V.V. Kharakhinov
 
Sedimentary (oil and gas bearing and potentially oil and gas bearing) systems of the Sea of Okhotsk region: geodynamic arrangement
 
DOI 10.31087/0016‑7894‑2020‑1‑81‑99

Multi disciplinary approach to 3D geodynamic diff erenti ati on of the Cenozoic sedimentary cover of the Sea of Okhotsk Petroleum Province using the sequence analysis allowed disti nguishing sedimentary cyclothems forming the independent structural and material associati ons, and also revealing their relati onships with the global and regional tectonic and eustatic events, which in turn are dependent on the global Earth pulsati ons having a form of plume liberati on of gas from subsurface. In the early stages of plume‑ and rift ‑related Paleocene‑Early Miocene processes, the horst‑graben infrastructure of paleotaphrogens; they were the largest structural elements of the region, which were later transformed into the major oil and gas bearing and potentially oil and gas bearing subprovinces. In the late rift ‑related and post‑rift ti me, the Later Oligocene‑Quaternary subplate cover was formed, which superposes the Paleogene infrastructure; it is represented by the transgressive‑regressive sequences with a structure dictated by the eustati c events. The initi al stages of their formati on are associated with the considerable Sea Level rises, subsynchronous water depth deeping in the region, and accumulati on of predominantly argillaceous formati ons (regional impermeables).
In the period of lowering the water table, the regressive reservoir cyclothems are formed. Endodrainage structures created by the rift ‑related processes and canalizing deep fl uid fl ows are acti vated at the interfaces of cycles in the form of the short‑durable structural rearrangements, which transform the cyclothems into independent structural and strati graphic (oil and gas bearing and potentially oil and gas bearing) sequences. In Pliocene-Quaternary cycles closing the geodynamic evolution of the region, the sedimentary cyclothems are finally transformed into oil-bearing.

Key words: the Sea of Okhotsk region; oil and gas geodynamics; Cenozoic; sedimentary systems; sequence analysis; stratigraphic architecture; geodynamic history.

For citation: Kharakhinov V.V. Sedimentary (oil and gas bearing and potentially oil and gas bearing) systems of the Sea of Okhotsk region: geodynamic arrangement Geologiya nefti i gaza. 2020;(1):81–99. DOI: 10.31087/0016-7894-2020-1-81-99. In Russ.

