Details of the Researcher

PHOTO

Yo Fukushima
Section
International Research Institute of Disaster Science
Job title
Associate Professor
Degree

  • Ph.D.(ブレーズ・パスカル大学)

  • 修士(理学)(東北大学)

e-Rad No.
80432417
Profile
Measurement and modeling of crustal deformation, natural hazards, link between academia and society, and education related to the above.

Research History 5

  • 2016/09 - Present
    International Research Institute of Disaster Science, Tohoku University Associate Professor

  • 2014/02 - 2016/08
    URA Center, Office of Research Promotion, Tohoku University Principal University Research Administrator

  • 2006/04 - 2014/01
    Disaster Prevention Research Institute, Kyoto University Assistant Professor

  • 2008/11 - 2010/10
    Department of Geophysics, Stanford University Visiting Scholar (JSPS Postdoctoral Fellowships for Research Abroad)

  • 2000/11 - 2002/08
    Preparatory Commission for the Comprehensive Nuclear-Test-Ban Treaty Organization Waveform analyst

Education 3

  • パスカル大学 基礎科学研究科 宇宙科学専攻

    - 2005/12/15

  • Tohoku University Graduate School, Division of Natural Science

    - 2000/03/31

  • Tohoku University Faculty of Science 宇宙地球物理学学科

    - 1998/03/31

Committee Memberships 12

  • 東北大学変動地球共生学卓越大学院プログラム 運営委員会 運営委員

    2019/10 - Present

  • 日本地球惑星連合 代議員

    2024/04 - 2026/03

  • 日本地震学会 代議員

    2024/04 - 2026/03

  • 東北大学変動地球共生学卓越大学院プログラム 事務局 事務局長

    2019/10 - 2022/01

  • 日本測地学会 庶務委員長

    2019/06 - 2020/05

  • 日本地震学会 代議員

    2018/04 - 2020/03

  • 日本地球惑星科学連合 代議員

    2018/04 - 2020/03

  • 公益財団法人日本地球惑星科学連合 ジャーナル編集委員

    2019/10 - 2019/12

  • Earth Planets and Space 運営委員

    2017/06 - 2019/05

  • 日本測地学会 評議員

    2017/04 - 2019/03

  • 日本測地学会 測地学会誌編集事務

    2012/04 - 2014/01

  • 宇宙航空研究開発機構 「次世代SAR衛星ユーザ要求検討会」委員

    2012 - 2013

Show all ︎Show first 5

Professional Memberships 4

  • American Geophysical Union

  • Japan Geoscience Union

  • Seismological Society of Japan

  • Geodetic Society of Japan

Research Interests 5

  • Volcanoes

  • DRR Communication

  • Natural Disasters

  • Crustal Deformation

  • Earthquakes

Research Areas 2

  • Natural sciences / Solid earth science /

  • Social infrastructure (civil Engineering, architecture, disaster prevention) / Disaster prevention engineering /

Awards 3

  1. Tsuboi Prize (Group), Geodetic Society of Japan

    2024/05 Geodetic Society of Japan Contribution to the research on SAR application in Japan

  2. 日本火山学会研究奨励賞

    2011/05 日本火山学会

  3. 日本測地学会学生優秀発表賞

    2004/10 日本測地学会

Papers 77

  1. Earthquake disaster resilience in Taiwan observed from the April 2024 ML 7.1 Hualien earthquake Peer-reviewed

    Ryuta Enokida, Yo Fukushima, Chi-Hsien Tang, Tsung-Yi Pan, Chun-Lin Kuo, Kohju Ikago, Takako Izumi, Shinichi Kuriyama

    Frontiers in Built Environment 11 2025/07/07

    Publisher: Frontiers Media SA

    DOI: 10.3389/fbuil.2025.1593942  

    eISSN: 2297-3362

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    This study investigated Taiwan’s earthquake disaster resilience and remaining challenges after the Hualien earthquake, which occurred at 07:58 a.m. local time (UTC+8) on 3 April 2024. Through a survey, we found possible factors for the relatively suppressed damage caused by this earthquake. The 2024 Hualien earthquake (ML: 7.1) was not as severe as the 2018 earthquake (ML: 6.2) in terms of the maximum velocity of ground motion, which greatly affected the structural damage, owing to the different mechanisms of the earthquakes. Earthquake-resistant measures in Taiwan have high standards, such as building codes and seismic monitoring networks. At the 2024 earthquake, early warning systems and data-sharing networks for seismic records were useful for prompting immediate evacuation. Based on rapidly shared information and predesigned frameworks, disaster response operations quickly made evacuations, rescues, and other decisions. In addition to these government actions, support from non-government organizations (NGOs) has greatly contributed to evacuation, shelter management, and evacuee care in severely affected areas. The timing of this earthquake positively acted to limit the impact on Taroko National Park, as it was not the peak time for visitors, although the park still had the majority of casualties caused by landslides. These lessons can be possibly reflected in earthquake disaster resilience in other countries.

  2. Multi-fault segment complexity and multi-rupture episodes during the 2024 Mw 7.5 Noto Peninsula earthquake

    Rintaro Enomoto, Yoshihiro Kaneko, Chi-Hsien Tang, Yo Fukushima, Hiroyuki Goto, Shin’ichi Miyazaki

    Earth, Planets and Space 2025/06/06

    DOI: 10.1186/s40623-025-02213-w  

  3. Nonplanar 3D fault geometry controls the spatiotemporal distributions of slip and uplift: evidence from the Mw 7.5 2024 Noto Peninsula, Japan, Earthquake Peer-reviewed

    Ryosuke Ando, Yo Fukushima, Keisuke Yoshida, Kazutoshi Imanishi

    Earth, Planets and Space 77 (1) 2025/04/29

    Publisher: Springer Science and Business Media LLC

    DOI: 10.1186/s40623-025-02187-9  

    eISSN: 1880-5981

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    Abstract The 2024 Mw 7.5 Noto Peninsula Earthquake broke through a previously documented active fault system over 150 km in the northern central Japanese Island. This fault system is characterized by geometrical complexity. It is important to understand the physical mechanism underlying the multi-fault rupture. We conduct fully dynamic rupture simulations and identify that the 3D fault geometry controls the observed rupture process and heterogeneous spatiotemporal patterns of the fault slip, seismic radiation and crustal deformation exhibiting about five meters of the maximum uplift. Aiming to examine the effect of the 3D fault geometry, we exclude the heterogeneity arising from the frictional properties. We also avoid retrospective frictional parameter tunings to fit the coseismic observations to test whether it is possible for our forward modeling to reproduce the coseismic observations. The 3D nonplanar geometry model is built based on the previously documented surface fault traces, and we use the regional stress field determined by the stress tensor inversion. As a result, the dynamic rupture simulation reasonably reproduces the observed characteristics of the heterogeneous deformation patterns. We find the rupture is accelerated, and slip is increased, where the fault is bent and optimally oriented to the regional stress orientations. Remarkably, the spatial distribution of surface displacement captured by the Synthetic Aperture Radar imageries is quantitatively reproduced, as characterized by two areas of large and small peaks of uplifts. Our findings may contribute to better constraining future earthquake rupture scenarios. Graphical Abstract

