ФЛЮИДНЫЙ ЛИТОГЕНЕЗ – ВАЖНЕЙШЕЕ НАПРАВЛЕНИЕ ЛИТОЛОГИЧЕСКИХ ИССЛЕДОВАНИЙ В ХХІ ст.

A.E. Lukin

doi:10.30836/igs.1025-6814.2014.4.139327

Автор(и)

A.E. Lukin Інститут геологічних наук НАН України, Україна

DOI:

https://doi.org/10.30836/igs.1025-6814.2014.4.139327

Ключові слова:

літологія, флюїди, флюїдний літогенез

Анотація

Системна криза в науках про Землюна межі ХХ і ХХІ ст. торкнулася й літології, що потребує зміни парадигми. Необхідне ув`язування теорії літогенезу із сучасними тектоно-геодинамічними уявленнями і, зокрема, з плюм-тектонікою. Для вирішення цієї проблеми ключове значення має вивчення різних проявів флюїдного літогенезу, пов`язаних з кон- і постседиментаційним вторгненням (супер)глибинних флюїдів у басейни осадового породоутворення на різних стадіях їх тектоно-геодинамічної еволюції. Продукти флюїдного літогенезу у вказаному трактуванні являють собою особливий (порівняно зі звичайними осадовими породами і жильною мінералізацією) тип мінеральних агрегатів, який було запропоновано йменувати пригожинітами.

Посилання

Adushkin V.V., Andreev S.N., Popel S.I., 2004. Cavitation mechanism of nano-, microparticles formation in the interior of the Earth. Doklady RAN, vol. 399, № 1, p. 107-109 (in Russian).

Belenitskaya G.A., 2006. Sphere of sedimentogenesis as the area of current and ancient ascending drain: injection-sedimentary (aclimatic) type of sedimentogenesis. In: Degessing of the Earth: geofluids, oil and gas. Moscow: GEOS, p. 52-56 (in Russian).

Geochemistry of Hydrothermal ore fields, 1970. (Ed. H. Barns). Moscow: Mir, 543 p. (in Russian).

Dzotcenidze G.S., 1970. Volcanogenic-sedimentary ore formation. Litologiya i poleznye iskopaemye, № 2, p. 64-75 (in Russian).

Dobretsov N.L., Kirdyashkin A.G., Kirdyashkin A.A., 2001. Deep geodynamics. Novosibirsk: Izdatelstvo SO RAN; Filial «GEO», 408 p. (in Rus - sian).

Komarov P.V., Tomson I.N., 2007. On plumes and their influence upon formation of noble-metallic are-bearing of carboniferous rocks. Doklady RAN, vol. 415, № 6, p. 779-781 (in Russian).

Korzhinskiy D.S., 1969. The theory of metasomatic zonation. Moscow: Nauka, 57 p. (in Rus - sian).

Kuznetsov V.V., 2008. To the question about the plume’s physics. Geofizicheskiy zhurnal, vol. 30, № 6, p. 76-92 (in Russian).

Letnikov F.A., 1999. Fluid facies of continental litosphera and ore formation problems. Smirnovskiy sbornik. Moscow: Izdatelstvo Mosc. Un-ta, p. 63- 98 (in Russian).

Lithogeodynamics and mineragene of sedimentary basins, 1998. (Ed. acаd. RAN A.D. Tscheglov). St. Peterburg: Izdatelstvo VSEGEI, 480 p. (in Russian).

Lukin A.E.,1989. Genetical types of secondary transformation and oil-gas-accumulation in aulacogene basins. AN USSR. Working paper, 52 p. Kiev: Institut Geologicheskikh Nauk USSR (in Russian).

Lukin A.E., 2000. Injections of deep carbonpolymineral matter in deep-lying rocks of petroliferous basins: nature, applied-scientific and gnosiological significance. Geologichnyy zhurnal, № 2 (288), p. 7-21 (in Russian).

Lukin A.E., 1997. Lithogeodynamical factors of oil-gas-accumulation in aulacogene basins. Kiev: Naukova Dumka, 225 p. (in Russian).

Lukin A.E., 2013. Mineral spherules – indicators of specific fluid regime of ore- and naphtidogenesis. Geofizicheskiy zhurnal, vol. 35, № 6, p. 10-53 (in Russian).

Lukin A.E., 2007. On inclusions of natural compaund of calcium and carbon within mineral aggregates connected with superdeep fluid intrusion. Dopovidi NAN Ukrainy, № 1, p. 122-130 (in Russian).

Lukin A.E., 2005. On shungites genesis. Geologichnyy zhurnal, № 4 (314), p. 28-47 (in Rus - sian).

Lukin A.E., 2004. On through-formation fluid-conducting systems in petroliferous basins. Geologichnyy zhurnal, № 3 (309), p. 34-35 (in Rus sian). 18. Лукин А.Е. Основные проблемы нефтега- зовой литологии. Геол. журн. 2008. № 4 (325). С. 26-38. Lukin A.E., 2008. The main problems of petroliferous lithology. Geologichnyy zhurnal, № 4 (325), p. 26-38.