References

1. Kharakhinov V.V. Geodynamic framework of oil and gas occurrence in the Sea of Okhotsk region. Geologiya nefti i gaza. 2018;(2):25–39. DOI: 10.31087/0016-7894-2018-2-25-39. In Russ.
2. Kharakhinov V.V. Neftegazovaya geodinamika [Oil and gas geodynamics]. Moscow: Nauchnyi mir; 2019. 124 p. In Russ.
3. Kharakhinov V.V. Neftegazovaya geologiya Sakhalinskogo regiona [Petroleum geology of the Sakhalin Region]. Moscow: Nauchnyi mir; 2010. 276 p. In Russ.
4
. Nikiforov V.M., Shkabarnya G.N., Zhukovin A.Y., Kaplun V.B., Palshin N.A., Varentsov I.M., Cuong D.H., Phach P.V., Vuong H.V., Starzhinsky S.S. Vertical fault systems in the tectonosphere geoelectrical section in petroliferous domains of Sakhalin Island (Russia) and Gulf of Tonkin (Vietnam): Evidence from magnetotelluric sounding. Russian Journal of Pacific Geology = Tikhookeanskaya geologiya. 2016;10(6):395–407. DOI: 10.1134/S181971401606004X.
5. Marakushev A.A., Marakushev S.A. Vodorodnoe dykhanie Zemli — ego proiskhozhdenie, geologicheskie i biologicheskie sledstviya [Hydrogenbreath of the Earth — its origin, geological and biological effects]. Al'ternativnaya energetika i biologiya. 2008;57(1):156–174. In Russ.
6. Milanovskii E.E. O korrelyatsii faz uchashcheniya inversii geomagnitnogo polya, ponizhenii urovnya Mirovogo okeana i faz usileniya deformatsii szhatiya zemnoi kory v mezozoe i kainozoe [Correlation of phases of increase in frequency of geomagnetic field inversion, World Ocean level decrease and phases of increase in Earth crust compression deformations in Mesozoic and Cenozoic]. Geotektonika = Geotectonics. 1996;(1):3–11.In Russ.
7. Belonin M.D., Grigorenko Yu.N., Margulis L.S., Andieva T.A., Sobolev V.S., Goma L.M., Fregatova N.A., Voronkov Yu.S., Pylina L.M., Brazhaev V.I.,Zhukova L.I. Razvedochnyi potentsial Zapadnoi Kamchatki i sopredel'nogo shel'fa (neft' i gaz) [Exploration potential of West Kamchatka and adjacent shelf (oil and gas)]. St. Petersburg: Nedra; 2003. 120 p. In Russ.
8. Avdeiko G.P., Areshev E.G., Bogdanov N.A., Gnibidenko G.S., Melankholina E.N., Margulis L.S., Radchenko V.G., Rozhdestvenskii V.S., Filatova N.I., Kharakhinov V.V., Chekhovich V.D., Shipilov E.V., Popov O.K. Obyasnitel'naya zapiska k tektonicheskoi karte Okhotomorskogo regiona masshtaba 1 : 2 500 000 [Explanatory note to the Tectonic Map of the Sea of Okhotsk Region, scale 1 : 2 500 000]. Moscow: ILOVM RAN; 2000. 193 p. In Russ.
9. Gladenkov Yu.B. Biosfernaya stratigrafiya (problemy stratigrafii nachala XXI veka) [Biosphere stratigraphy (issues of stratigraphy in early XXI century)]. Moscow: GEOS; 2004. 220 p. In Russ.
10. Gladenkov Yu.B., Sal'nikov B.A., Borovtsev A.K., Boyarinova M.E., Voevodin Yu.B., Volobueva V.I., Kovtunovich P.Yu., Shantser A.E. Ob’yasnitel'naya zapiska. Resheniya rabochikh mezhvedomstvennykh regional'nykh stratigraficheskikh soveshchanii po paleogenu i neogenu vostochnykh regionov Rossii – Kamchatki, Koryakskogo nagor'ya, Sakhalina i Kuril'skikh ostrovov [Explanatory note. Resolutions of the regional workshops on Paleogene and Neogene stratigraphy in the Russian East – Kamchatka, Koryak Highlands, Sakhalin, and Kuril Islands]. Moscow: GEOS; 1998. 146 p. In Russ.
11. Gladenkov Yu.B., Gladenkov A.Yu., Bordunov S.N., Chekhovich V.D., Aleksandrova G.N., Vodovozov V.Yu., Geptner A.R., Dmitrieva T.V., Pokrovskii B.G., Trubikhin V.M., Fregatova N.A. Opornyi razrez kainozoya Zapadno-Kamchatskoi strukturno-formatsionnoi zony [Standard Cenozoic section of the West Kamchatka structural and formational zone]. Moscow: GEOS; 2018. 202 p. In Russ.

12. Zharov A.E., Kirillova G.L., Margulis L.S., Chuiko L.S., Kudel'kin V.V., Varnavskii V.G., Gagaev V.N. Geologiya, geodinamika i perspektivy neftegazonosnosti osadochnykh basseinov Tatarskogo proliva [Geology, geodynamics, and petroleum potential of sedimentary basins in the Gulf of Tartary]. Vladivostok: DVO RAN; 2004. 220 p. In Russ.
13. Mishakov G.S., Babaeva N.I., Koval'chuk V.S. Usloviya nakopleniya neogenovykh otlozhenii Severnogo Sakhalina [Depositional settings of Neogene formations in the Northern Sakhalin]. Sovetskaya geologiya. 1985;(7):56–68. In Russ.
14. Sinel'nikova V.I., Vitukhin D.I., Kharakhinov V.V., Mazarovich O.A. Geologiya Zapadnoi Kamchatki. Putevoditel' [Geology of Western Kamchatka. Field guide]. Moscow: GIN RAN; 2003. 64 p. In Russ.

