Japan Geoscience Union Meeting 2018

Presentation information

[JJ] Evening Poster

H (Human Geosciences) » H-DS Disaster geosciences

[H-DS12] Human environment and disaster risk

Wed. May 23, 2018 5:15 PM - 6:30 PM Poster Hall (International Exhibition Hall7, Makuhari Messe)

convener:Tatsuto Aoki(School of Regional Development Studies, Kanazawa University), Nobuhisa Matsuta(Okayama University Graduate School of Education), Toshihiko Sugai(東京大学大学院新領域創成科学研究科自然環境学専攻, 共同), Mamoru Koarai(Earth Science course, College of Science, Ibaraki University)

[HDS12-P04] Liquefaction at the Kobe University Campus during the Awaji-Hanshin Earthquake – Evidence from Ground Penetrating Radar

Miki Sakamoto1, Mariko Shimizu1, Kenta Imai1, Hiroki Matsui1, *Christopher A Gomez1,2 (1.Kobe University Faculty of Maritime Sciences Volcanic Risk at Sea Research Group, Kobe (Japan), 2.Universitas Gadjah Mada, Faculty of Geography, Yogyakarta (Indonesia))

Keywords:Ground Penetrating Radar, Liquefaction, Hanshin-Awaji Earthquake

On January 17th, 1995 at 5:46AM, an earthquake of 6.9 magnitude shook the city of Kobe, leaving a clear imprint in the minds of Japanese people and any of its contemporary. As Kobe City is located by the sea on the edge of the Mts Rokko, an important blanket of sediments is intercalated with river and marine sediments, strongly increasing the shaking.

In the port area, the faculty of Martime Sciences of Kobe University (previously Shosen University) is built on reclaimed land, making it even more vulnerable to earthquake liquefaction, as evidenced by the liquefaction on campus, that resulted in numerous land cracks, mud volcanoes and the sinking of numerous concrete structures.



As the university was used to support the disaster management effort, the ground was very quickly leveled and used for various purposes and most of the impacts of the earthquake liquefaction have been poorly documented. In the present contribution, the authors propose to investigate the structure of the subsurface on the sports ground of the faculty using Ground Penetrating Radar.



Ground Penetrating Radar is a device using the properties of electromagnetic waves (speed, reflection and refraction) through a medium, in order to determine the structure of the subsurface. For the present study, a GSSI SIR-3000 was used with a shielded 500 MhZ antenna. The distance was measured with an attached coding wheel, and the position of the transects were recorded using a GNSS receiver.

The data was processed using the Reflex-R software, from which the time through the air was suppressed using a static correction of time. The topography did not need to be corrected as the land is perfectly flat. The signal was then enhanced by using an AGC gain of 1.44 and the loss of energy compensated with an energy loss function with a scalar of 1.17. Using the slope of refraction hyperbolae, the velocity in the ground was then changed into depth.



The results show that the ground deformed following large-amplitude waves oriented N/S and that locally the ground was broken by features that correspond to known ground cracks. Furthermore, the location of previous buildings and debris is still detectable using Ground Penetrating radar showing heterogeneity in the subsurface. This is important for future liquefaction potentials, as those variations in sub-surface material will create response frequencies that will vary within single areas.