  4. Strategies on Reducing the Earthquake Disaster Risks Through Integration of Bosai and Public Health

    Yo Fukushima, Motoko Kosugi, Toshiyuki Ojima

    Japanese Journal of Risk Analysis 34 (4) 155-160 2025/03

    DOI: 10.11447/jjra.T-24-027  

  5. Preliminary Systematization of Earthquake Countermeasures and Consideration Toward Effective Usage of Earthquake Alert and Advisory Information from the Viewpoint of Behavior Change Peer-reviewed

    Yo FUKUSHIMA, Shinichi KURIYAMA

    Journal of Japan Association for Earthquake Engineering 25 (4) 189-195 2025/03

    Publisher: Japan Association for Earthquake Engineering

    DOI: 10.5610/jaee.25.4_189  

    eISSN: 1884-6246

  6. Near‐Field Imaging of Near‐Identical Mw5.9 Earthquakes in the Crust of Ibaraki, Japan Peer-reviewed

    Keisuke Yoshida, Yo Fukushima, Yoshihiro Kaneko

    Journal of Geophysical Research: Solid Earth 130 (2) e2024JB029791 2025/02

    DOI: 10.1029/2024JB029791  

  7. Weak and Shallow Secondary Frictional Faults Revealed by Large Earthquakes in Haiti

    Bryan Raimbault, Romain Jolivet, Eric Calais, Yo Fukushima, Steeve Symithe

    2025/01/28

    DOI: 10.22541/essoar.173809854.49538617/v1  

  8. Landscape changes caused by the 2024 Noto Peninsula earthquake in Japan International-journal Peer-reviewed

    Yo Fukushima, Daisuke Ishimura, Naoya Takahashi, Yoshiya Iwasa, Luca C Malatesta, Takayuki Takahashi, Chi-Hsien Tang, Keisuke Yoshida, Shinji Toda

    Science advances 10 (49) eadp9193 2024/12/06

    DOI: 10.1126/sciadv.adp9193  

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    Landscapes are shaped by tectonic, climatic, and surface processes over geological timescales, but we rarely witness the events of marked landscape change. The moment magnitude 7.5 Noto Peninsula earthquake in central Japan was caused by a large thrust faulting, up to nearly 10 meters of slip, that expanded more than 150 kilometers along the fault zone. The deformation field reconstructed from satellite data and field surveys reveals up to 4.4 meters of uplift and associated coastal advance along the entire northern coast of the peninsula, meter-scale systematic movement of the mountain slopes consistent with slip on flexural faults, and activation of secondary inland faults, suggesting synchronized ruptures. The findings show excellent consistency between the coseismic deformation and geomorphic features and provide a vivid example of the role of a major earthquake in landscape formation.

  9. Challenges and Potentials for “Supporting Supporters” on Education: A Practical and Rapid Case Study of the Centralized Information Portal Site in the 2024 Noto Peninsula Earthquake Peer-reviewed

    Ryo Saito, Takashi Oda, Aiko Sakurai, Takeshi Sato, Yo Fukushima

    Journal of Disaster Research 19 (6) 912-920 2024/12/01

    Publisher: Fuji Technology Press Ltd.

    DOI: 10.20965/jdr.2024.p0912  

    ISSN: 1881-2473

    eISSN: 1883-8030

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    The 2024 Noto Peninsula Earthquake, which struck on January 1 during Japan’s holiday season, may have led to some delays in response efforts. It is important to acknowledge that many individuals likely responded promptly, and this statement is not intended to criticize the responses of various parties. Another significant challenge was how regions outside the affected area could effectively support those impacted, especially in terms of school education soon after the disaster. This study provides a preliminary report on a school education support project initiated in response to the earthquake. The primary focus is on the centralized information portal site launched on January 3, designed for “supporting supporters.” Additionally, the study covers the rapid response meeting held on January 9 and the report meeting on May 8, both at the International Research Institute of Disaster Science, Tohoku University, Sendai, Japan. These initiatives aim to address and summarize current challenges and outline future directions for schools in Ishikawa Prefecture and across Japan. We hope that this study will contribute to recovery and reconstruction efforts in Ishikawa Prefecture and enhance resilient school education worldwide.

  10. Measurement and accuracy evaluation of surface fault displacements of the 2023 Southeastern Türkiye earthquake using pixel offset analysis on optical satellite images Peer-reviewed

    Kazuki Hachiro, Yo Fukushima

    Journal of the Geodetic Society of Japan 70 173-186 2024/11

    DOI: 10.11366/sokuchi.70.173  

  11. Role of a Hidden Fault in the Early Process of the 2024 Mw7.5 Noto Peninsula Earthquake Peer-reviewed

    Keisuke Yoshida, Ryota Takagi, Yo Fukushima, Ryosuke Ando, Yusaku Ohta, Yoshihiro Hiramatsu

    Geophysical Research Letters 51 (16) 2024/08/23

    Publisher: American Geophysical Union (AGU)

    DOI: 10.1029/2024gl110993  

    ISSN: 0094-8276

    eISSN: 1944-8007

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    Abstract The 2024 Mw 7.5 Noto Peninsula, Japan, earthquake was initiated within the source region of intense swarm activity. To reveal the mainshock early process, we relocated the earthquake hypocenters and found that many key phenomena, including the mainshock initiation, foreshocks, swarm earthquakes, and deep aseismic slip, occurred at parts of a previously unrecognized fault in intricate fault network. This fault is subparallel (several kilometers deeper) to a known active fault, and the mainshock initiation and foreshocks occurred at the front of a 2‐year westward swarm migration. The initiation location coincides with the destination of the upward migration of a deeper earthquake cluster via several smaller faults. Fluid supply, small earthquakes, and aseismic slip on the fault likely triggered the mainshock, leading to the first major rupture at the western region, propagating further to the west and east sides, resulting in an Mw7.5 event, exceeding 100 km in length.

  12. Author Correction: High probability of successive occurrence of Nankai megathrust earthquakes (Scientific Reports, (2023), 13, 1, (63), 10.1038/s41598-022-26455-w)

    Yo Fukushima, Tomoaki Nishikawa, Yasuyuki Kano

    Scientific Reports 13 (1) 2023/12

    DOI: 10.1038/s41598-023-29306-4  

    eISSN: 2045-2322

  13. “What if the Nankai Trough Earthquake Occurred?”: A Collaboration Between Academia with the Media Using a Newspaper-Making Workshop as a Starting Point to Engage Elementary School Students and Their Parents in Disaster Risk Reduction Peer-reviewed

    Natsuko Chubachi, Kumiko Konno, Yo Fukushima, Takeshi Sato

    Journal of Disaster Research 18 (4) 397-414 2023/06/01

    Publisher: Fuji Technology Press Ltd.

