Pogromskaya O.E., Bikbaev A.Z. 2010b. Byla li zdes’ heft’? (Geokhimicheskiy eksperiment paleozoiskoy chasti razreza skvazhiny Kulynigolskaya 30) [Whether there was oil? (Geochemistry experiment in the Paleozoic section of the Kulynigolskaya 30 borehole)]. In Puti realizatsii neftegazovogo i rudnogo potenstiala Khanty-Mansiyskogo avtonomnogo okruga-Yugra. V. 2. IzdatNaukaServis, Khanty-Mansiisk, pp. 110-116. (in Russian)

Ignatyev V.I. 1962. Tatrskiy yarus tsentralnykh i vostochnykh oblastey Russkoy platformy. 4.2. Fatsii i paleogeografiya [Tatarian Stage of the central and eastern regions of the Russian Platform. 4.2. Facies and paleogeography]. Kazan, Kazanskii universitet, p. 337. (in Russian)

Interpretatsiya geokhimicheskikh dannykh [Interpretation of geochemical data]. 2001. Intermet Inzhiniring, Moskva, p. 288. (in Russian)

Kazakov A.M., Konstantinov A.G., Kurushin N.I., Mogusheva N.K., Sobolev E.S., Fradkina A.F., Yadrenkin A.V., Devyatov V.P., Smirnov L.V. 2002. Stratigrafiya neftegazonosnykh basseynov Sibiri. Triasovaya sistema [Stratigraphy of Siberian oil-and-gas basins. Triassic System]. Izd. SB RAN, Novosibirsk, p. 322. (in Russian)

Kontorovich A.E., Kontorovich V.A., Ryzhkova S.V., Shyrugin B.N., Vakulenko L.G., Gaydeburova E.A., Danilova V.P., Kazanenkov V.A., Kim N.S., Kostureva E.A., Moskvin V.I., Yan P.A. 2013. Paleogeografiya Zapadno-Sibirskogo basseyna v yurskom periode [Paleogeography of the Western Siberian basin in Jurassic]. Geologiya i Geofizika. 54(8):972-1012. (in Russian)

Koronovskiy N.V. 1976. Kratkiy kurs regionalnoy geologii SSSR [Short course of regional geology of the USSR]. Izd. Moskovskogo universiteta, Moskva, p. 398. (in Russian)

Korotkov B.S., Simonov A.V. 2010. Perspektivy poiskov gaza v glubokikh gorizontakh Zapadnoy Sibiri [Prospects of gas exploration in deeper horizons of the Western Siberia]. Vesti gazovoy nauki. 2:48-56. (in Russian)

Kuznetsov N.B., Romanyuk T.V. 2014. Paleozoyskaya evolutsiya Polyarnogo Urala: Voykarskiy basseyn s koroy okeanicheskogo tipa sushchestvoval ne menee 65 mln let [Paleozoic evolution of the Polar Urals: Voykarskiy basin with oceanic crust has been existed at least for 65 million years]. Byulleten MOIP. 89(5):56-70. (in Russian)

Maslov A.V. 2005. Osadochnye porody: metody izucheniya i interpretatsiya poluchennykh dannykh [Sedimentary rocks: methods of study and data interpretation]. UrSMU, Yekaterinburg, p. 289. (in Russian)

Maslov A.V., Mizens G.A., Badida L.V., Krupenin M.T., Vovna G.M., Kiselev V.I., Ronkin Yu.L. 2015. Litogeokhimiya terrigennykh assotsiatsiy yuzhnykh vpadin Preduralskogo progiba [Litho-geohemistry of the terrigenous associations in southern depressions of the Pre-Urals fore-deep]. IGG UB RAS, Yekaterinburg, p. 308. (in Russian)

Maslov A.V., Nozhkin A.D., Podkovyrov V.P., Letnikova E.F., Turkina O.M., Grazhdankin D.V., Dmitrieva N.V., Isherskaya M.V., Krupenin M.T., Ronkin Yu.L., Gareev E.Z., Vescheva S.V., Lepikhina O.P. 2008. Geokhimiya tonkozernistykh terrigennykh porod verkhnego dokembriya Severnoy Evrazii [Geochemistry of fine-grained clastic rocks of the Upper Precambrian, North Eurasia]. UB RAS, Yekaterinburg, p. 274. (in Russian)

