著者

岩佐 佳哉 熊原 康博 後藤 秀昭 石村 大輔 細矢 卓志

出版者

一般社団法人 日本活断層学会

雑誌

活断層研究 (ISSN:09181024)

巻号頁・発行日

vol.2022, no.56, pp.47-58, 2022-06-28 (Released:2022-12-28)

参考文献数

32

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The Futagawa fault, extending southwest from Aso caldera, is one of the major dextral strike-slip active faults in Kyushu, southwest Japan. On 16 April 2016, the Kumamoto earthquake (Mj 7.3) occurred, and ~31-km-long right-lateral surface ruptures appeared along the Futagawa fault. After the 2016 earthquake, several trenching surveys were conducted across surface ruptures to reveal the faulting history. However, no trenching survey has been carried out in the 15-km-long middle section from Dozon to Aso caldera. We conducted a trenching survey and an additional hand auger survey to reveal faulting history in Komori, Nishihara Village, in the middle of the section. Furthermore, we carried out a geomorphological survey for the detailed description of the surface ruptures around the trench site. At the trench site, a ~40-cm-deep graben was formed by the 2016 earthquake. A similar graben structure appeared on the trench wall units, which shows larger vertical deformation than that of the 2016 earthquake, indicating that similar types of deformation to the 2016 earthquake have repeatedly occurred at this site. Based on such deformational features of units, we identified at least four faulting events, including the 2016 earthquake, since about 11,500 cal BP. Also, the timing of the penultimate event was 2,240-1,910 cal BP and the calculated recurrence interval was 2,400-3,800 years. The penultimate event may have been simultaneous in the section from the northeastern part of the Aso caldera to the southwestern part of the fault zone, similar to the 2016 Kumamoto earthquake. If this idea is correct, based on the overlap among event dates from previous studies as well as our result, the timing of the preceding earthquake is about 2,000 cal BP.

著者

須貝 俊彦 水野 清秀 八戸 昭一 中里 裕臣 石山 達也 杉山 雄一 細矢 卓志 松島 紘子 吉田 英嗣 山口 正秋 大上 隆史

出版者

公益社団法人 東京地学協会

雑誌

地学雑誌 (ISSN:0022135X)

巻号頁・発行日

vol.116, no.3-4, pp.394-409, 2007-08-25 (Released:2009-11-12)

参考文献数

26

被引用文献数

5 9

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The northern Ayasegawa fault is a part of the Fukaya fault system, which is the longest active fault in the Kanto district. The paleoseismology of the northern Ayasegawa fault was revealed by a combination of arrayed boring and ground penetrating radar (GPR) survey. The northern Ayasegawa fault produced a fold scarp with the NW-SE direction running along the boundary between the Oomiya 2 (O2) surface and fluvial lowland. The O2 was formed in Marine Isotope Stage 5a, and was slightly deformed with a wide warping zone. Sixteen sediment cores arrayed across the warping zone contain a series of tephra layers such as Hk-TP (ca. 60-65 ka), KMP, AT (26-29 ka), As-BP group (20-25 ka), and As-YP (15-16.5 ka). These key beds except Hk-TP were deposited and deformed parallel to each other, suggesting that no faulting events occurred between KMP and As-VP fall. The timing of the last faulting event is after the As-YP fall, and is probably younger than 10 ka based on an interpretation of GPR profiles and 14C ages. KMP should be deposited horizontally because it intervened in the peaty silt layer, which accumulated conformably on lacustrine deposits overlapping the fold scarp. Thus, the KMP horizon roughly indicates the vertical offset produced by the events occurred after the As YP fall. The events were probably singular, and the last one formed a vertical offset of more than 4 m. The older event occurred at around 70 ka between Hk-TP fall and O2 formation. Vertical deformation of the O2 was at least 7 m, indicating the possibility that the vertical offset caused by the penultimate event is at least 3 m. The vertical slip per event might reach 5 m, and the average vertical slip rate is nearly 0.1 mm/yr because the warping zone detected by the arrayed boring above is within the flexure zone shown by the P-wave seismic profile. The northern Ayasegawa fault is considered to be a single behavioral segment because of its longer recurrence interval and lower slip rate of 0.1 mm/yr in comparison with those of the other part of the Fukaya fault system.