    DOI: 10.20965/jdr.2023.p0397  

    ISSN: 1881-2473

    eISSN: 1883-8030

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    Japanese citizens are still not fully prepared for an occurrence of the Nankai Trough Earthquake. In the Japanese population, it is not an easy task to achieve disaster preparedness, and to address issues such as a lack of initiative and low priority in disaster risk reduction (DRR). In their attempt to address these issues, the authors focused on Japanese elementary school students and their parents by conducting a lighthearted workshop that encouraged them to initiate risk reduction activities against disasters caused by natural hazards, including the Nankai Trough Earthquake. The workshop was a nonschool-based DRR activity, and it had the following characteristics: (1) the contents were comprehensively developed from a collaboration between researchers in science and engineering with a disaster science communicator and media personnel; (2) innovative contents were communicated in a creative manner; (3) incorporation of a “newspaper-making” activity; and (4) an online format that easily enabled those who did not have a close social network in the community to participate in it. The workshop was conducted with 21 families, and they developed original newspapers on DRR. The findings of the completed newspapers, participant observations, and questionnaire survey revealed that the workshop was an effective starting point for citizens to proactively engage in DRR, including the Nankai Trough Earthquake.

  14. Rupture Geometry and Slip Distribution of the Mw 7.2 Nippes Earthquake, Haiti, From Space Geodetic Data Peer-reviewed

    B. Raimbault, R. Jolivet, E. Calais, S. Symithe, Y. Fukushima, P. Dubernet

    Geochemistry, Geophysics, Geosystems 24 (4) 2023/04/22

    Publisher: American Geophysical Union (AGU)

    DOI: 10.1029/2022gc010752  

    ISSN: 1525-2027

    eISSN: 1525-2027

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    Abstract On 14 August 2021 the Mw 7.2 Nippes earthquake struck southern Haiti, rupturing a segment of the Enriquillo‐Plantain Garden Fault system (EPGF), a 300 km‐long strike‐slip fault system that accommodates half of the highly oblique convergence displacement between the Caribbean and the North American plates. We use coseismic surface displacements from Interferometric Synthetic Aperture Radar and Global Navigation Satellite System (GNSS) to estimate the geometry of the rupture through a systematic parametric exploration, determine its mechanism, and relate them to the regional tectonics derived from interseismic GNSS measurements. We show that the earthquake ruptured a north dipping fault (66 ± 4° dip) with a geodetically determined moment release that is 40% reverse and 60% strike‐slip. We cannot conclude whether this north‐dipping structure is the EPGF itself or a distinct fault running parallel to the EPGF. The rupture then evolved to the west on a vertical (86 ± 2° dip) fault parallel to the EPGF, the Ravine du Sud fault, with left‐lateral strike‐slip motion. The coseismic slip distribution of the 2010 Léogane and 2021 Nippes earthquakes, consistent with the transpressional interseismic strain rate field, show a segmentation of the Caribbean–North American plate boundary in southern Haiti and imply a revision in our understanding of the mode of earthquake rupture within the EPGF system.

  15. The Anticipated Nankai Trough Earthquake and Tsunami in Japan: Determinant Factors of Residents’ Pre-Event Evacuation Intentions Peer-reviewed

    Kanan Hirano, Yo Fukushima, Hiroaki Maruya, Motoyuki Kido, Motoaki Sugiura

    Journal of Disaster Research 18 (3) 233-245 2023/04/01

    Publisher: Fuji Technology Press Ltd.

    DOI: 10.20965/jdr.2023.p0233  

    ISSN: 1881-2473

    eISSN: 1883-8030

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    As a countermeasure against M8–9 class Nankai Trough earthquakes, the Japan Meteorological Agency started a service to release “Nankai Trough Earthquake Extra Information (Megathrust Earthquake Alert).” This alert is released after an M8.0 or higher earthquake occurs and the possibility of a subsequent earthquake is evaluated to be higher than usual. This is an innovative attempt at disaster mitigation in Japan as it encourages residents in the predefined area to pre-evacuate for one week when tsunami risk is higher. However, the factors influencing the evacuation behavior of residents are unknown. In this study, we investigated factors contributing to residents’ pre-event evacuation intentions using the hierarchical multiple regression analysis. We focused on the extent to which the recognition of the hazards and risks of the Nankai Trough earthquake and the response to the Extra Information, which are changeable by the local governments’ public relations activities, contributed to pre-event evacuation intentions after controlling for disaster-related general attitude and sociodemographic factors. Further, we paid special attention to residents’ degree of recognition of this information by checking the accuracy of their understanding of whether they lived within the pre-event evacuation area. The results showed that the recognition factors were relevant but less so than the general attitude toward disaster and more so than the sociodemographic factors. In addition, residents’ recognition accuracy was low. Our results suggest that it is important for local governments to make adequate efforts to encourage residents to evacuate.

  16. Comparison of tropospheric delay correction methods for InSAR analysis using a mesoscale meteorological model: a case study from Japan Peer-reviewed

    Sardila Nurulhikmah Sailellah, Yo Fukushima

    Earth, Planets and Space 75 (1) 2023/02

    DOI: 10.1186/s40623-023-01773-z  

    ISSN: 1343-8832

    eISSN: 1880-5981

  17. 干渉SARとSfM-MVS技術による盛土の地震時変動の評価 Invited

    中埜貴元, 藤原智, 宮嶋愛菜, 福島洋

    地盤工学会誌 71 (1) 30-34 2023/01

  18. High probability of successive occurrence of Nankai megathrust earthquakes Peer-reviewed

    Yo Fukushima, Tomoaki Nishikawa, Yasuyuki Kano

    Scientific Reports 13 (1) 2023/01

    DOI: 10.1038/s41598-022-26455-w  

    eISSN: 2045-2322

  19. Citizen seismology helps decipher the 2021 Haiti earthquake International-journal Peer-reviewed

    E. Calais, S. Symithe, T. Monfret, B. Delouis, A. Lomax, F. Courboulex, J.P. Ampuero, P.E. Lara, Q. Bletery, J. Chèze, A. Deschamps, B. de Lépinay, B. Raimbault, R. Jolivet, S. Paul, S. St Fleur, D. Boisson, Y. Fukushima, Z. Duputel, L. Xu, L. Meng

    Science 2022/03/10

    DOI: 10.1126/science.abn1045  

  20. Using InSAR for evaluating the accuracy of locations and focal mechanism solutions of local earthquake catalogues Peer-reviewed

    Nematollah Ghayournajarkar, Yo Fukushima

    Geophysical Journal International 2022/02/24

    Publisher: Oxford University Press (OUP)

