GEODYNAMICS AND HISTORY OF THE WESTERN PACIFIC MARGINAL SEAS FORMATION AS VORTEX STRUCTURES
Аннотация
In the tectonic structure of the Earth, formed by rotational processes, a stable regmatic network (tectonic framework) and structures of the central type (ring, vortex, etc.) are of the main importance. Lithosphere plates are global vortex systems arisen as a result of the tectonic flow of masses in the state of a viscous fluid. Eddy structures are tectonic complexes in which the results of vertical and horizontal tectonic movements combination are captured and can be recorded by direct geological observations. In the Western Pacific Ocean, it is noteworthy a series of structures in the form of a system of marginal seas representing the Western Pacific continent-ocean transition zone. The tectonic evolution of the West Pacific region is the formation of lithosphere eddies series in the continent-ocean junction zone. It is associated with the Earth mantle and upper shells (tectonospheres) energy interaction, due to the unstable regime of the planet’s rotational dynamics. Of particular interest are the global shear zones and eddies of the lithosphere formed as a result of horizontal and vertical tectonic movements combination. It is shown that: 1) all tectonic dislocations contain both horizontal and vertical components of the movement velocity, the former dominating in the structure formation of the region; 2) their interaction outcome is vortex and other nonlinear deformations of the lithosphere, which constitute the main type of structural elements of the region; 3) they are often accompanied by the tectonosphere magmatic activation in the form of convective movements and / or plumes “floating”; 4) the Western Pacific marginal-sea depressions are the funnels of convective cells, which formed lithosphere eddies under the conditions of a shift in the interacting lithosphere plates velocities.
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Литература
REFERENCE: Izosov L.A., Emelyanova T.A., Melnichenko Yu.I., Lee N.S. Geodynamics and history of the western Pacific marginal seas formation as vortex structures. Regional’nye problemy, 2023, vol. 26, no. 3, pp. 45–65. (In Russ.). DOI: 10.31433/2618-9593-2023-26-3-45-65.
Anosov G.I., Koloskov A.V., Flerov G.B. Features of manifestation of ultramafic rocks of the Kamchatka region from the standpoint of eddy geodynamics, in Vikhri v geologicheskikh protsessakh (Vortex-related events of the geological processes). Petropavlovsk-Kamchatsky: KamSPU, 2004, pp. 129–200. (In Russ.).
Artyushkov E.V. Earth’s matter density differentiation and the associated phenomena. Izvestiya AN USSR. Phys. Earth., 1970, no. 5, pp. 18–30. (In Russ.).
Benioff X. Movements on the largest faults, in Dreif kontinentov (Continental drift). Moscow: Mir Publ., 1966, pp. 75–104. (In Russ.).
Bersenev I.I. Axial rotation of the Earth as one of the causes of geotectogenesis, in Stroenie i raz-vitie zemnoi kory (Structure and development of the Earth’s crust). Moscow: Nauka Publ., 1964, pp. 194–200. (In Russ.).
Bersenev I.I., Bezverkhny V.L., Lelikov E.P. Structure and development of the bottom of the Sea of Japan, in Geodinamicheskie issledovaniya (Geodynamic research). Moscow: Geophysical Committee of the USSR Academy of Sciences, 1988, no. 11, pp. 60–67. (In Russ.)
Bogdanov N.A. Tektonika glubokovodnykh vpadin okrainnykh morei (Tectonics of deep-sea basins of marginal seas). Moscow: Nedra Publ., 1988. 220 p. (In Russ.).
Vasiliev B.I. Geologicheskoe stroenie i proiskhozhdenie Tikhogo okeana (Geological structure and origin of the Pacific ocean). Vladivostok: Dal’nauka Publ., 2009. 560 p. (In Russ.).
Vasilyeva M.A., Zavyalov A.D., Petrishchevsky A.M. Evaluation of representative magnitude for earthquake catalogues in southern regions of Russian Far East in 2003-2015. Regional’nye problemy, 2018, vol. 21, no. 3, pp. 5–14. (In Russ.).