15. Van Wagoner J.C., Mitchum P.N., Campion K.M., Rahmanian V.D. Silicit clactic sequence stratigraphy in well logs, cores, and outcrops: concert of high-resolution correlation of time and facies. Tulsa: AAPg; 1990. 55 p.
16. Pozament'er G., Allen Dzh.P. Sekvensnaya stratigrafiya terrigennykh otlozhenii. Osnovnye printsipy i primenenie [Sequence stratigraphy of terrigenous deposits. Basic Principles and application]. Moscow: Gazprom neft'; Izhevsk : Institut komp'yuternykh issledovanii; 2014. 436 p. In Russ.
17. Volozh Yu.A., Antipov M.P., Varshavskaya I.E., Lipatova V.V., Bobylova E.E. Sekventnaya stratigrafiya: ponyatie, sovremennoe sostoyanie i problem [Sequence stratigraphy: idea, current state, and problems]. In: Osadochnye basseiny: metodika izucheniya, stroenie i evolyutsiya. Moscow: Nauchnyi mir; 2004. pp. 388–400. In Russ.
18. Hag B., Hardenboi J., Vail P. Mezozoic and Cenozoic chronostratigrahy and cycles of sea-level change. In: Sea-level changes: an integrated approach. Tulsa: SEPM; 1988. pp. 71–108.
19. Hardenbol J., Thierry J., Farley M., Jacquin T., De Graciansky P.C., Vail P.R. Mesozoic and Cenozoic sequence chronostratigraphic framework of European Basins. SEPM (society of sedimentary Geology) Special Publication. 1998;(60):51–77.
20. Kharakhinov V.V., Tuezov I.K., Baboshina V.A., Tereshchenkov A.A., Sal'nikov B.A., Shainyan S.Kh., Bpaneshnikov V.D., Maslov L.A. Struktura i dinamika litosfery i astenosfery Okhotomorskogo regiona [Structure and dynamics of lithosphere and astenosphere of the Sea of Okhotsk region]. Moscow: Natsional'nyi geofizicheskii komitet RAN; 1996. 335 p. In Russ.
21. Shainyan S.Kh., Kharakhinov V.V. Pereryvy i nesoglasiya v razreze kainozoya Okhotomor'ya (po seismicheskim dannym) [Discontinuities and unconformities in Cenozoic section of the Sea of Okhotsk region (according to seismic data)]. Byulleten' Moskovskogo obshchestva ispytatelei prirody. Otdel geologicheskii. 1991;66(6):51–58. In Russ.
22. Gladenkov Y.B. Cenozoic orogenic phases in the northwestern framing of the Pacific. Stratigraphy and Geological Correlation = Stratigrafiya. Geologicheskaya korrelyatsiya. 2013; 21(4):117–123. DOI: 10.1134/S0869593813040047.
23. Golozubov V.V., Kasatkin S.A., Yokoyama K., Tsutsumi Y., Kiyokawa S., Sokolov S.D., Sorokin A.A. Miocene dislocations during the formation of the Sea of Japan basin: Case study of Tsushima Island. Geotectonics = Geotektonika. 2017;51(4):412–427. DOI: 10.1134/S0016852117040045.
24. Margulis L.S., Margulis E.A. Lithology of paleogene deposits south-west Sakhalin. Razvedka i okhrana nedr. 2010;(4):17–22. In Russ.
25. Rozhdestvenskii V.S. Active rifting in the Japan and Okhotsk Seas and the tectonic evolution of the Central Sakhalin Fault zone in the Cenozoic. Russian Journal of Pacific Geology = Tikhookeanskaya geologiya. 2008;2(1):15–24. DOI: 10.1007/s11720-008-1002-z
26. Sсhellart W.P., Jessel M.W., Lister G.S. Asymmetric deformation in the backarc region of the Kuril arc, northwest Pacific: New insights from analogue modeling. Tectonics. 2003;22(5):1–17. DOI: 10.1029/2002TC001473.
27. Otofuji V. Large tectonic movement of the Japan Arc in late Cenozoic times inferred from paleomagnetism: Review and synthesis. Island Arc.1996;5(3):229–249. DOI: 10.1111/j.1440-1738.1996.tb00029.x.

28. Emel'yanova T.A., Lelikov E.P. Superplyum kak odin iz mekhanizmov formirovaniya okrainnykh morei Zapadno-Tikhookeanskoi zony perekhoda (na primere Yaponskogo i Okhotskogo morei) [Superplume as one of the mechanisms for marginal seas formation within the West Pacific transitional zone (by the example of the Sea of Japan and the Sea of Okhotsk)]. In: Geologicheskaya istoriya, vozmozhnye mekhanizmy i problemy formirovaniya vpadin s subokeanicheskoi i anomal'no tonkoi koroi v provintsiyakh s kontinental'noi litosferoi. Materialy 45-go Tektonicheskogo soveshchaniya. Moscow: GEOS; 2013. pp. 62–65. In Russ.
29. Zhuravlev A.V. Vozmozhnosti nestandartnogo analiza seismicheskikh materialov dlya poiskov poleznykh iskopaemykh (na primere Okhotsko-Kuril'skogo regiona) [Exploration activities: capabilities of unconventional analysis of seismic data (by the example of the Okhotsk-Kuril region)].
Moscow: VNIIOENG, 1995. 44 p. In Russ.

 

V.V. Kharakhinov  Scopus

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