    DOI: 10.1093/gji/ggac072  

    ISSN: 0956-540X

    eISSN: 1365-246X

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    <title>Summary</title> Earthquake source parameters play a fundamental role in evaluating seismic hazard. In many countries, the relatively low accuracy of the earthquake source parameters owing to sparse seismic monitoring networks prevents accurate seismic hazard evaluation. Interferometric Synthetic Aperture Radar (InSAR) is a useful tool for accurate fault parameter determination of shallow inland earthquakes. We compared the fault parameters (location and rupture geometry) derived from InSAR with those derived from local and global seismic data to assess the credibility of the earthquake catalogues. We set our targets to Iran and Japan, where seismic networks are relatively sparse and dense, respectively, and analyzed a total of ten shallow inland earthquakes. To compare the fault parameters for each studied earthquake, we first created interferograms using InSAR data from multiple satellites and conducted fault model inversions assuming uniform slip on a rectangular finite fault. For the studied Iranian earthquakes, the epicenters of the United States Geological Survey (USGS) catalogue were more consistent with the InSAR-derived fault model compared to those of the local catalogue of the Iranian Seismological Center (IRSC). For the studied Japanese earthquakes, the epicenters of the Japan Meteorological Agency (JMA) catalogue were more consistent with the InSAR-derived fault model compared to those of the USGS. Assuming that the accuracy of the USGS locations is comparable for the two countries, the JMA catalogue has a higher accuracy than the IRSC catalogue. The difference in the accuracy for the two local catalogues can be explained by the larger azimuthal gaps of the IRSC seismic network. We also showed that the IRSC- and JMA-derived centroids were more consistent with the InSAR-derived fault model compared to those of the Global Centroid Moment Tensor (GCMT) catalogue. The focal mechanism solutions derived from InSAR and seismic CMT solutions were significantly different, highlighting the difficulties in determining the focal mechanism parameters from seismic data, even when the seismic station coverage is dense. As InSAR data can be easily accessed, this study presents a cost-effective method to assess and improve the accuracy of the local earthquake catalogues anywhere in the world.

  21. Deformation of reclaimed valleys in Sendai during the 2011 off the Pacific Coast of Tohoku Earthquake detected by InSAR and its background factors Peer-reviewed

    Miyajima, A, Y. Fukushima, T. Nakano, S. Fujiwara

    J. Japan Soc. Natural Disaster Sci., 41 19-35 2022

  22. Workshop for I dentifying Issues Due to the Dissemination of the Nankai Trough Earthquake Information by News Media Peer-reviewed

    OHTANI Ryu, IRIE Sayaka, CHUBACHI Natsuko, FUKUSHIMA Yo, YOKOTA Takashi, HORI Takane, HASHIMOTO Tetsuo, HAYASHI Yoshinari, KUMAMOTO Kunihiko, IWATA Takayoshi, TANIHARA Kazunori, HYODO Mamor, HASHIMOTO Manabu

    Journal of Japan Association for Earthquake Engineering 22 (2) 88-108 2022

    Publisher: Japan Association for Earthquake Engineering

    DOI: 10.5610/jaee.22.2_88  

    eISSN: 1884-6246

  23. Automatic error-term separation approach in InSAR time-series analysis and application to Arima-Takatsuki fault zone, western Japan

    Yo Fukushima

    2021/12/08

    DOI: 10.1002/essoar.10509237.1  

  24. Development of a Scenario Method to Identify Potential Problems Associated with the Issuance of the Nankai Tough Earthquake Informatio Peer-reviewed

    Ryu OHTANI, Mamoru HYODO, Yoshinari HAYASHI, Manabu HASHIMOTO, Takane HORI, Nobumasa KAWABATA, Kunihiko KUMAMOTO, Takayoshi IWATA, Takashi YOKOTA, Kazunori TANIHARA, Sayaka IRIE, Yo FUKUSHIMA

    Journal of Japan Association for Earthquake Engineering 21 (2) 2_34-2_56 2021/05/31

    Publisher: Japan Association for Earthquake Engineering

    DOI: 10.5610/jaee.21.2_34  

    eISSN: 1884-6246

  25. Repeated triggered ruptures on a distributed secondary fault system: an example from the 2016 Kumamoto earthquake, southwest Japan Peer-reviewed

    Daisuke Ishimura,Hiroyuki Tsutsumi,Shinji Toda,Yo Fukushima,Yasuhiro Kumahara,Naoya Takahashi,Toshihiko Ichihara&Keita Takada

    Earth,Planets and Space 2021/02/08

  26. The Relationship Between Seismic and Aseismic Slip on the Philippine Fault on Leyte Island: Bayesian Modeling of Fault Slip and Geothermal Subsidence Peer-reviewed

    John Dale B. Dianala, Romain Jolivet, Marion Y. Thomas, Yo Fukushima, Barry Parsons, Richard Walker

    Journal of Geophysical Research: Solid Earth 125 2020/12

    DOI: 10.1029/2020JB020052  

  27. Characteristics of Secondary-Ruptured Faults in The Aso Caldera Triggered by The 2016 Mw 7.0 Kumamoto Earthquake Peer-reviewed

    Yo Fukushima, Daisuke Ishimura

    Earth Planets and Space 72 (175) 2020/06/24

    DOI: 10.21203/rs.3.rs-37251/v1  

  28. Determination of the dipping direction of a blind reverse fault from InSAR: case study on the 2017 Sefid Sang earthquake, northeastern Iran Peer-reviewed

    Nematollah Ghayournajarkar, Yo Fukushima

    Earth, Planets and Space 72 (64) 2020/05

    DOI: 10.1186/s40623-020-01190-6  

  29. 地震学の社会への関わり方の理想形:「現実論」と「根本論」の共存 Peer-reviewed

    福島洋

    日本地震学会モノグラフ第6号「南海トラフ地震臨時情報:科学的データや知見の活用」 (6) 46-47 2020/03

  30. 複眼学習アプローチ手法を用いた仙台市におけるワークショップの試み

    中鉢奈津子, 福島洋, 久利美和

    自然災害科学 39 (1) 18-22 2020

  31. Surface creep rate distribution along the Philippine fault, Leyte Island, and possible repeating of M<inf>w</inf> ~ 6.5 earthquakes on an isolated locked patch Peer-reviewed

    Yo Fukushima, Manabu Hashimoto, Masatoshi Miyazawa, Naoki Uchida, Taka’aki Taira

    Earth, Planets and Space 71 (1) 2019/12/01

    DOI: 10.1186/s40623-019-1096-5  

    ISSN: 1343-8832

    eISSN: 1880-5981

  32. Complementary Occurrence of Fault Creep and an MW 6.5 Earthquake Along the Philippine Fault on Leyte Island Revealed by ALOS and ALOS-2 Sar Interferometry

    Yo Fukushima, Manabu Hashimoto

    International Geoscience and Remote Sensing Symposium (IGARSS) 9288-9291 2019/07/01

    Publisher: Institute of Electrical and Electronics Engineers Inc.

    DOI: 10.1109/IGARSS.2019.8898729  

  33. Extremely early recurrence of intraplate fault rupture following the Tohoku-Oki earthquake Peer-reviewed

    Yo Fukushima, Shinji Toda, Satoshi Miura, Daisuke Ishimura, Jun’ichi Fukuda, Tomotsugu Demachi, Kenji Tachibana

    Nature Geoscience 11 (10) 777-781 2018/10/01

    DOI: 10.1038/s41561-018-0201-x  

    ISSN: 1752-0894

    eISSN: 1752-0908

  34. Project of the impact assessment of the uncertainties of earthquake forecasting information on societal and indi- vidual disaster preparedness

    OHTANI Ryu, HAYASHI Yoshinari, HASHIMOTO Manabu, HORI Takane, KAWABATA Nobumasa, KUMAMOTO Kunihiko, IWATA Takayoshi, YOKOTA Takashi, TANIHARA Kazunori, FUKUSHIMA Yo, HYODO Mamoru, IRIE Sayaka

    GSI Chishitsu news 7 (8) 191-198 2018/08

  35. A retrospective look at the February 1993 east rift zone intrusion at Kīlauea volcano, Hawaii Peer-reviewed

    S. Conway, C. Wauthier, Y. Fukushima, M. Poland

    Journal of Volcanology and Geothermal Research 358 241-251 2018

    Publisher: Elsevier B.V.