Vernadsky V.I. Filosofskie mysli naturalista (Philosophical thoughts of a naturalist). Moscow: Nauka Publ., 1988. 520 p. (In Russ.).
Vikulin A.V. Fizika volnovogo seismicheskogo protsessa (Physics of the wave seismic process). Petropavlovsk-Kamchatsky: KOMSP GS RAS: KSPU, 2003. 151 p. (In Russ.).
Vikulin A.V. Fizika Zemli i geodinamika (Physics of the Earth and geodynamics). Petropavlovsk-Kamchatsky: KamSU im. Vitus Bering, 2008. 463 р. (In Russ.).
Vikulin A.V., Melekestsev I.V. Seismicity, volcanism of the Pacific Ocean and the planets’ rotation. B”lgarsko geofizichno spisanie, 1997, vol. XXIII, no. 1, рp. 62–68. (In Russ.).
Vikhri v geologicheskikh protsessakh (Vortex-related events of the geological processes), A.V. Vikulin Ed. Petropavlovsk-Kamchatsky: KamSPU, 2004. 297 p. (In Russ.).
Voronov P.S. The role of the rotational forces of the Earth in the history of the formation of the structure of its lithosphere, in Evolyutsiya geologicheskikh protsessov v istorii Zemli (The evolution of geological processes in the history of the Earth). Moscow: Nauka Publ., 1993, pp. 104–114. (In Russ.).
Geodinamika, magmatizm i metallogeniya Vostoka Rossii (Geodynamics, magmatism and metallogeny of the East of Russia). Book 1., A.I. Khanchuk Ed. Vladivostok: Dal’nauka Publ., 2006. 572 p. (In Russ.).
Geodinamika, magmatizm i metallogeniya Vostoka Rossii (Geodynamics, magmatism and metallogeny of the East of Russia). Book 2., A.I. Khanchuk Ed. Vladivostok: Dal’nauka Publ., 2006. 981 p. (In Russ.).
Geodinamika. Osnovy kinematicheskoi geodezii (Geodynamics. Fundamentals of kinematic geodesy), S.P. Voitenko, I.L. Uchitel, V.N. Yaroshenko, B.B. Kapochkin. Odessa: Astroprint Publ., 2007. 259 p. (In Russ.).
Geologiya dna Yaponskogo morya (Geology of the bottom of the Sea of Japan), I.I. Bersenev, E.P. Lelikov, V.L. Bezverkhniy et al. Vladivostok: Far Eastern scientific center of the USSR Academy of Sciences, 1987. 140 p. (In Russ.).
Goncharov M.L. Vvedenie v tektonofiziku (Introduction to tectonophysics), M.L. Goncharov, V.G. Talitsky, P.S. Frolova. Moscow: Universitet Publ., 2005. 496 p. (In Russ.).
Gubanova M.А., Petrishchevsky A.M. Gravity and seismological fitures of rheological layering of Far East Russia lithosphere. Litosfera, 2014, no. 6, pp. 150–160. (In Russ.).
Davydov A.V., Dolgikh G.I., Zapolsky A.M., Copeville U.S. Registration of natural oscillations of geoblocks using laser strainmeters. Tikhookeanskaya geologiya, 1988, no. 2, pp. 117–118. (In Russ.).
Dobretsov N.L., Kirdyashkin A.A., Kirdyashkin A.G. Diameter and formation time of plume head at the base of refractory lithospheric layer. Doklady Akademii nauk, 2006, vol. 406, no. 1, pp. 99–103. (In Russ.).
Emelyanova T.A., Lelikov E.P. The role of volcanism in the development of the Japan, Okhotsk, and Philippine marginal seas. Petrologiya, 2010, vol. 18, no. 6, pp. 73–94. (In Russ.).
Emelyanova T.A., Petrishchevsky A.M., Izosov L.A., Lee N.S., Pugachev A.A. Late Mesozoic–Cenozoic Stages of Volcanism and Geodynamics of the Sea of Japan and Sea of Okhotsk. Petrologiya, 2020, vol. 28, no. 5, pp. 468–481. (In Russ.).
