Japan Geoscience Union Meeting 2019

Presentation information

[J] Oral

S (Solid Earth Sciences ) » S-EM Earth's Electromagnetism

[S-EM19] Electromagnetic Induction in the Earth and Planetary Interiors, and Tectono-Electromagnetism

Mon. May 27, 2019 10:45 AM - 12:15 PM 304 (3F)

convener:Koki Aizawa(Institute of Seismology and Volcanology, Faculty of Sciences, Kyushu University), Tetsuo Matsuno(Kobe Ocean Bottom Exploration Center, Kobe University), Chairperson:Koki Aizawa, Tetsuo Matsuno

11:45 AM - 12:00 PM

[SEM19-11] A research report on the fundamental investigations of an electrical resistivity structure beneath Chugoku and Shikoku regions, southwestern Japan(2018)

*Ichiro Shiozaki1, Tomofumi Uto1, Makoto Uyeshima2, Hiroshi Hataoka3, Yasuo Ikezoe3, Shinji Yamamoto3, Tatsuya Noguchi1, Daiki Furuichi4, Yuki Murayama4, Kohei Matsushita4, Hideki Murakami5, Naoto Oshiman6, Yoshihisa Iio6, Kazuya Ando7 (1.Graduate School of Engineering, Tottori University, 2.Earthquake Research Institute, The University of Tokyo, 3.Technical Department, Tottori University, 4.Faculty of Engineering, Tottori University, 5.Research and Education Faculty , Kochi University, 6.Disaster Prevention Research Institute, Kyoto University, 7.San'in Kaigan Geopark Museum of the Earth and Sea)

Keywords:electrical resistivity, Chugoku and Shikoku regions, fundamental investigations

In order to contribute to a reduction in damage caused by earthquakes and volcanic eruptions, heterogeneities of crustal and upper mantle structure should be clarified based on fundamental investigations of electrical resistivity structure in Chugoku and Shikoku regions, southwestern Japan arc.
Our research group has shown that there is a clear relationship between resistivity and seismicity in the San'in and Shikoku regions. In the eastern part of San'in region, it was found that a conductive area exists in the deep crust part under the seismic region, which is a resistive area, along with the seismic activity area stretching nearly in the east and west direction. Assuming that inland earthquakes occur because of local stress concentration caused by heterogeneity beneath a seismic activity band(Iio, 2009), it is necessary to improve spatial data and to clarify the heterogeneity in this area hereafter.
On the other hand, in the Shikoku district, it was suggested that the distinctive low resistivity region exists in the upper crust mainly from the survey results in the outer belt, and that there is a clear relation between the low resistivity and low seismicity in the central and the western area. In order to understand the earthquake phenomenon, it is important to clarify the generation environment and the principle as well as the activity style of the slow earthquake (Obara(2017)).
In this background, a Magnitude (M6.6) Earthquake in the Central Tottori Prefecture on October 21, 2016 occurred. In order to elucidate the heterogeneous structure of the lower crust beneath the seisimic region, we set up several survey lines across the central focal region of the Chubu region to carry out wideband MT observation at 12 sites in the observations gap area around this region.
By integrating the existing MT data, we tried model analysis using the program code of Ogawa and Uchida (1996) assuming that this region had a two-dimensional structure of EW strike direction harmonious with the seismic active band. According to the 2D model, we confirmed the southern limit of the low resistivity part existing in the deep crust of the focal region.
In the Chugoku and Shikoku district, we aimed to determine the 3D resistivity structure as a whole, and as in the 2017 research, 1D Occam inversion analysis based on determinant impedance was performed and integrated with existing MT data to estimate the preliminary spatial resistivity structure distribution. As a result, in San'in region, it is generally harmonious with the former studies, the low resistivity region in the deep crust continues to exist in the east-west direction with a certain scale.
In the Shikoku district, the resistivity in the mid crust shows the existence of a relative high/low resistivity boundary in the vicinity of the MTL is prominent, consistent with the existing research. Although there is a observation gap on the Seto Inland Sea side, continuity to the south of the low resistivity region of the San'in region is suggested with respect to the northern extension of the high resistivity crust. Moreover, when we look at the correspondence with the epicentral distribution of the crustal earthquake at this depth, there is clear correspondence with the high resistivity region in the north side of inner zone around the Median Tectonic Line. This relevance is common knowledge with that in the San'in region.
Acknowledgments : This study was supported by the Ministry of Education, Culture, Sports, Science and Technology (MEXT) of Japan, under its Observation and Research Program for Prediction of Earthquakes and Volcanic Eruptions, and also supported by 2018 Tottori Prefecture Environmental academic research promotion promotion project. We would like to express sincere gratitude for the Nittetsu Mining Consultants Co. Ltd. kindly let us use their continuous geomagnetic records as remote references. We used joint research equipment of Kyoto University Disaster Prevention Research Institute for observation of this research.