Maslov A.V., Shevchenko V.P., Ronkin Yu.L., Lepikhina O.P., Novigatskiy A.N., Filippov A.S., Shevchenko N.V. 2012. Sistematika Th, Cr, Hf, Co i redkozemelnykh elementov v sovremennykh donnykh osadkakh Belogo morya i basseyna nizhnego techeniya r. Severnaya Dvina [Systematics of Th, Cr, Hf, Co, and rare-earth elements in modern bottom sediments of the White Sea and lower reaches of the Severnaya Dvina River]. Doklady Akademii Nauk. 443(2):214-220. (in Russian)

Mizens G.A. 2011. Nekotorye osobennosti raspredeleniya malykh elementov v verkhnepaleozoyskikh krasnotsvetnykh formatsiyakh vostoka Urala [Some features of the distribution of minor elements in Upper Paleozoic red-coloured formations of the East of the Urals]. In Ezhegodnik-2010. IGG UB RAS, Yekaterinburg, pp. 61-64. (in Russian)

Meshcheryakov K.A., Ekhlakov Yu.A., Ugryumov A.N. 2009. Rol izucheniya oblomkov effuzivnykh porod v terrigennykh otlozheniyakh triasa severa Zapadnoy Sibiri [The role of studying the effusive volcanic rocks in the Triassic terrigenous sediments in the north of Western Siberia]. Geologiya i poleznye iskopaemye Zapadnogo Urala. Izd. Permskogo universiteta, Perm, pp. 37-41. (in Russian)

Meshcheryakov K.A., Karaseva T.V. 2010. Osobennosti formirovaniya triasovykh progibov severa Zapadnoy Sibiri v svyazi s neftegazonosnostyu [Features of formation of Triassic depressions in the northern part of Western Siberia in connection with an oil-and-gas presence]. Neftegazovaya geologiya. Teoriya i praktika 5(3). URL: www.ngtp.ru/rub/4/31_2010.pdf (May 3, 2016). (in Russian)

Paleogeografiya severa SSSR v yurskom peroide. [Jurassic paleogeography of the north part of the USSR]. Nauka, Novosibirsk, 1983, p. 191. (in Russian)

Petrov G.A. 2000. Litologo-fatsialnyy analiz bituminoznykh kompleksov verkhnepermskikh otlozheniy v svyazi s otsenkoy resursov bitumov na territirii Tatarstana [Lithofacial analysis of bituminous complexes of Upper Permian deposits in connection with the evaluation of bitumen resources in Tatarstan]. Thesis of kand. geol. mineral. nauk. Kazanskiy gos. universitet, Kazan, p. 236. (in Russian)

Yudovich Ya.E., Ketris M.P. 2000. Основы литохимии [Fundamentals of lithochemistry]. Nauka, Sankt-Petersburg, p. 479 с. (in Russian)

Ali S., Stattegger K., Garbe-Schonberg D., Frank M., Kraft S., Kuhnt W. 2014. The provenance of Cretaceous to Quaternary sediments in the Tarfaya basin, SW Morocco: Evidence from trace element geochemistry and radiogenic Nd–Sr isotopes. J. African Earth Sci. 90:64-76. doi:10.1016/j.jafrearsci.2013.11.010

Cullers R.L. 2000. The geochemistry of shales, siltstones and sandstones of Pennsylvanian-Permian age, Colorado, U.S.A.: Implications for provenance and metamorphic studies. Lithos. 51:305-327. doi:10.1016/S0024-4937(99)00063-8

Cullers R.L., Basu A., Suttner L.J. 1988. Geochemical signature of provenance in sand size material in soils and stream sediments near the Tobacco Root batholith, Montana, USA. Chem. Geol. 70:335-348. doi:10.1016/0009-2541(91)90003-A