    DOI: 10.1016/j.jvolgeores.2018.05.017  

    ISSN: 0377-0273

  36. Natural surface rebound of the Bangkok plain and aquifer characterization by persistent scatterer interferometry Peer-reviewed

    Kazuya Ishitsuka, Yo Fukushima, Takeshi Tsuji, Yasuhiro Yamada, Toshifumi Matsuoka, Pham Huy Giao

    GEOCHEMISTRY GEOPHYSICS GEOSYSTEMS 15 (4) 965-974 2014/04

    DOI: 10.1002/2013GC005154  

    ISSN: 1525-2027

    eISSN: 1525-2027

  37. Volcanic subsidence triggered by megathrust earthquakes Peer-reviewed

    Youichiro Takada, Yo Fukushima

    Journal of Disaster Research 9 (3) 373-380 2014

    Publisher: Fuji Technology Press

    DOI: 10.20965/jdr.2014.p0373  

    ISSN: 1883-8030 1881-2473

  38. The 2011 M-W 6.8 Burma earthquake: fault constraints provided by multiple SAR techniques Peer-reviewed

    Wanpeng Feng, Zhenhong Li, John R. Elliott, Yo Fukushima, Trevor Hoey, Andrew Singleton, Robert Cook, Zhonghuai Xu

    GEOPHYSICAL JOURNAL INTERNATIONAL 195 (1) 650-660 2013/10

    DOI: 10.1093/gji/ggt254  

    ISSN: 0956-540X

    eISSN: 1365-246X

  39. Volcanic subsidence triggered by the 2011 Tohoku earthquake in Japan Peer-reviewed

    Youichiro Takada, Yo Fukushima

    NATURE GEOSCIENCE 6 (8) 637-641 2013/08

    DOI: 10.1038/NGEO1857  

    ISSN: 1752-0894

  40. Co-seismic slip distribution of 2010 Darfield, New Zealand M(w)7. 1 earthquake inverted using InSAR measurements Peer-reviewed

    Luo Xu-Wei, Sun Jian-Bao, Shen Zheng-Kang, Yo Fukushima

    CHINESE JOURNAL OF GEOPHYSICS-CHINESE EDITION 56 (8) 2613-2624 2013/08

    DOI: 10.6038/cjg20130811  

    ISSN: 0001-5733

  41. Complex Ruptures of the 11 April 2011 M-w 6.6 Iwaki Earthquake Triggered by the 11 March 2011 M-w 9.0 Tohoku Earthquake, Japan Peer-reviewed

    Yo Fukushima, Youichiro Takada, Manabu Hashimoto

    BULLETIN OF THE SEISMOLOGICAL SOCIETY OF AMERICA 103 (2B) 1572-1583 2013/05

    DOI: 10.1785/0120120140  

    ISSN: 0037-1106

  42. Evolution and future of the Lusi mud eruption inferred from ground deformation Peer-reviewed

    M. L. Rudolph, M. Shirzaei, M. Manga, Y. Fukushima

    GEOPHYSICAL RESEARCH LETTERS 40 (6) 1089-1092 2013/03

    DOI: 10.1002/grl.50189  

    ISSN: 0094-8276

  43. Correction of DInSAR Noise Using GNSS Measurements Peer-reviewed

    Yo Fukushima

    CONFERENCE PROCEEDINGS OF 2013 ASIA-PACIFIC CONFERENCE ON SYNTHETIC APERTURE RADAR (APSAR) 226-228 2013

  44. Perspectives of crustal deformation research in Japan with synthetic aperture radar Peer-reviewed

    Hashimoto, M, Furuya, M, Ozawa, T, Fukushima, Y

    J. Geod. Soc. Jpn. 59 (3) 119-132 2013

    Publisher: The Geodetic Society of Japan

    DOI: 10.11366/sokuchi.59.119  

    ISSN: 0038-0830

    More details Close

    Synthetic aperture radar (SAR) has been widely used in crustal deformation studies all over the world. Especially the Japanese Advanced Land Observing Satellite (ALOS) contributed so much to the studies of large earthquakes, volcanic eruptions, landslides and other phenomena, and Japanese researchers presented many remarkable results in international journals and conferences. Studies with SAR, however, depend on the environment including satellites, software, data distribution etc. International research community is taking a step forward earlier than the Japanese community, by establishing research alliances between several disciplines. New techniques are frequently proposed and discussed in several international meetings. Data and software are widely and freely distributed in the international research community. Although the ALOS-2 will be launched in the near future and Japanese researchers may have privileges on the access to data, it is important to discuss the strategy that do not heavily depend on ALOS-2. Collaboration among researchers in related fields of SAR technologies and earth sciences is indispensable to achieve the international competition in research. It is also important for Japanese researchers to present the potential and attractiveness of SAR studies to young students.

  45. Automatic Detection of Landslides from SAR Images: Application to the 2011 Kii Landslides Peer-reviewed

    Masumi Yamada, Manabu Hashimoto, Yo Fukushima, Yuki Matsushi, Masahiro Chigira

    CONFERENCE PROCEEDINGS OF 2013 ASIA-PACIFIC CONFERENCE ON SYNTHETIC APERTURE RADAR (APSAR) 245-248 2013

  46. Land subsidence in semarang, Indonesia, observed by InSAR time-series analysis using ALOS/PALSAR data Peer-reviewed

    Arimoto, M, Fukushima, Y, Hashimoto, M, Takada, Y

    J. Geod. Soc. Jpn. 59 (2) 45-56 2013

    Publisher: The Geodetic Society of Japan

    DOI: 10.11366/sokuchi.59.45  

    ISSN: 0038-0830

    More details Close

    In order to precisely measure the land subsidence in Semarang, Indonesia, we performed a smallbaseline interferometric synthetic aperture radar (SAR) time-series analysis using the images acquired by the Japanese Advanced Land Observing Satellite (ALOS). We used a total of 34 SAR images, acquired from both the ascending and descending orbits, and obtained the subsidence timeseries in the two line-of-sight (LOS) directions. Before solving for the displacement time-series, we corrected for artifacts due to orbital inaccuracies and atmospheric phase delay. We obtained the time-series of quasi-vertical displacements by decomposing the displacement time-series in the two LOS directions. The result shows that the subsidence is limited on low-land areas where an aquifer system is well developed, suggesting that the cause of the subsidence is extraction of water from the aquifer. The subsidence rate was estimated to be practically constant with time with no clear seasonal effects. The maximum subsidence rate of 10&plusmn;0.4 cm/year was obtained at a location where subsidence had not been identified before. Our study also shows the effectiveness of L-band SAR data to monitor land subsidence over time.

