[SSS10-P17] The unique characters of intensity distribution of the 2018 Sep. 6 Mw6.6 Earthquake of Iburi region in Hokkaido, Japan
Keywords:Prediction Equation of Japanese Instrumental Intensity, 2018 Sep. 6 Mw6.6 Earthquake of Iburi region, earthquake in the uppermost mantle
We applied the new prediction equation of JISI, which was classified by the physical source types, and in which the surface ground effect was removed by the term dependent on AVS30 of each station [Matsu'ura et al. (2018)], to this event. The equation for the PAC-intra type fits well to stations in distances less than 100km, while the equation for the PAC-inter type fits well to further stations in Iwate or southeastern part of Hokkaido (Fig.). It apparently shows the high stress-drop source feature like an event of intra slab, but the abnormal intensity effect due to the PAC is weaker than that of the PAC-intra type, and similar to that of the PAC-inter type. These features are well explained when this Mw6.6 event occurred within the rather cold shallow mantle overriding on the slab on the western foot of Hidaka Mountains. The high frequency waves were transferred very efficiently from the source to the PAC slab like those from interplate events, which suggests that the source lies in fairly homogeous area than the ordinary Japanese crust.
This study was done as a part of the Supporting Project for the Headquarters for Earthquake Research Promotion (HERP) sponsored by the Ministry of Education, Culture, Sports, Science and Technology (MEXT), Japan.
Matsu'ura, R. S. et al. (2018). A new multidimensional prediction equation of instrumental seismic intensity of Japan reflecting source type characteristics, submitted to BSSA.
Nishimura, T., and K. Miyakoshi (2018). Comparison of Hokkaido-Iburi-Tobu earthquake with existed prediction equations of ground motions, Fall meeting of Seismological Society of Japan, S25-P19.
Si, H. and S. Midorikawa (1999). New attenuation relationships for peak ground acceleration and velocity considering effects of fault type and site condition, J. Struct. Constr. Eng. AIJ, 523, 63-70.