Cullers R.L., Podkovyrov V.N. 2002. The source and origin of terrigenous sedimentary rocks in the Mesoproterozoic Ui group, southeastern Russia. Precam. Res. V. 117. P. 157–183. doi:10.1016/S0301-9268(02)00079-7

Frimmel H.E., Tack L., Basei M.S., Nutman A.P., Boven A. 2006. Provenance and chemostratigraphy of the Neoproterozoic West Congolian Group in the Democratic Republic of Congo. J. African Earth Sciences. 46:221–239. doi:10.1016/j.jafrearsci.2006.04.010

Geochemistry of Sediments and Sedimentary Rocks: Evolutionary Considerations to Mineral Deposit-Forming Environments. 2003. Lentz D.R. (Ed.). Geological Association of Canada. GeoText 4. p. 184.

Iizuka T., Komiya T., Rino S., Maruyama S., Hirata T. 2010. Detrital zircon evidence for Hf isotopic evolution of granitoid crust and continental growth. Geochim. Cosmochim. Acta. 74:2450-2472. doi:10.1016/j.gca. 2010.01.023

McLennan S.M. 2001. Relationships between the trace element composition of sedimentary rocks and upper continental crust. Geochemistry, Geophysics, Geosystems. 2. Paper 2000GC000109. p. 24.

Murphy J.B., Fernández-Suárez J., Jeffries T.E. 2004. Lithogeochemical and Sm-Nd and U-Pb isotope data from the Silurian–Lower Devonian Arisaig Group clastic rocks, Avalon terrane, Nova Scotia: A record of terrane accretion in the Appalachian-Caledonide orogeny. GSA Bulletin. 1169:1183. doi: 10.1130/B25423.1

Perri F., Dominici R., Critelli S. 2015. Stratigraphy, composition and provenance of argillaceous marls from the Calcare di Base Formation, Rossano Basin (northeastern Calabria). Geol. Mag. 152:193-209. doi: 10.1017/S0016756814000089

Puy-Alquiza M.J., Miranda-Aviles R., Cruz-Cruz M., Pérez-Arbizu O., Vega-González M., Ana-Zanor G. 2014. Geochemistry and depositional environment of the Losero Formation in the Mesa Central, México. Boletín de la Sociedad Geológica Mexicana. 66:413-430.

Rino S., Komiya T., B.F. Windley, Katayama I., Motoki A., Hirata T. 2004. Major episodic increases of continental crustal growth determined from zircon ages of river sands: implications for mantle overturns in the Early Precambrian. Physics of the Earth and Planetary Interiors. 146:369-394. doi:10.1016/j.pepi. 2003.09.024

Safonova I., Maruyama S., Hirata T., Kon Y., Rino S. 2010. LA ICP MS U–Pb ages of detrital zircons from Russia largest rivers: Implications for major granitoid events in Eurasia and global episodes of supercontinent formation. J. Geodynamics. 50:134-153. doi: 10.1016/ j.jog.2010.02.008

Tao H., Sun S., Wang Q., Yang X., Jiang L. 2014. Petrography and geochemistry of lower carboniferous greywacke and mud-stones in Northeast Junggar, China: Implications for provenance, source weathering, and tectonic setting. J. Asian Earth Scienc-es. 87:11-25. doi:10.1016/j.jseaes.2014.02.007

Taylor S.R., McLennan S.M. 1985. The Continental Crust: Its composition and evolution. London, Blackwell, p. 320.

Veevers J.J., Saeed A. 2007. Central Antarctic provenance of Permian sandstones in Dronning Maud Land and the Karoo Basin: Integration of U–Pb and TDM ages and host-rock affinity from detrital zircons. Sed. Geology. 202:653-676. doi:10.1016/j.sedgeo.2007.07.011

Yan B., Yan W., Miao L., Huang L., Chen Z. 2012. Geochemical characteristics and provenance implication of rare earth elements in surface sediments from bays along Guangdong Coast, Southeast China. Environ. Earth. Sci. 65(7):2195-2205. doi:10.1007/s12665-011-1514-x




DOI: http://dx.doi.org/10.17072/psu.geol.31.35

Ссылки

  • На текущий момент ссылки отсутствуют.