  47. Surface movements during the 2011 great Tohoku-Oki earthquake detected by ALOS/PALSAR Invited

    HASHIMOTO, M, Y. Fukushima, Y. Takada

    Technical Report of IEICE, SANE2012 79 129-134 2012/09

  48. Images from ALOS of the March 2011 Tohoku Earthquake Invited

    Mikio Tobita, Masanobu Shimada Manabu Hashimoto, Yo Fukushima, Youichiro Takada, Taku Ozawa, Satoshi Okuyama, Takahiro Abe, Masato Furuya

    Space Research Today 181 17-19 2011/08

    Publisher: Elsevier BV

    DOI: 10.1016/j.srt.2011.07.006  

    ISSN: 1752-9298

  49. Fan-delta uplift and mountain subsidence during the Haiti 2010 earthquake Peer-reviewed

    Manabu Hashimoto, Yo Fukushima, Yukitoshi Fukahata

    Nature Geoscience 4 (4) 255-259 2011/04

    DOI: 10.1038/ngeo1115  

    ISSN: 1752-0894 1752-0908

  50. S02 Study on magma transfer mechanism by detection of volcano deformation using InS AR and numerical modeling

    Fukushima Yo

    PROGRAMME AND ABSTRACTS THE VOLCANOLOGICAL SOCIETY OF JAPAN 2011 110-110 2011

    Publisher: The Volcanological Society of Japan

    DOI: 10.18940/vsj.2011.0_110  

  51. A3-10 Crustal deformation of the volcanoes in the northeastern Japan arc induced by the 2011 Tohoku Earthquake

    Fukushima Yo, Takada Youichiro

    PROGRAMME AND ABSTRACTS THE VOLCANOLOGICAL SOCIETY OF JAPAN 2011 53-53 2011

    Publisher: The Volcanological Society of Japan

    DOI: 10.18940/vsj.2011.0_53  

  52. Crustal deformation after 2004 niigataken-chuetsu earthquake, central Japan, investigated by persistent scatterer interferometry Peer-reviewed

    Fukushima, Y, Hooper, A

    J. Geod. Soc. Jpn. 57 (4) 195-214 2011

    Publisher: The Geodetic Society of Japan

    DOI: 10.11366/sokuchi.57.195  

    ISSN: 0038-0830

    More details Close

    In order to precisely measure the displacement field after the 2004 Niigataken-Chuetsu earthquake, central Japan, we performed a persistent scatterer (PS) interferometry analysis on SAR images acquired by the European satellite ENVISAT. After performing a PS interferometry analysis, we first corrected for artifacts due to orbit inaccuracies and atmospheric phase delay using GPS displacements. This post-processing revealed that the dominant component of the displacements is a seasonal pattern caused by water extraction during winter. Precise estimation of the tectonic component of the displacements, which enables discussion of the order of 1 cm displacements and 1 cm/year velocity, was further obtained by separating out the seasonal component using a principal component analysis. A part of observed signals was consistent with deformations due to afterslips and poroelastic relaxation of the 2004 earthquake. Another part of the signals was consistent with a relative motion of two blocks whose boundary coincides with the Western Nagaoka Plain faults.

  53. Persistent scatterer interferometry by using staMPS package Peer-reviewed

    Fukushima, Y

    J. Geod. Soc. Jpn. 57 (2) 41-48 2011

    Publisher: The Geodetic Society of Japan

    DOI: 10.11366/sokuchi.57.41  

    ISSN: 0038-0830

    More details Close

    InSAR time-series analyses use multiple SAR images acquired on different dates to map time evolution of small and quasi-steady ground displacements. StaMPS (Stanford Method for Persistent Scatterers) is a software package for an InSAR persistent scatterer (PS) analysis, which is one category of the InSAR time-series analyses. The package is freely available for non-commercial applications. This report explains the main features of StaMPS and its basic algorithm. The algorithm of StaMPS has been developed to work even in terrains devoid of man-made structures and/or undergoing non-steady deformation. StaMPS uses the spatial correlation of the phases in selecting PS pixels, which enables identification of more PS pixels than conventional algorithms can identify. This further permits successful phase unwrapping without calling for any phase history model, which is required by other algorithms.

  54. Evolution of magma conduits during the 1998-2000 eruptions of Piton de la Fournaise volcano, Reunion Island Peer-reviewed

    Y. Fukushima, V. Cayol, P. Durand, D. Massonnet

    JOURNAL OF GEOPHYSICAL RESEARCH-SOLID EARTH 115 (10) B10204 2010/10

    DOI: 10.1029/2009JB007023  

    ISSN: 0148-0227

  55. Coseismic Deformation from the 2008 Wenchuan, China, Earthquake Derived from ALOS/PALSAR Images Peer-reviewed

    Manabu Hashimoto, Mari Enomoto, Yo Fukushima

    TECTONOPHYSICS 491 (1-4) 59-71 2010/08

    DOI: 10.1016/j.tecto.2009.08.034  

    ISSN: 0040-1951

  56. Analysis of crustal deformation associated with the 2008 Wenchuan, China, earthquake using ALOS/PALSAR data Peer-reviewed

    Enomoto, M, Hashimoto, M, Fukushima, Y, Fukahata, Y

    J. Geod. Soc. Jpn. 56 (4) 155-167 2010

    Publisher: The Geodetic Society of Japan

    DOI: 10.11366/sokuchi.56.155  

    ISSN: 0038-0830

    More details Close

    We study crustal deformation associated with the Mw7.9 Wenchuan, China, earthquake of May 12, 2008 on the basis of ALOS/PALSAR images to estimate slip distribution. In addition to interferograms along the ascending tracks, we use the ScanSAR data along a descending orbit. The ScanSAR-ScanSAR interferogram has high coherence enough to discuss coseismic deformation, which implies up to 80cm range increase on the south side of the Long-Menshan fault.<BR> We jointly invert these data and GPS displacements to estimate slip distribution and dip angle of the source fault simultaneously. The optimal dip angle is estimated to be 48 degrees for the combination of three datasets, while 58 degrees for only InSAR ascending data. The maximum slip is 5m for only ascending data, while it exceeds 8m for the combined datasets. This discrepancy may be attributed to the geometry of the source fault to the line-of-sight direction of SAR, suggesting that enough information cannot be retrieved by only ascending images. It is important to note that thrust component is relatively large in the southwestern part, while dextral slip is prevailing in the northeastern part, in the slip distribution obtained from the joint inversion. These characteristics are consistent with those of surface ruptures detected by field surveys.

