日本地球惑星科学連合2022年大会

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セッション記号 S (固体地球科学) » S-CG 固体地球科学複合領域・一般

[S-CG50] 島弧の構造・進化・変形とプレート沈み込み作用

2022年5月26日(木) 13:45 〜 15:15 102 (幕張メッセ国際会議場)

コンビーナ:石川 正弘(横浜国立大学大学院環境情報研究院)、コンビーナ:篠原 雅尚(東京大学地震研究所)、松原 誠(防災科学技術研究所)、コンビーナ:石山 達也(東京大学地震研究所)、座長:石川 正弘(横浜国立大学大学院環境情報研究院)、石山 達也(東京大学地震研究所)

14:15 〜 14:30

[SCG50-03] Seismic structure from the forearc region off Miyagi to the central part of Northern Honshu arc, Japan, revealed by onshore-offshore seismic experiment -Ⅱ

*蔵下 英司1佐藤 比呂志2岩崎 貴哉3飯高 隆4石山 達也1篠原 雅尚1、石毛 宏和5、清水 英彦6、川崎 慎治5阿部 進5平田 直1 (1.東京大学地震研究所、2.静岡大学防災総合センター、3.地震予知総合研究振興会、4.東京大学大学院情報学環 、5.地球科学総合研究所、6.石油天然ガス・金属鉱物資源機構)

キーワード:海陸統合探査、東北日本弧、地殻・上部マントル構造

Northern Honshu, Japan is a typical island arc developed in a trench-arc-backarc basin system. The 2011 Tohoku-Oki Earthquake (Mw9.0), that occurred on the Japan Trench off the eastern shore of northern Honshu, generated enormous crustal deformations. The geometry and structure of the subducting Pacific Plate (PAC) and the overlying Northern Honshu arc are inevitably important to understand such crustal deformation and the process of earthquake occurrence. In the summer of 2019, an onshore-offshore integrated seismic survey was carried out along an 850 km long profile from Japan Trench to the Yamato bank, crossing the central part of the Northern Honshu (Sato et al., 2020). Seismic reflection image and velocity model along the onshore part of the survey line have been obtained (Sato et al., 2020, Iwasaki et al., 2021). Kurashimo et al. (2021), on the other hand, presented the tomography-derived velocity model from the forearc region off Miyagi to northern Honshu. In this study, however, the seismic structure of the forearc mantle wedge and the subducting PAC, which would provide important keys for understanding crustal deformation associated with large earthquakes, have not been resolved well because the travel-time analysis was done only for first arrival data. In the present study, we used all travel-time data of refracted and reflected waves from air-gun shots on the forearc side recorded on 1,667 receivers on the 160-km onshore profile line and 24 seismic stations deployed along this profile line. These receivers and seismic stations were equipped with 4.5 or 5 Hz vertical-component geophone and 1.0-Hz three-component seismometer, respectively. In the obtained seismic records, reflected waves from the uppermost mantle beneath the forearc region are recognized. Furthermore, we can identify clear reflections, probably from the top of the PAC. These phases are quite important to constrain the geometry of the forearc mantle wedge and the subducting PAC. In order to estimate the reflector depth that could provide a reasonable explanation for observed reflection times, we calculated the reflection travel times via a 3-D finite difference travel time algorithm [Hole & Zelt, 1995]. Analyzing these dense onshore-offshore seismic data, we obtained detailed configuration of the subducting PAC and the structure of overlying Northern Honshu arc beneath the forearc region. The mantle wedge corner is ~ 20 km deep beneath the forearc region off Miyagi and crustal thickness thickens toward the west. The top of the PAC can be traced to a depth of ~ 30 km. Beneath the Pacific coast, the Moho of the northern Honshu Arc is ~ 28 km deep.