Abstract
The Hokkaido Eastern Iburi Earthquake (M = 6.7) occurred on Sep. 6, 2018 in the southern part of Central Hokkaido, Japan. Since Paleogene, this region has experienced the dextral oblique transpression between the Eurasia and North American (Okhotsk) Plates and the subsequent collision between the Northeast Japan Arc and the Kuril Arc due to the oblique subduction of the Pacific Plate. This earthquake occurred beneath the foreland fold-and-thrust belt of the Hidaka Collision zone developed by the collision process, and is characterized by its deep focal depth (~ 37 km) and complicated rupture process. The reanalyses of controlled source seismic data collected in the 1998–2000 Hokkaido Transect Project revealed the detailed structure beneath the fold-and-thrust belt, and its relationship with the aftershock activity of this earthquake. Our reflection processing using the CRS/MDRS stacking method imaged for the first time the lower crust and uppermost mantle structures of the Northeast Japan Arc underthrust beneath a thick (~ 5–10 km) sedimentary package of the fold-and-thrust belt. Based on the analysis of the refraction/wide-angle reflection data, the total thickness of this Northeast Japan Arc crust is only 16–22 km. The Moho is at depths of 26–28 km in the source region of the Hokkaido Eastern Iburi Earthquake. Our hypocenter determination using a 3D structure model shows that most of the aftershocks are distributed in a depth range of 7–45 km with steep geometry facing to the east. The seismic activity is quite low within the thick sediments of the fold–thrust belt, from which we find no indication on the relationship of this event with the shallow (< 10–15 km) and rather flat active faults developed in the fold-and-thrust belt. On the other hand, a number of aftershocks are distributed below the Moho. This high activity may be caused by the cold crust delaminated from the Kuril Arc side by the arc–arc collision, which prevents the thermal circulation and cools the forearc uppermost mantle to generate an environment more favorable for brittle fracture.
Highlights
IntroductionIncorporating the results from the seismic reflection data in “Seismic reflection processing” section, the forward modelling by the ray-tracing method was undertaken to reveal still unknown structures of the lower crust and uppermost mantle west of the Hidaka Main Thrust (HMT) using travel times observed at far offsets (80 ~ 180 km)
The Hokkaido Eastern Iburi Earthquake (M = 6.7), hereafter called as the Iburi Earthquake, took place on Sep. 6, 2018 in the southern part of Central Hokkaido (The Headquarters for Earthquake Research Promotion (HERP) 2018a, b, c; Fig. 1)
The source region of this earthquake is located beneath the foreland foldand-thrust belt of the Hidaka Collision zone which has been formed by the collision between the Kuril Arc and the Northeast Japan Arc (NE Japan Arc) since Middle Miocene
Summary
Incorporating the results from the seismic reflection data in “Seismic reflection processing” section, the forward modelling by the ray-tracing method was undertaken to reveal still unknown structures of the lower crust and uppermost mantle west of the HMT using travel times observed at far offsets (80 ~ 180 km). In determining the deeper structure, beneath the fold-and-thrust belt including the source region of the Iburi Earthquake, we used travel times of several phases recognized at far offsets (~ 80–180 km) provided from the 1999 refraction/wide-angle reflection experiment (Fig. 6). These data contain some structural information on the lower crust and upper mantle, they are not of good quality.
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