  57. Subsidence associated with the LUSI mud eruption, East Java, investigated by SAR interferometry Peer-reviewed

    Yo Fukushima, Jim Mori, Manabu Hashimoto, Yasuyuki Kano

    MARINE AND PETROLEUM GEOLOGY 26 (9) 1740-1750 2009/11

    DOI: 10.1016/j.marpetgeo.2009.02.001  

    ISSN: 0264-8172

  58. A Performance Study of a Laser Doppler Vibrometer for Measuring Waveforms from Piezoelectric Transducers Peer-reviewed

    Fukushima, Yo, Nishizawa, Osamu, Sato, Haruo

    Ieee Transactions on Ultrasonics Ferroelectrics and Frequency Control 56 (7) 5116869 2009

    DOI: 10.1109/TUFFC.2009.1199  

  59. Cyclic magma storages and transfers at Piton de La Fournaise volcano (La Reunion hotspot) inferred from deformation and geochemical data Peer-reviewed

    Aline Peltier, Vincent Famin, Patrick Bachelery, Valerie Cayol, Yo Fukushima, Thomas Staudacher

    EARTH AND PLANETARY SCIENCE LETTERS 270 (3-4) 180-188 2008/06

    DOI: 10.1016/j.epsl.2008.02.042  

    ISSN: 0012-821X

  60. Postseismic displacements following the 2007 Noto peninsula earthquake detected by dense GPS observation Peer-reviewed

    Manabu Hashimoto, Hiroaki Takahashi, Ryosuke Doke, Minoru Kasahara, Akira Takeuchi, Kenusuke Onoue, Yoshinobu Hoso, Yo Fukushima, Kajuro Nakamura, Fumio Ohya, Ryo Honda, Masayoshi Ichiyanagi, Teruhiro Yamaguchi, Takahiro Maeda, Yoshihiro Hiramatsu

    Earth, Planets and Space 60 (2) 139-144 2008/02

    Publisher: Springer Nature

    DOI: 10.1186/bf03352775  

    ISSN: 1880-5981

  61. Japanese L-Band Radar Improves Surface Deformation Monitoring

    Masanobu Shimada, Taku Ozawa, Yo Fukushima, Masato Furuya, Ake Rosenqvist

    Eos, Transactions American Geophysical Union 89 (31) 277-277 2008

    Publisher: American Geophysical Union (AGU)

    DOI: 10.1029/2008eo310002  

    ISSN: 0096-3941

  62. 「だいち」で捉えた四川大地震に伴う地殻変動

    橋本学, 福島洋, 榎本真梨, 有本美加

    なゐふる Vol.69, pp.5-5 2008

  63. LABORATORY EXPERIMENTS OF SEISMIC WAVE PROPAGATION IN RANDOM HETEROGENEOUS MEDIA Peer-reviewed

    Osamu Nishizawa, Yo Fukushima

    ADVANCES IN GEOPHYSICS, VOL 50 50 219-246 2008

    DOI: 10.1016/S0065-2687(08)00008-3  

    ISSN: 0065-2687

  64. Coseismic and postseismic displacements from the Mozambique earthquake of 22 February 2006 detected by InSAR Peer-reviewed

    Hashimoto, M, Fukushima, Y, Ozawa, T

    Eur Space Agency Spec Publ ESA SP (649 SP) 2008

  65. Multi sensors InSAR monitoring of volcanic activity: The February & April 2007 eruptions at Piton de la Fournaise, reunion Island, imaged with ENVISAT-ASAR and ALOS-PALSAR data Peer-reviewed

    Froger, J.-L, Fukushima, Y, Tinard, P, Cayol, V, Souriot, T, Mora, O, Staudacher, T, Durand, P, Fruneau, B, Villeneuve, N

    Eur Space Agency Spec Publ ESA SP (649 SP) 2008

  66. Fault model of the 2007 Noto Hanto earthquake estimated from PALSAR radar interferometry and GPS data Peer-reviewed

    Yo Fukushima, Taku Wawa, Manabu Hashimoto

    EARTH PLANETS AND SPACE 60 (2) 99-104 2008

    ISSN: 1343-8832

  67. ランダム不均質媒質を伝播する地震波の研究とその応用-室内実験からのアプローチ- Peer-reviewed

    O. Nishizawa, Y. Fukushima

    月刊地球 29 (4) 274-283 2007

    Publisher:

    ISSN: 0387-3498

  68. 合成開口レーダーによる火山体の変形検出とマグマ移動システムの解明 Peer-reviewed

    FUKUSHIMA Yo

    Chikyu 29 (8) 492-497 2007

    Publisher:

    ISSN: 0387-3498

  69. Complex and realistic modeling of InSAR data Peer-reviewed

    Fukushima, Y

    J. Geod. Soc. Jpn. 52 (4) 213-224 2006

    Publisher: The Geodetic Society of Japan

    DOI: 10.11366/sokuchi1954.52.213  

    ISSN: 0038-0830

    More details Close

    Interferometric synthetic aperture radar (InSAR) techniques can map high-resolution and large-scale static and quasi-static ground displacements in millimeters to centimeters precision. Although estimation of the location of magma chambers and of slip distributions on fault planes? (or opening distributions on dikes) in homogeneous, isotropic and linearly elastichalf-space? media can now be straightforwardly done, InSAR data often call for more complexand realistic modeling strategies than conventional ones. This paper principally reviews recent modeling studies of InSAR data that took such advanced approaches on estimating fault slip motions and magma movements. Numerical modeling methods such as finite element methods and boundary element methods can particularly be useful in complex modeling of deformation sources as well as in studying the? mechanical properties of the surrounding media. Methods on appropriate noise characterization? and downsampling of InSAR data, which are specifically required for InSAR data modeling, are also reviewed.

  70. Finding realistic dike models from interferometric synthetic aperture radar data: The February 2000 eruption at Piton de la Fournaise Peer-reviewed

    Y Fukushima, Cayol, V, P Durand

    JOURNAL OF GEOPHYSICAL RESEARCH-SOLID EARTH 110 (B3) 1-15 2005/03

    DOI: 10.1029/2004JB003268  

    ISSN: 2169-9313

    eISSN: 2169-9356

  71. The deformation field of the August 2003 eruption at Piton de la Fournaise, Reunion Island, mapped by ASAR interferometry Peer-reviewed

    JL Froger, Y Fukushima, P Briole, T Staudacher, T Souriot, N Villeneuve

    GEOPHYSICAL RESEARCH LETTERS 31 (14) L14601 1-L14601 5 2004/07

    DOI: 10.1029/2004GL020479  

    ISSN: 0094-8276

  72. B24 3D Mixed Boundary Element Analysis of InSAR Data : Estimation of Dike Intrusion Models at Piton de la Fournaise

    Fukushima Yo, Cayol Valerie, Durand Philippe

    PROGRAMME AND ABSTRACTS THE VOLCANOLOGICAL SOCIETY OF JAPAN 2004 88-88 2004

    Publisher: The Volcanological Society of Japan

    DOI: 10.18940/vsj.2004.0_88  

  73. ASAR interferometry at Piton de la Fournaise, preliminary results Peer-reviewed

    Jean-Luc, F, Yo, F, Pieire, B, Thomas, S, Thierry, S, Nicolas, V, Jean-Louis, C

    Eur Space Agency Spec Publ ESA SP (550) 393-394 2004

  74. Laboratory study on scattering characteristics of shear waves in rock samples Peer-reviewed

    Y Fukushima, O Nishizawa, H Sato, M Ohtake

    BULLETIN OF THE SEISMOLOGICAL SOCIETY OF AMERICA 93 (1) 253-263 2003/02

    DOI: 10.1785/0120020074  

    ISSN: 0037-1106

  75. A physical-model study of the statistics of seismic waveform fluctuations in random heterogeneous media Peer-reviewed

    C Sivaji, O Nishizawa, G Kitagawa, Y Fukushima

    GEOPHYSICAL JOURNAL INTERNATIONAL 148 (3) 575-595 2002/03

    DOI: 10.1046/j.1365-246x.2002.01606.x  

    ISSN: 0956-540X

  76. A test of ray theory and scattering theory based on a laboratory experiment using ultrasonic waves and numerical simulation by finite-difference method Peer-reviewed

    J Spetzler, C Sivaji, O Nishizawa, Y Fukushima

    GEOPHYSICAL JOURNAL INTERNATIONAL 148 (2) 165-178 2002/02

    DOI: 10.1046/j.1365-246X.2002.01552.x  

    ISSN: 0956-540X

  77. Relationship between fluctuations of arrival time and energy of seismic waves and scale length of heterogeneity: An inference from experimental study

    Sivaji, C., Nishizawa, O., Fukushima, Y.