Izosov L.A. Problemy geologii i almazonosnosti zony perekhoda kontinent-okean. Yaponomorskii i Zheltomorskii regiony (Problems of geology and diamond potential of the continent-ocean transition zone. Regions of the Japan and Yellow Seas), L.A. Izosov, Yu.I. Konovalov, T.A. Emel’yanova. Vladivostok: Dal’nauka Publ., 2000. 326 p. (In Russ.).
Izosov L.A., Petrishchevsky A.M., Emel’yanova T.A., Chuprynin V.I., Lee N.S., Vasilyeva M.A. The Model of Formation of the Western Pacific Marginal Seas: Vortex Geodynamics, Seismicity, and Mantle Upwelling. Vulkanologiya i seismologiya, 2020, no. 1, pp. 49–63. (In Russ.).
Izosov L.A., Chuprynin V.I. Formation mechanism of central-type structures in the West Pacific continent–ocean transition zone. Geotektonika, 2012, vol. 46, no. 3, рр. 70–92. (In Russ.).
Izosov L.A., Chuprynin V.I., Mel’nichenko Yu.I., Lee N.S. Morphostructural analysis in solving geological problems of Eastern part of Asia. Geomorfologiya, 2018, no. 4, pp. 3–17. (In Russ.).
Izosov L.A., Chuprynin V.I., Petrishchevskij A.M., Emel’yanova T.A., Mel’nichenko Yu.I., Vasil’eva M.A., Lee N.S. Formation of marginal seas of the Pacific Ocean: a consequence of shear instability and asthenospheric diapirism. Vestnik KRAUNTs. Nauki o Zemle, 2020, vol. 2, no. 46, pp. 85–101. (In Russ.).
Kazansky B.A. Orderliness of the relief of the Pacific margin of Asia. Tikhookeanskaya geologiya, 1997, vol. 16, no. 3, рр. 29–33. (In Russ.).
Koloskov A.V., Anosov G.I. Some aspects of the geological structure and features of the manifestation of volcanism on the active margins of the Pacific Ocean as a consequence of the concept of mantle vortex geodynamics, in Problemy istochnikov glubinnogo magmatizma i plyumy (Problems of sources of deep magmatism and plumes). Petropavlovsk-Kamchatsky; Irkutsk: IG SB RAS, 2005, рр. 272–288. (In Russ.).
Koloskov A.V., Anosov G.I. Features of geological structure and Late Cenozoic vulcanism of the East Asian margin within the framework of the concept of vortex geodynamics, in Fundamental’nye issledovaniya morei i okeanov (Fundamental research of seas and oceans). Moscow: Nauka Publ., 2006, vol. 1, рр. 278–291. (In Russ.).
Koloskov A.V., Gontovaya L.I., Popruzhenko S.V. The upper mantle of Kamchatka in isotopic-geochemical and geophysical anomalies: The role of asthenospheric diapirism. Tikhookeanskaya geologiya, 2014, vol. 33, no. 3, рр. 3–13. (In Russ.).
Kol’tsevye struktury Zemli: mif ili real’nost’? (The ring structures of the Earth: myth or reality?), Y.G. Katz, V.V. Kozlov, A.I. Poletaev, E.D. Solidi-Kondrat’ev. Moscow: Nauka Publ., 1989. 190 p. (In Russ.).
Carrie W. V poiskakh zakonomernostei razvitiya Zemli i Vselennoi. Istoriya dogm v naukakh o Zemle (In Search of Patterns in the Development of the Earth and the Universe. The history of dogmas in the geosciences). Moscow: Mir Publ., 1991. 448 p. (In Russ.).
Lelikov E.P., Karp B.Ya. Deep Crustal Structure and Rifting of the Japan Sea. Litosfera, 2004, no. 2, pp. 16–29. (In Russ.).
Lee N.S. About the connection of earthquakes with the deep structure of the Japan sea link of the Western-Pacific continent – ocean transition zone. Regionalʹniye problemy, 2013, vol. 16, no. 2, pp. 25–29. (In Russ.).
