Abstract
Abstract The 2000 Tottori-ken Seibu earthquake (Mw6.6) occurred in Tottori prefecture, western Japan on October 6, 2000. We conducted aftershock observation and analyzed S-wave anisotropy using the aftershocks M jma2.0 to 3.5 observed at two stations near the aftershock region. The fast S-waves are polarized to almost E-W direction, which corresponds to the P-axis direction of the mainshock. The delay time of the split S-waves ranges between 20 and 100 ms. The crack density inside and outside the aftershock area is estimated from the delay time. The distribution of crack density shows a strong spatial variation and depends on the ratio of the path length inside the aftershock region against the whole path length. Assuming a uniform distribution of anisotropy inside and outside the aftershock region, the crack densities inside and outside are 0.017 and 0.007, respectively. It thus seems probable that in the aftershock region the distribution of cracks is intensive and cracks are opened due to the presence of fluids in seismogenic layers. This considerable spatial variation of anisotropy between inside and outside the aftershock region suggests that the aftershock region may have different mechanical properties from the surrounding area.
Highlights
The 2000 Tottori-ken Seibu earthquake MJMA7.3 (MW6.6 by the National Research Institute for Earth Science and Disaster Prevention) occurred in Tottori prefecture, western Japan on October 6, 2000 (Fig. 1)
The present study, we focus on delay times of S-wave splitting due to the presence of cracks in and around the aftershock region of the 2000 Tottori-ken Seibu earthquake and examine the spatial variation of anisotropy to reveal the subsurface features associated with the seismic activity
A probable main reason for this polarization may be explained by the alignment of cracks by the regional tectonic stress around the aftershock area
Summary
The 2000 Tottori-ken Seibu earthquake MJMA7.3 (MW6.6 by the National Research Institute for Earth Science and Disaster Prevention) occurred in Tottori prefecture, western Japan on October 6, 2000 (Fig. 1). Many aftershocks occurred, including MJMA5.6 (MW5.1), in the epicentral area of the mainshock. The focal mechanism solution of the mainshock is a strike-slip type (Fig. 1) and the main fault strikes to NNW-SSE with 35 km length Despite its large magnitude, the main fault trace did not appear at the surface and the basic properties of the fault have not been well understood. In order to study the properties of the media in and around the seismic region, we installed two temporal broadband seismometers near the aftershock area. Using seismic waves recorded just after the mainshock, we analyzed the “S-wave splitting” both inside and outside the aftershock region
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