1887

Abstract

Summary

Variations in VLF emissions and infrasound in the atmosphere at the air-earth boundary during periods of a sharp increase in global seismic activity (GSA) have been studied using data acquired daily. The effects of GSA on the parameters under consideration have been established in a seismically quiet area, including a few days before an increase in the GSA. The dependence of phenomenon features on the earthquake magnitude has been considered. The existence of global effects from seismic activity indicates that new approaches to earthquake prediction are needed.

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/content/papers/10.3997/2214-4609.201801826
2018-05-14
2024-03-29
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References

  1. Gokhberg, M.B., Morgunov, V.A., Pokhotelov, O.A.
    [1988] Seismo-Electromagnetic Phenomena (in Russian). Nauka publ., Moscow, 174 pp.
  2. Bogdanov, Yu.A., Zakharov, I.G., Tyrnov, O.F., Hayakawa, M.
    [2003] Electromagnetic effects Associated with Regional Seismic Activity in Crimea during the Interval July-August 2002. J. Atmospheric Electricity, 23, 57–67.
    [Google Scholar]
  3. Hayakawa, M.
    [2007] VLF/LF radio sounding of ionospheric perturbations associated with earthquakes. Sensours, 7(7), 1141–1158.
    [Google Scholar]
  4. Negoda, A.A., Soroka, S.A.
    [2001] Acoustic channel of cosmic influence on the Earth’s biosphere (in Russian). Space Science and Technology, 16, No. 5/6, 85–93.
    [Google Scholar]
  5. Shuman, V.N., Kobolev, V.P., Starostenko, V.I., Burkinsky, I.B., Loyko, N.P., Zakharov, I.G., Yatsyuta, D.A.
    [2012] Method of analysis of spontaneous electromagnetic emissions from the Earth: physical prerequisites, field experiments, elements of the theory (in Russian). Geophysical Journal, 34, No. 4, 40–61.
    [Google Scholar]
  6. Dobrovolsky, I. P.
    [1991] Theory of Preparation of Tectonic Earthquake (in Russian). Nauka publ., Moscow, 224 pp.
  7. Gorkavy, N. N., Trapeznikov, Yu. A., Friedman, A. M.
    [1994] On the global component of the seismic process and its relationship with the observed features of the Earth’s rotation (in Russian). Proc. of the Academy of Sciences. Geophysics, 338, 525–527.
    [Google Scholar]
  8. Bak, P.
    [1996] How nature works: The science of self-organized criticality. Springer-Verlag, New York, 212 pp.
    [Google Scholar]
  9. Shuman, V. N.
    [2015] Nonlinear dynamics, seismicity, and aerospace probing systems (in Russian). Geophysical Journal, 37, No. 2, 38–55.
    [Google Scholar]
  10. Delyukov, A., Didyk, L.
    [1999] The effects of extra-low-frequency atmospheric pressure oscillations on human mental activity. Int. J. Biometeorol., 43, 31–37.
    [Google Scholar]
  11. Bogdanov, Yu. A., Zakharov, I. G.
    [2006] Electromagnetic and acoustic emissions associated with seismic activity. Proceeding of the 6th Int. Conference “Problem of Geocosmos”. St. Petersburg, Petrodvorets, May 23–27, 2006, 357–360.
    [Google Scholar]
  12. Zakharov, I. G., Tyrnov, O. F.
    [2001] The effect of Solar Activity on Ill and Healthy People under Conditions of Neurous and Emotional Stresses. Adv. Space Res., 28, 685–690.
    [Google Scholar]
  13. Boyarchuk, K.A., Karelin, A.V., Pulinets, S.A., Tertyshnikov, A.V., Uzunov, D.P., Yudin, I.A.
    [2012] A single concept for detecting signs of a strong earthquake in the framework of a complex lithosphere — atmosphere — ionosphere — magnetosphere system (in Russian). Aeronautics and Rocket Engineering, 3 (68), 21–31.
    [Google Scholar]
  14. Shirokov, V. A.
    [2001] An experience of the short-term forecast of the time, place and strength of the Kamchatka earthquakes in 1996–2000 with magnitude M = 6–7.8 using seismological and geophysical dataset (in Russian). Geodynamics and Volcanism of the Kuril-Kamchatka Island-Based System / Ed. B.V.Ivanov. Petropavlovsk-Kamchatsky: IVGiS FEB RAS, 95–116.
    [Google Scholar]
  15. Voytov, G. I.
    [1999] On cold methane degassing into the Earth’s troposphere (in Russian). Theoretical and Regional Problems of Geodynamics. Proceedings Geol. Institute of RAS. 515. Nauka publ., Moscow, 242–251.
    [Google Scholar]
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