Li Sy-guan Vikhrevye i drugie problemy, otnosyashchiesya k sochetaniyu geotektonicheskikh sistem severo-zapadnogo Kitaya (Vortex and other problems related to the combination of geotectonic systems of northwestern China). Moscow: Gosgeoltekhizdat Publ., 1958. 131 p. (In Russ.).
Loitsyansky L.G. Hydrodynamic theory of spherical bearing. Prikladnaya matematika i mekhanika, 1995, vol. XIX, no. 5, pp. 531–540. (In Russ.).
Maslov L.A. Geodinamika litosfery Tihookeanskogo podvizhnogo poyasa (Geodynamics of the lithosphere of the Pacific mobile belt). Khabarovsk; Vladivostok: Dal’nauka Publ., 1996. 200 p. (In Russ.).
Maslov L.A., Romanovsky N.P. The structure of the Pacific mobile belt and its dynamics according to surface and deep geological and geophysical data. Tikhookeanskaya geologiya, 1989, no. 3, pp. 3–23. (In Russ.).
Melekestsev I.V. Vortex volcanic hypothesis and some prospects of its application, in Problemy glubinnogo vulkanizma (Problems of deep volcanism). Moscow: Nauka Publ., 1979, рр. 125–155. (In Russ.).
Melekestsev I.V. Vortex volcanic hypothesis and evolution of the morphostructure of the North Pacific, in Petrologiya i metallogeniya bazit-giperbazitovykh kompleksov Kamchatki (Petrology and metallogeny of the basic-hyperbasic complexes of Kamchatka). Petropavlovsk-Kamchatsky, 2000, pp. 9–11. (In Russ.).
Melekestsev I.V. The role of vortices in the origin and life of the Earth, in Vihri v geologicheskih processah (Vortex-related events of the geological processes). Petropavlovsk-Kamchatsky: KamSPU, 2004, pp. 25–70. (In Russ.).
Mirlin E.G. The problem of vortical movements in the solid earth and their role in geotectonics. Geotektonika, 2006, no. 4, pp. 43–60. (In Russ.).
Mirlin E.G., Oganesyan L.V. Vikhri v litosfere (Vortices in the lithosphere). Moscow: VNIIGEOSYSTEMS, 2015. 148 p. (In Russ.).
Pavlovsky E.V. Early stages of the development of the earth’s crust. Izvestiya AN SSSR. Seriya Geologiya, 1970, no. 5, pp. 23–39. (In Russ.).
Petrishchevsky A.M. Gravity models of two-level collision of lithospheric plates in Northeast Asia. Geotektonika, 2013, no. 6, рр. 60–83. (In Russ.).
Petrushchevsky A.M., Vasilyeva M.A. Alternative methods for estimation of rheological conditions of tectonic media in the crust and upper mantle of the western Pacific margins. Vestnik KRAUNTs. Nauki o Zemle, 2017, no. 4 (36), рр. 39–55. (In Russ.).
Petrishchevsky A.M., Izosov L.A., Emelyanova T.A., Vasileva M.A., Lee N.S. Structure, Rheology, Petrology, and Geodynamics of the Tectonosphere of the Sea of Japan. Okeanologiya, 2021, vol. 61, no. 1, pp. 116–131. (In Russ.).
Petrishchevsky A.M., Yushmanov Y.P. Geophysical, magmatic and metallogenic manifestation of a mantle plume in the upper reaches of the Aldan and Amur. Geologiya i geofizika, 2014, vol. 55, no. 4, pp. 568–593. (In Russ.).
Poletaev A.I. Rotational tectonics of the earth’s crust, in Tektonika zemnoi kory i mantii. Tektonicheskie zakonomernosti razmeshcheniya poleznykh iskopaemykh: materialy XXXVIII Tektonicheskogo soveshchaniya (Tectonics of the earth’s crust and mantle. Tectonic patterns of distribution of minerals. Materials of the XXXVIII Tectonic Meeting). Moscow: GEOS Publ., 2005, vol. 2, pp. 97–100. (In Russ.).
