Bulletin of Perm University. Geology

Among the sources of energy of the geodynamics of the Earth, the energy sources associated with changes in the structure and density of chemical compounds, especially near the so-called critical point, are ignored, which is confirmed by the discovery of the “superwater” and the detection of water in sunspots. It became clear that water fluids in a supercritical state are in the mantle and core of the Earth. The transition of water to a supercritical state, in our opinion, occurs near the Conrad border, which is recorded by seismic in the absence of a difference in rock lithology. Research and modeling of the parameters of chemical components at high temperatures and pressures will provide an answer to the origin of changes in seismic velocity and density of rocks at different depths of the Earth, which will increase the efficiency of forecasting, prospecting, and exploration of minerals and mitigation of the negative geodynamic processes.

energy sources; geological and geodynamic processes; earthquakes; structure of substances; critical points; water fluids

Avsyuk Yu.N. Tidal forces and natural processes / Ed. OIFZ RAS. 1996.184 s. Anisimov M.A. Critical phenomena in liquids and liquid crystals. M.: Science. Ch. ed. Phys.-Math. lit., 1987. -272 s,

Vanyan L.L., Pavlenkova N.I. A layer of reduced speed and increased electrical conductivity at the base of the upper crust of the Baltic Shield. // Physics of the Earth. 2002.No. 1. S. 1–9.

Vernadsky V.I. History of natural waters // Institute of Geol. sciences of NAS of Ukraine; comp.: V.M. Shestopalov, A.Yu. Moiseev, V.V. Gudzenko et al. - Kiev, 2012 .-- 754 p. (Selected tr. Acad. V.I. Vernadsky, vol. 6)

Vsevolozhsky V.A. Fundamentals of hydrogeology: a textbook. - 2nd ed., Revised. and add. M.: Publishing house of Moscow State University, 2007 .-- 448 p.

Gaev A.Ya. Fundamental and applied problems of the hydrosphere. Part 1. Fundamentals of hydrogeology: textbook. allowance / A.Ya. Gaev, Yu.A. Kilin, E.B. Savilova, O.N. Malikova. M.: University book, 2016 .-- 160 p.

Grigoryev S.M. The role of water in the formation of the earth's crust. - M.: Nedra, 1971. – 264 p.

Dubinin E.P., Ushakov S.A. Ocean riftogenesis. M.: GEOS, 2001 .-- 293 p.

Zverev V.P. Groundwater crust and geological processes. M.: Scientific World, 2006. - 254 p.

Zonenshayn L.P., Kuzmin M.I. Paleogeodiamic. M.: Nauka, 1993 .-- 192 p.

Kiryukhin V.A. General hydrogeology: a textbook. V.A. Kiryukhin. SPb., 2008 .-- 440 s.

Mainzer O.E. The doctrine of groundwater: Per. from English M.: ONTI - NKTP, 1935 .-- 240 p.

Fundamentals of hydrogeology: in 6 tons / E.V. Pinnecker and others. Novosibirsk: Nauka, 1980.V. 1. - 231 p.

Pavlenkova N.I. Structural features of the lithosphere of continents and oceans and their nature // Geophysical Journal No. 2, Vol. 41, Kiev, 2019.P. 357.

Pavlov A.N. The geological cycle of water on Earth. - L.: Nedra, 1977 .-- 143 p.

Polezhaev V.I., Soboleva E.B. Hydrodynamics of near-critical liquids // Priroda, No. 10.2003. P. 1726.

Sorokhtin O.G., Ushakov S.A. Earth evolution. M.: Publishing. Moscow State University, 2002

Essays on the degassing of the earth.V.M. Shestopalov, A.E. Lukin, V.A. Zgonnik, A.N. Makarenko, N.V. Larin, A.S. Boguslavsky. Scientific and Engineering Center of Radiohydrogeoecological Polygon Research NAS of Ukraine. Institute of Geological Sciences of NAS of Ukraine. K., 2018 .-- 632 p.

Hain V.E. The interaction of the atmosphere, the biosphere and the lithosphere is the most important process in the development of the Earth // Spring. RAS, 2007, No. 9, S.794-797.

Hain V.E., Lomize M.G. Geotectonics with the basics of geodynamics: Textbook - 2nd ed. correct and add. M.: KDU, 2005.560 s. Proceedings of the National Academy of Sciences, 2013; DOI: 10.1073 / pnas.1220301110. Source - chemport.ru.

About parameters of near-critical liquids Link http://ecology.iem.ac.ru/

NASA: There is water in the sun. Link http://earth-chronicles.ru/news/2014-11-19-73514

Grad, M., & Luosto, U. (1987). Seismic models of the crust of the Baltic shield along the SVEKA profile in Fin-land. Annales geophysicae. Series B, 639-649.

Haak, V., & Hutten, V. R. S. (1986). Electrical resistivity in continental lower crust. In J. B. Dawnson, D. A. Carswell, J. Hall, & K. H. Wedepohl (Eds.), The nature of the Lower Continental Crust (pp. 35–49). Geol. Soc., London, Spec. Publ., 24.

Jones, A. G. (1992). Electrical conductivity of the con-tinental lower crust. In D. M. Fountain, R. Arculus, & R. W. Kay (Eds.), Continentallower crust. Development in Geotectonics (pp. 81-143). Elsevier Storetvedt, K. (1997). Our evolving planet: Earth history in new perspective. Bergen, Norway: Alma Mater, 456 p.