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Introduction. The problems of the Earth's heat and possible connections with other processes are becoming increasingly urgent [1-5]. The earth loses about 0.06 watts per square meter of surface, or about 30 trillion watts for the entire planet, from the heat flow from the interior. The main sources of the Earth's internal heat are: the decay of long-lived radioactive isotopes (uranium-235 and uranium-238, thorium-232, potassium-40), gravitational differentiation of matter, tidal friction, metamorphism, phase transitions [1]. The spectrum of long-period oscillations of the Earth, which are longer than their own, contains peaks that coincide in value with an accuracy of 1 ... 3% with peaks of the Sun's own oscillations [1]. The mechanism of excitation of these vibrations and variations in the activity of a radioactive sample of ore with a strong difference in scale has practically one mechanism. The observed effects, together with other periodicities, underlie the interaction in the Earth-Sun systems [3, 4] and affect the volcanism, seismicity and energy of seismic fields [5]. Naturally, variations in solar neutrino fluxes with subsequent changes in radioactive substance activity are accompanied by temporary variations of temperature fields everywhere. Temperature fields and solar neutrino stream. The Earth's thermal fields and temperature fields of radioactive substances have a common periodicity, determined by the cyclical of solar processes and, accordingly, the latent periodicity of neutrino solar fluxes. Temperature variations of all types are determined by anomalous neutrino radioisotope (ANRI) absorption or by the effect of neutrino flux interaction with radioactive structures of the Earth. The statement that the influence of the cyclical of solar activity can be neglected below the zone of constant temperatures (at depths above 40 m), and the temperature regime of the rocks is determined by the depth flow of heat and the specific features of the thermal properties of the rocks, incorrectly: at a depth of 40 m there can exist a thermal component due to muons (Kp-index), and at any and large depths - heat from the interaction of the solar neutrino flux with radioactive structures. When estimating the heat flux, it is necessary to introduce the factor S (ω), which represents the spectrum of the natural oscillations of the Sun. Perhaps there is a relationship between global warming and the heat fluxes of the Earth, taking into account the ANRI effect. New unknown data on long-period wave processes on the Sun are also obtained. The power of nuclear power plants, their prevalence is increasing. Therefore, it should be borne in mind that if ~ 10% of the reactor capacity is an antineutrino flux, the nearest station zone will be a source of increased heat flux and local seismicity and warming. In the case of Japan, a general increase in seismicity is possible. Since extraterrestrial neutrinos play an important role in the thermal history of the Earth and the safety of nuclear reactors, in the future it is necessary to create an observational neutrino safety monitoring network. REFERENCES 1. Khavroshkin O., Tsyplakov V. Sun, Earth, radioactive ore: common periodicity. The Natural Science (NS). 2013. Vol. 5. № 9. Pp. 1001…1005. 2. Khavroshkin OB, Tsyplakov VV Anomalous neutrino radioisotope (ANRI) absorption and nuclear reactor // Engineering Physics. 2016. № 10. With. 3 ... 8. 3. Fedotov SA, Khavroshkin OB, Tsyplakov VV, Boyko A.N. Solar and astrophysical factor, Z-variations of GPS data of calderas and volcanoes: the mechanism of their interaction. Applied Physics and Mathematics, No. 6, 2016, 57-64. 4. Rukhadze AA, Khavroshkin OB, Tsyplakov VV Periodicity of natural radioactivity // Engineering Physics. 2015. № 6. P. 26 ... 36 5. Nikolaev AV, Khavroshkin OB, Tsyplakov VV Structure of the Strophysical Component of Seismic Emission and Noise // Engineering Physics. 2016. № 9. With. 68 ... 74