Pushcharovsky Yu.M. The main features of the structure of the Pacific tectonic belt. Geotektonika, 1965, no. 6, pp. 19–34. (In Russ.).
Pushcharovsky Yu.M. On Three Paradigms in Geology. Geotektonika, 1995, no. 1, pp. 4–11. (In Russ.).
Rikitake T. Geophysical and geological data on the Japanese island arc and its framing, in Okrainy kontinentov i ostrovnye dugi (Continental margins and island arcs). Moscow: Mir Publ., 1970, pp. 217–236. (In Russ.).
Sadovsky M.A. Self-similarity of geodynamic processes. Vestnik AN SSSR, 1986, no. 8, pp. 3–11. (In Russ.).
Sadovsky M.A., Pisarenko V.F. Randomness and instability in geophysical processes. Fizika Zemli, 1989, no. 2, pp. 3–12. (In Russ.).
Slenzak O.I. Vihrevye struktury litosfery i struktury dokembriya (Vortex structures of the lithosphere and structures of the Precambrian). Kiev: Nauk. Dumka Publ., 1972. 183 p. (In Russ.).
Sorokhtin O.G. Global’naya evolyutsiya Zemli (Global evolution of the Earth). Мoscow: Nauka Publ., 1974. 184 p. (In Russ.).
Tarakanov R.Z. Focal zones and their role in the development of island-arc systems, in Geologiya dal’nevostochnoi okrainy Azii: Geologiya zony perekhoda ot kontinenta k okeanu (Geology of the Far Eastern margin of Asia: Geology of the transition zone from the continent to the ocean). Vladivostok, 1981, pp. 53–66. (In Russ.).
Tarakanov R.Z. Generalized velocity model of the transition zone from the Asian continent to the Pacific Ocean (refined version), in Problemy geodinamiki i prognoza zemletryasenii. I Rossiisko-Yaponskii seminar (Problems of geodynamics and earthquake prediction. I Russian-Japanese Seminar). Khabarovsk, 2001, pp. 72–74. (In Russ.).
Tveritinova T.Yu., Vikulin A.V. Geological and geophysical signs of vortex structures in geological medium. Vestnik KRAUNTs. Nauki o Zemle, 2005, no. 5, рр. 59–76. (In Russ.).
Tektonika i geofizika litosfery: materialy XXXV Tektonicheskogo soveshchaniya (Tectonics and geophysics of the lithosphere. Materials of the XXXV Tectonic Conference). Moscow: GEOS Publ., 2002, vol. 1, 368 p.; vol. 2, 378 p. (In Russ.).
Tyapkin K.F., Dovbnich M.M. Rotation of the Earth as the only real energy source of tectogenesis. Geofizika, 2007, no.1, pp. 59–64. (In Russ.).
Utkin V.P. East Asian global shear zone, volcanic belt, and marginal seas. Doklady Akademii nauk SSSR, 1978, vol. 240, no. 2, рр. 400–403. (In Russ.).
Filatova N.I. Specifics of magmatism in marginal continental and marginal-sea pull-apart basins: Western periphery of the Pacific Ocean. Petrologiya, 2008, vol. 16, no. 5, рр. 480–500. (In Russ.).
Filatyev V.P. Mekhanizm formirovaniya zony perekhoda mezhdu Aziatskim kontinentom i Severo-Zapadnoi Patsifikoi (The Mechanism of Formig the Transitional zone between the asian continent and North-West Pacific). Vladivostok: Dal’nauka Publ., 2005. 273 p. (In Russ.).
Khain V.E. Geotektonika s osnovami geodinamiki (Geotectonics with the basics of geodynamics), V.E. Khain, M.G. Lomize. Мoscow: MSU, 1995. 476 p. (In Russ.).
Khain V.E., Poletaev A.I. Rotational tectonics: prehistory, current state, development prospects, in Rotatsionnye protsessy v geologii i fizike (Rotational processes in geology and physics). Мoscow: KomKniga Publ., 2007, pp. 17–38. (In Russ.).
