日本地球惑星科学連合2018年大会

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[JJ] 口頭発表

セッション記号 S (固体地球科学) » S-SS 地震学

[S-SS14] 強震動・地震災害

2018年5月21日(月) 13:45 〜 15:15 A10 (東京ベイ幕張ホール)

コンビーナ:栗山 雅之(一般財団法人 電力中央研究所 地球工学研究所 地震工学領域)、座長:加瀬 裕子前田 宜浩

14:15 〜 14:30

[SSS14-14] 内陸地震のスケーリング則の検証

*三宅 弘恵1入倉 孝次郎2宮腰 研3釜江 克宏4 (1.東京大学大学院情報学環総合防災情報研究センター/地震研究所、2.愛知工業大学、3.(財)地域地盤環境研究所、4.京都大学原子炉実験所)

キーワード:スケーリング、内陸地震、検証

Source scaling is a fundamental issue to understand earthquakes. A magnitude and log rupture area relation is a key scaling to link modeling of seismic source and ground motion. Currently, scenario seismic hazard maps in Japan adopt a 3-stage source scaling for crustal earthquakes, although many national seismic hazard maps use a linear or bilinear scaling. The 3-stage source scaling is originally proposed by Scholz (2002). Recent development of slip inversions enabled us to improve quantitative estimates of the scaling. Based on the source characterization of slip inversions, the 3-stage source scaling for crustal earthquakes are: The first circular-crack model stage of S (km2) = 2.23 x 10-15 (M0 (Nm) x 107)2/3 by Somerville et al. (1999) for Mw<6.5, the second L-model stage of S (km2) = 4.24 x 10-11 (M0 (Nm) x 107)1/2 by Irikura and Miyake (2001, 2011) for Mw = 6.5~7.4 after fault width saturation, and the third W-model stage of S (km2) = 1.0 x 10-17 M0 (Nm) by Murotani et al. (2015) for Mw>7.4 after fault displacement saturation. The 3-stage scaling shows the first bending at L~Wmax without significant gaps that pointed out by past 2-D numerical simulations. The second L-model stage is similar to Hanks and Bakun (2002) that is well constraint by megafault systems. We also confirmed that dynamic rupture simulations for strike-slip faulting using 3-D FDM of Dalguer et al. (2008) naturally reproduce the 3-stage source scaling. To fit the scaling between slip inversions and dynamic rupture simulations, slight increase of stress drop from 2.3 to over 3.0 MPa is required in the second L-model stage. Those are compatible with the static models by Fujii and Matsu'ura (2000) and Shaw and Scholz (2001). Finally, we validate the 3-stage source scaling and other published scaling (e.g., Leonard, 2010) for recent crustal earthquakes with slip inversions, and compare their performance.