Lukin A.E., 2002. On phenomena of selforganization while impulse intrusion of deep carbon-containing fluids: Bioinert interactions: life and stone. Proceeding of Intern. Symposium. St.-Petersburg, p. 32-41 (in Russian).

Lukin A.E., 2002. Prigozhinites – the special genetic types of fluid-genetic mineral aggregates: Bioinert interactions: Proceeding of the All-Russian Conference. Syktyvkar: IG Komi NTs UrO RAN, p. 51-53 (in Russian).

Lukin A.E., 2007. The trends of development of present-day lithogenesis theory (about works by G.A. Belenitskaya). Geologichnyy zhurnal, № 1 (318), p. 140-143 (in Russian).

Lukin A.E., 2009. Native-metallic micro- and nano-inclusions in formations of petroliferous basins – tracers of superdeep fluids. Geofizicheskiy zhurnal, vol. 31, № 2, p. 61-92 (in Russian).

Lukin A.E., 2006. Native metals and carbides – the indices of deep geospheres matter composition. Geologichnyy zhurnal, № 4, (317), p. 17-46 (in Russian).

Lukin A.E., Garipov O.M., 1994. Lithogenesis and petroleum potential of Jurrasic deposits of the Middle-latitudinal Pri-Ob’ye. Litologiya i poleznye iskopaemye, № 4, p. 32-42 (in Russian).

Lukin A.E., Zagnitko V.N., Lysenko O.B., 2001. Biolike structures within carbonaceous mineral aggregates and the problem of life origin. Geologichnyy zhurnal, № 3 (297), p. 7-23 (in Russian).

Lukin A.E., Larin S.B., 2003. Genetic types of rocks fracturing of deep-lying petroliferous complexes. Geologichnyy zhurnal, № 3 (305), p. 9-25 (in Russian).

Lukin A.E., Lysenko V.I., Lysenko N.I., Naumko I.M., 2006. On the nature of geraclites. Geolog Ukrainy, № 4, p. 23-39 (in Russian).

Novgorodova M.I., Andreev S.N., Samokhin A.A., 2003. Cavitations effects in formation of mineral microspherules in hydrothermal solutions. Doklady RAN, vol. 389, № 5, p. 669-671 (in Russian).

Haug E., 1938. Geologia. Moscow; Leningrad: ONTI, 471 p. (in Russian).

The Planet Earth. The encyclopedic reference book. Tectonics and geodynamics. St. Petersburg: Izdatelstvo VSEGEI, 2004, 648 p. (in Russian).

Popsui-Shapko G.P., 1987. Geologic and geophysic criteria for oil and gas pools pros pecting. Dr. geol. and mineral. sci., diss. Moscow, 42 p. (in Russian).

Pospelov G.L., 1973. Paradoxes, geologo-geophysical essence and mechanisms of metasomatism. Novosibirsk: Nauka, 355 p. (in Russian).

Rudenskaya N.A., Shveikin G.P., Sokolova N.V., Rudenskaya M.V., 2009. Impulse division of plasmic spheroids. Doklady RAN, vol. 429, № 1, p. 76-78 (in Russian).

Strakhov N.M., 1974а. Geochemical asymmetry of pacific deposits, its reasons and age. Litologiya i poleznye iskopaemye, № 1, p. 11-26 (in Russian).

Strakhov N.M., 1974b. On exhalation upon midoceanic ridges as the source of ore elements in oceanic sediments. Litologia i poleznye iskopaemye, № 3, p. 20-37 (in Russian).

Strakhov N.M. The foundations of lithogenesis theory. Vol. 1-3. Moscow: Izdatelstvo AN SSSR. Vol. 1. 1960. 212 p.; Vol. 2. 1961. 299 p.; Vol. 3. 1962. 549 p. (in Russian).

Strakhov N.M., 1963. Types of lithogenesis and their evolution in the Earth history. Moscow: Izdatelstvo AN SSSR, 299 p. (in Russian).

Strakhov N.M., 1970. Evolution of conceptions about lithogenesis in Russian geology (1870-1970 years). Litologia i poleznye iskopaemye, № 2, p. 35-63 (in Russian).

Glossary of geology, 1977. (Ed. M. Gary, R. McAfee, C. Wolf). Moscow: Mir, vol. 2, 575 p. (in Russian).

Fortov V.G., Khrapak A.G., Yakubov I.T., 2004. The physics of non-ideal plazma. Moscow: Fismatlit, 528 p. (in Russian).

Khain V.E., 2003. The main problems of present- day geology. Moscow: Nauchnyy mir, 346 p. (in Russian).

Shnjukov E.F., Naumenko P.I., Lebedev Yu.S., Sobolevskiy Yu.R., 1971. Mud volcanism and oreformation. Kiev: Naukova Dumka, 332 p. (in Rus - sian).

Yudovich J.E., 2009. Fluid minerals formation – alternative to lithogenesis? Uralskiy geologicheskiy zhurnal, № 4, p. 31-80 (in Russian).

ФЛЮЇДНИЙ ЛІТОГЕНЕЗ – НАЙВАЖЛИВІШИЙ НАПРЯМ ЛІТОЛОГІЧНИХ ДОСЛІДЖЕНЬ В ХХІ ст.

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