Science Links Japan | Imaging of Inhomogeneous Structure of the Crust beneath Ou Backbone Range, Northeastern Japan, Based on Small Aperture Seismic Array Observations.

Imaging of Inhomogeneous Structure of the Crust beneath Ou Backbone Range, Northeastern Japan, Based on Small Aperture Seismic Array Observations.

Accession number;99A0960532

Title;Imaging of Inhomogeneous Structure of the Crust beneath Ou Backbone Range, Northeastern Japan, Based on Small Aperture Seismic Array Observations.

Author; MATSUMOTO SATOSHI (Akita Univ., Facutity of Engineering and Resource Sci, JPN) OBARA KAZUSHIGE (National Res. Inst. Earth Sci. and Disaster Prevention) YOSHIMOTO KAZUO (Tohoku Univ., Grad. Sch.) SAITO TATSUHIKO (Tohoku Univ., Grad. Sch.) HASEGAWA AKIRA (Tohoku Univ., Grad. Sch.) ITO AKIHIKO (Utsunomiya Univ., Fac. of Educ.)

Journal Title;Journal of the Seismological Society of Japan. Second Series

Journal Code:G0931A

ISSN:0037-1114

VOL.52;NO.2;PAGE.283-297(1999)

Figure&Table&Reference;FIG.8, REF.20

Pub. Country;Japan

Language;Japanese

Abstract;Ou Backbone range, northeastern Japan, is bounded both at eastern and western edges by active faults with reverse-fault type, and seismic activity is quite high in this range. The known largest event is the Rikuu Earthquake with M7.2 that occurred along the western edge in 1896. Two small aperture seismic arrays were deployed in 1 997 and 1998 in order to image spatial distribution of P wave scatterers in the crust beneath the range. Waveforms of 7 and 13 explosions observed by the respective arrays were analyzed in a frequency band of 6-20 Hz. Hypocentral distances between explosions and arrays are too large to apply conventional analyses such as CMP stacking or migration to observed data. We developed a method to estimate P-wave scatterer distribution from array observation data. Observed waveforms were slant stacked along various directions from the arrays, and energy density of waveform was further processed by diffraction curve summation. Spatial distribution of P wave scatterers was imaged by the presently developed procedure. The results show that strong scatterers are distributed around the fault plane of the 1896 Rikuu Earthquake and in the mid- to lower-crust of the range. The distribution of scatters in the upper crust correlates to hypocenter distribution of micro-earthquakes. (author abst.)

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