Chuprynin V.I., Izosov L.A. Model of the formation of marginal seas in the western Pacific Ocean. Doklady Akademii nauk, 2017, vol. 472, no. 1, рр. 68–71. (In Russ.).
Scheidegger A.E. Osnovy geodinamiki (Fundamentals of geodynamics). Moscow: Nedra Publ., 1987. 384 p. (In Russ.).
Shilo N.A. About the formation mechanism of the solar system. Tikhookeanskaya geologiya, 1982, no. 6, pp. 20–27. (In Russ.).
Cella F., Fedi M., Florio G., Rapolla A. Gravity modelling of the litho-asthenosphere system in the Central Mediterranean. Tectonophysics, 1998, vol. 287, no. 1, pp. 117–138.
Ehiro M. Origin and drift histories of some microcontinents distributed in eastern margin of Asian Continent. Earth Science, 2001, vol. 55, no. 2, pp. 71–81.
Ernst R.E., Buchan K.L. Maximum size and distribution in time and space of mantle plumes: evidence from large igneous provinces. Journal of Geodynamics, 2002, vol. 34, no. 2, pp. 309–342.
Hobbs W. Lineaments of the Atlantic border region. Geological Society of America Bulletin, 1904, vol. 15, pp. 483–506.
Jakson E.D., Shaw H.R., Bargar K.E. Calculated geochronology and stress field orientations along the Hawaiian chain. Earth Planet Sci. Lett, 1975, vol. 26, pp. 145–155.
Karig D.E. Tectonic erosion at trenches. Earth Planet. Sci. Lett, 1974, vol. 21, pp. 209–202.
Klimets M.P. Speculations the Mesozoic plate tectonic evolution of Eastern China. Tectonics, 1983, vol. 2, no. 2, pp. 139–166.
Kojima S. Mesozoic Terrane accretion in North-East China, Sikhote-Alin and Japan regions. Palaeogeography, Palaeoclimatology, Palaeoecology, 1989, vol. 69, pp. 213–232.
Lee J.S. Some Characteristic Structural Types in Eastern Asia and their Bearing upon the Problems of Continental Movements. Geol. Mag, 1929, vol. 66, pp. 422–430.
Ludwig W.J., Ewing J.I., Ewing M., Murauchi S., Den N., Asano S., Hotta H., Hayakawa M., Asanuma T., Ichikawa K., Noguchi I. Sediments and structure of the Japan Trench. J. Geophys. Res., 1966, vol. 71, pp. 2121–2137.
Saunders A.D., Jones S.M., Morgan L.A., Pierce K.L., Widdowson M., Xu Y. Regional uplift associated with continental large igneous provinces: the role of mantle plumes and the lithosphere. Chemical Geology, 2007, vol. 241, pp. 282–318.
Sonder R.A. Die Lineament Tektonik und ihre Probleme. Eclogae Geologicae Helvetiae, 1938, vol. 31, no. 1, pp. 199–238.
Takeuchi A. Pacific swing: Cenozoic episodicity of tectonism and volcanism in Northeastern Japan. Memoir of the Geological Society of China, 1986, vol. 7, pp. 233–248.
Uyeda S. Subduction zone: facts, ideas and speculations. Oceanus, 1979, vol. 22, pp. 52–62.
Wadati K. On the activity of deep focus earthquakes in the Japan islands and neighbourhoods. Geophysical Magazine, 1935, vol. 8, pp. 305–325.
Wakitа К. Accretionary tectonics in Japan. Bulletin of the Geological Survey of Japan, 1989, vol. 40, no. 5, pp. 251–253.
Xu Jiawei, Tong Weixing, Zhu Guang, Lin Shoufa, Ma Goufeng An outline of the pre-Jurassic tectonic framework of East Asia. Journ. of Southeast Asian Earth Sci., 1989, vol. 3, no. 1–4, pp. 29–45.
Xu Jiawei, Zhu Guang, Tong Weixing et al. Formation and Evolution of Тancheng – Lujiang wrench fault system to the north-west of Pacific ocean. Tectonophysics, 1987, vol. 134, no. 1, pp. 273–310.
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