Seismoelectromagnetic effect associated with the Izmit earthquake and its aftershocks


Matsushima M., Honkura Y., Oshiman N., Baris S., TUNÇER M. K. , Tank S., ...Daha Fazla

BULLETIN OF THE SEISMOLOGICAL SOCIETY OF AMERICA, cilt.92, ss.350-360, 2002 (SCI İndekslerine Giren Dergi) identifier identifier

  • Cilt numarası: 92 Konu: 1
  • Basım Tarihi: 2002
  • Doi Numarası: 10.1785/0120000807
  • Dergi Adı: BULLETIN OF THE SEISMOLOGICAL SOCIETY OF AMERICA
  • Sayfa Sayıları: ss.350-360

Özet

In order to investigate the resistivity structure beneath the northern and the southern branches of the western part of the North Anatolian Fault Zone (NAFZ), which has been known as a seismic gap area, we started wideband magnetotelluric (NIT) measurements on 27 July 1999, alone, a north-south profile crossing the northern branch near Izmit and the southern branch near Iznik. When the Izmit (Kocaeli) earthquake (M-w 7.4) occurred on 17 August 1999, NIT fields were being measured at five sites, four of which happened to be located near the surface rupture zone associated with the mainshock, and large variations in the NIT fields were observed in association with seismic waves. We propose motional electromagnetic induction in the electrically conducting crust, which vibrates under the Earth's magnetic field, as one of the possible generation mechanisms for such NIT field variations. For more detailed studies of such a mechanism, we installed a wideband NIT instrument and a three-component seismometer at two of the four sites on 16 September 1999 and made simultaneous measurements during several aftershocks. The estimate of the order of the magnitude of motional electromagnetic response, derived from the NIT fields and ground motion observed during a large aftershock (M 4.5), supports our claim that the seismo-dynamo effect is a plausible mechanism for variations in the NIT fields associated with the seismic waves.
In order to investigate the resistivity structure beneath the northern and
the southern branches of the western part of the North Anatolian Fault Zone (NAFZ),
which has been known as a seismic gap area, we started wideband magnetotelluric
(MT) measurements on 27 July 1999, along a north–south profile crossing the northern
branch near I'zmit and the southern branch near Iznik. When the I'zmit (Kocaeli)
earthquake (Mw 7.4) occurred on 17 August 1999, MT fields were being measured
at five sites, four of which happened to be located near the surface rupture zone
associated with the mainshock, and large variations in the MT fields were observed
in association with seismic waves. We propose motional electromagnetic induction
in the electrically conducting crust, which vibrates under the Earth’s magnetic field,
as one of the possible generation mechanisms for such MT field variations. For more
detailed studies of such a mechanism, we installed a wideband MT instrument and
a three-component seismometer at two of the four sites on 16 September 1999 and
made simultaneous measurements during several aftershocks. The estimate of the
order of the magnitude of motional electromagnetic response, derived from the MT
fields and ground motion observed during a large aftershock (M 4.5), supports our
claim that the seismo-dynamo effect is a plausible mechanism for variations in the
MT fields associated with the seismic waves.