Natural Hazards and Earth System Sciences (Jan 2004)

Lithosphere-atmosphere-ionosphere coupling as governing mechanism for preseismic short-term events in atmosphere and ionosphere

  • O. Molchanov,
  • E. Fedorov,
  • A. Schekotov,
  • E. Gordeev,
  • V. Chebrov,
  • V. Surkov,
  • A. Rozhnoi,
  • S. Andreevsky,
  • D. Iudin,
  • S. Yunga,
  • A. Lutikov,
  • M. Hayakawa,
  • P. F. Biagi

Journal volume & issue
Vol. 4, no. 5/6
pp. 757 – 767

Abstract

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We present a general concept of mechanisms of preseismic phenomena in the atmosphere and ionosphere. After short review of observational results we conclude: 1. Upward migration of fluid substrate matter (bubble) can lead to ousting of the hot water/gas near the ground surface and cause an earthquake (EQ) itself in the strength-weakened area; 2. Thus, time and place of the bubble appearance could be random values, but EQ, geochemistry anomaly and foreshocks (seismic, SA and ULF electromagnetic ones) are casually connected; 3. Atmospheric perturbation of temperature and density could follow preseismic hot water/gas release resulting in generation of atmospheric gravity waves (AGW) with periods in a range of 6–60min; 4. Seismo-induced AGW could lead to modification of the ionospheric turbulence and to the change of over-horizon radio-wave propagation in the atmosphere, perturbation of LF waves in the lower ionosphere and ULF emission depression at the ground.