Peculiarities of the fluid regime in the lithosphere of the junction zone between South Primorye and the Sea of Japan from the comprehensive geophysical data

M. G. Valitov, Extended Abstract of Candidate’s Dissertation in Geology and Mineralogy (Vladivostok, 2009).

M. G. Valitov, S. N. Kononets, and R. G. Kulinich, “Structural-Density Models of the Earth’s Crust in the Juncture Zone of the Central Basin with Adjacent Continent,” in Far East Seas of Russia. Vol. 3. Geological and Geophysical Studies (Nauka, Moscow, 2007), pp. 53–60 [in Russian].

L. L. Van’yan, N. A. Pal’shin, and V. M. Nikiforov, “Studies of Telluric Field with the Use of a Cable Running across the Sea of Japan,” Fiz. Zemli, No. 7, 17–26 (1999).

A. A. Kadik, and O. A. Lukanin, Devolatilization of the Upper Mantle during Its Melting (Nauka, Moscow, 1986).

T. N. Kolpashchikova, “A Program of Simulation of Magnetic and Gravity Fields and Some Their Derivatives,” RF Patent no. 61354, Byull. Komp. Progr., no. 3, (2007).

V. A. Kuznetsov, V. M. Nikiforov, and S. S. Starzhinsky, “The Role of Faults in Studying the Sea of Japan Lithosphere with the Use of the Nakhodka-Naoetsu Submarine Cable,” Izv., Phys. Solid Earth 37(4), 345–347 (2001).

R. G. Kulinich, “Density Model of the Earth’s Crust Based on the Tsushima Strait-Peter the Great Bay,” in Geophysics of the Sea of Japan Floor (Nauka, Vladivostok, 1980), pp. 5–12 [in Russian].

R. G. Kulinich, L. A. Maslov, G. Z. Gil’manova, and O. S. Komova, “Density Model and Stress State in the Earth’s Crust of the Northern Sea of Japan,” Tikhookean. Geol. 17(2), 108–114 (1998).

R. G. Kulinich, M. G. Valitov, S. M. Nikolaev, and T. N. Kolpashchikova, “Moho Topography and Types of the Crust beneath the Northwestern Sea of Japan Based on Gravimetry Data,” in Russian Far East Sea. Volume 3. Geological and Geophysical Studies (Nauka, Moscow, 2007), pp. 48–52 [in Russian].

R. G. Kulinich and M. G. Valitov, “Thicknesses and Types of the Crust beneath the Sea of Japan Inferred from Marine and Satellite Gravimetric Investigations,” Russ. J. Pac. Geol. 5(6), 3–13 (2011).

F. A. Letnikov, “Deep Fluids of the Earth,” in Russian Science: Faces of Creation on the Turn of Centuries, Ed. by V. P. Skulacheva (Nauch. mir, Moscow, 2000) [in Russian].

Magmatic Rocks (Nauka, Moscow, 1988), Vol. 5 [in Russian].

V. M. Nikiforov and I. V. Dmitriev, “Geoelectric Section of the Tectonosphere in the Junction Zone between the Sea of Japan Depression and Its Continental Framing,” Russ. J. Pac. Geol. 1(6), 505–514 (2007).

M. V. Rodkin and V. Yu. Semenov, “Anomalies of Electric Conductivity of Mantle Beneath Sakhalin as Compared to Other Regions,” Fiz. Zemli, No. 2, 53–60 (1995).

A. G. Rodnikov, A. G. Gainanov, B. V. Ermakov, et al., “Sikhote-Alin-Sea of Japan-Honshu Island-Pacific Ocean Transect,” Tikhookean. Geol., No. 3, 84–89 (1982).

N. P. Romanovskii, Petrophysics of Granitoid Ore-Magmatic Systems of the Pacific Belt (Nauka, Moscow, 1987) [in Russian].

A. P. Rudenko and I. I. Kulakova, “Deep-Seated Synthesis of Petroleum Hydrocarbons in Open Catalytic Systems and Opportunities of the Existence of Deposits with Everlasting Reserves,” in Genesis of Hydrocarbon Fluids and Deposits (GEOS, Moscow, 2006), pp. 68–83 [in Russian].

A. N. Sokarev, R. G. Kulinich, and Z. N. Proshkina, Petrophysics of the Sea of Japan Sector of the Continent-Pacific Transition Zone: A Guidebook of Physical Properties of Rocks (Dal’nauka, Vladivostok, 2010) [in Russian].

S. S. Starzhinskii and V. M. Nikiforov “Results of Electromagnetic Sounding with JASC Submarine Cable,” Izv., Phys. Solid Earth 47(3), 223–232 (2011).

K. Vozoff, “The Magnetotelluric Method in the Exploration of Sedimentary Basins,” Geophysics 37, 98–141 (1972).

P. E. Wannamaker, J. A. Stadt, and A. Rejol, “A Stable Finite Element Solution for Two-Dimensional Magnetotellure Modeling,” Geophys. J. R. Astr. Soc. 88, 277–296 (1987).