日本地球惑星科学連合2018年大会

講演情報

[JJ] ポスター発表

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22日(火) 10:45 〜 12:15 ポスター会場 (幕張メッセ国際展示場 7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)

[SSS14-P24] Rupture Process of the M5.5 Orkney Earthquake Using Strainmeters at Very Close Distance

*安富 達就1Mori James1山田 真澄1小笠原 宏2大久保 慎人3小笠原 宏幸2石田 亮壮2 (1.京都大学、2.立命館大学、3.高知大学)

キーワード:南アフリカ、インバージョン、震源至近距離、誘発地震、歪計

Gold mining is a major industry of South Africa, however, there is a risk of induced earthquakes associated with the deep escavations, so seismic monitoring is maintained around and in the mines. The Orkney earthquake (M5.5) occurred on 5 August 2014 directly beneath the Orkney Gold mine. The event was the largest earthquake since the dense instrumentation was installed, and includes 3 Ishii borehole strainmeters at a depth of 2.9 km depth and 17 surface strong motion meters at close distances. The aftershock distribution was well located by these instruments. The planar distribution of aftershock activity dips almost vertically and the upper edge is located several hundred meters from the strainmeter site. The strainmeters and surface strong motion meters recorded clear nearfield waveforms.

We try to model rupture process of the M5.5 mainshock using the nearfield strainmeters and surface strong motion meters data using a multi-time window method (Yoshida et al. (1996)). For the analysis, we used a horizontal stratified structures obtained by H. Ogasawara (2018 Msc) and A. Mangongolo (2014). The strain Green functions that include near-field terms and static off-sets were calculated using a finite difference method. Since the absolute timing of the strainmeters is not accurate, we decided set the starting point of rupture using a hypocenter determined by data from the 17 surface strong motion meters.

As a result of the analysis, large slip on the fault occurred in the northern region and the rupture propagated bilaterally upwards to the north and downwards to the south. This result is consistent with the absence of observed faulting in the mine tunnels and the inclination of aftershock distribution from north to south.