International Journal of Geophysics (Jan 2013)

Field Detection of Microcracks to Define the Nucleation Stage of Earthquake Occurrence

  • Y. Fujinawa,
  • Y. Noda,
  • K. Takahashi,
  • M. Kobayashi,
  • K. Takamatsu,
  • J. Natsumeda

DOI
https://doi.org/10.1155/2013/651823
Journal volume & issue
Vol. 2013

Abstract

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Main shocks of natural earthquakes are known to be accompanied by preshocks which evolve following the modified Ohmori’s law in average over many samples. Individual preshock activity, however, is far less systematic for predictive purposes. On the other hand, the microcracks in laboratory rock experiments are always preceded to final rupture. And, previous investigations of field acoustic emissions showed that the activity increases prominently before and after the main shock. But there is no detection of any phenomena to identify the nucleation stage. Here we show that a special underground electric field measurement could detect microcracks. Pulse-like variations were classified into three groups (A, B, C) by frequency. The B-type is suggested to define the nucleation period: activity increases sharply following the modified Omori’s law before the main shock and there is no activity afterward. The B-type is subgrouped into three types possibly corresponding to crack-rupture modes. The variations are supposed to be induced by crack occurrence through electrokinetic effects in the elastic-porous medium. The detection distance is suggested to be several orders larger than that of the acoustic emission due to the effective smallness of dissipation rate, and the waveform can be used to infer the rupture mode.