    Bulletin of the Seismological Society of America 91 (2) 2001

    DOI: 10.1785/0120000046  

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Misc. 11

  1. Joint Inversion Results and InSAR data for the 2011 and 2016 Mw5.9 Northern Ibaraki Earthquakes

    Yoshida, Keisuke, Fukushima, Yo, Kaneko, Yoshihiro

    Zenodo 2025/01

    DOI: 10.5281/zenodo.14772367  

  2. Relocated Earthquake Catalog near the Hypocenter of the 2024 Mw7.5 Noto Peninsula, Japan, Earthquake (from March 2003 to March 2024)

    Yoshida, Keisuke, Takagi, Ryota, Fukushima, Yo, Ando, Ryosuke, Ohta, Yusaku, Hiramatsu, Yoshihiro

    Zenodo 2024/07

    DOI: 10.5281/zenodo.12799165  

  3. 南海トラフ地震臨時情報の背景と概要

    福島 洋

    學士會会報 942 2020/05

  4. 南海トラフ地震臨時情報:起こる「かもしれない」巨大地震への対応

    福島洋

    なゐふる 119 4-5 2019

  5. 書評「Paul Segall著 Earthquake and Volcano Deformation(地震および火山による地殻変動)」

    FUKUSHIMA Yo

    Bulletin of Volcanological Society of Japan 55 (3) 165-165 2010

    Publisher: Volcanological Society of Japan

    ISSN: 0453-4360

  6. ALOS/PALSARによるフィリピン海プレートの沈み込みに伴う地殻変動検出の試み

    橋本学, 福島洋

    日本測地学会第112回講演会 2009/11/05

  7. ALOS/PALSARで捉えた中国・四川地震に伴う地殻変動 (地殻活動研究委員会報告書(平成20年度))

    橋本 学, 福島 洋, 榎本 真梨

    東濃地震科学研究所報告 (23) 105-112 2009/03

    Publisher: 地震予知総合研究振興会東濃地震科学研究所

  8. 稠密GPS連続観測による2007年能登半島地震の余効変動

    橋本学, 尾上謙介, 細善信, 福島洋, 大谷文夫, 中村佳重郎, 高橋浩晃, 笠原稔, 本多亮, 一柳昌義, 山口照寛, 前田宜浩, 道家涼介, 柳井啓広, 竹内章, 平松良浩

    日本測地学会講演会要旨 108th 53-54 2007/10

  9. 稠密GPS連続観測による2007年能登半島地震の余効変動

    橋本学, 高橋浩晃, 笠原稔, 本多亮, 一柳昌義, 山口照寛, 前田宜浩, 道家涼介, 柳井啓広, 竹内章, 尾上謙介, 細善信, 福島洋, 大谷文夫, 中村佳重郎, 平松良浩

    日本地震学会秋季大会講演予稿集 2007 164 2007/10/01

  10. Waveform fluctuations of S wave propagating through random heterogeneous media

    FUKUSHIMA Yo, NISHIZAWA Osamu, SATO Haruo

    107 55-58 2002/10/22

  11. A review of physical model experiments on seismic wave propagation in random heterogeneous media.

    NISHIZAWA Osamu, SIVAJI Chadaram, FUKUSHIMA Yo

    104 6-10 2001/05

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Books and Other Publications 1

  1. 巨大地震 なぜ起こる?そのときどうする? (楽しい調べ学習シリーズ)

    京都大学防災研究所

    PHP研究所 2014/02/04

    ISBN: 9784569783789

Presentations 149

  1. Preliminary analysis of common-mode errors at GNSS stations operated by SoftBank

    Yutaro Okada, Yusaku Ohta, Miku Ohtate, Yo Fukushima

    Japan Geoscience Union Meeting 2025 2025/05/26

  2. Utilizing Dense Tropospheric Delay Products from GNSS in InSAR Noise Correction

    Sardila Nurulhikmah Sailellah, Yo Fukushima, Yusaku Ohta

    Japan Geoscience Union Meeting 2025 2025/05/26

  3. Attempt to extract three-dimensional displacement fields due to fault slip by deep learning technique using InSAR and GNSS data

    Yutaro Okada, Yo Fukushima

    Japan Geoscience Union Meeting 2025 2025/05/26

  4. Nonplanar Fault Geometry Controls the Spatiotemporal Distributions of Slip and Surface Displacement

    Ryosuke Ando, Yo Fukushima, Keisuke Yoshida, Kazutoshi Imanishi

    Japan Geoscience Union Meeting 2025 2025/05/26

  5. Multi-Fault Segment Complexity and Multi-Rupture Episodes during the 2024 Mw 7.5 Noto Peninsula Earthquake

    Rintaro Enomoto, Yoshihiro Kaneko, Chi-Hsien Tang, Yo Fukushima, Hiroyuki Goto, Shin'ichi Miyazaki

    Japan Geoscience Union Meeting 2025 2025/05/30

  6. Methodological development of fault slip detection from GNSS using deep learning and application to western Shikoku

    Ryo Nakagawa, Yo Fukushima, Masayuki Kano, Keisuke Yano, Yusuke Tanaka, Yutaro Okada, Kazuro Hirahara

    Japan Geoscience Union Meeting 2025 2025/05/26

  7. Movement of landslide bodies (hillslope slump) associated with the 2024 Noto Peninsula Earthquake using SAR image analysis

    Yuri Kikuchi, Takayuki Takahashi, Yo Fukushima

    Japan Geoscience Union Meeting 2025 2025/05/30

  8. Measurement and Accuracy Evaluation of Surface Fault Displacements of the 2023 Southeastern Türkiye Earthquake Using Pixel Offset Analysis on Optical Satellite Images

    Kazuki Hachiro, Yo Fukushima

    2025/05/26

  9. 防災と保健の融合による災害大幅低減の道すじ Invited

    福島洋

    World Bosai Forum Online 2025/02/03

  10. 光学衛星画像を用いたピクセルオフセット解析:2023 年トルコ南東部地震の事例

    福島洋, 鉢呂和己

    東京大学地震研究所 共同利用課題「SAR 新時代へ向けた地表変動研究の現在」2024 年度研究集会 2025/02/19

  11. InSAR data inversion based on fictitious domain method for modeling volcanic surface deformation considering medium heterogeneities

    Micaela COLAVITA, Yo FUKUSHIMA, Valerie CAYOL, Satoshi MIURA, Farshid DABAGHI, Olivier BODART

    The 7th Japan-Taiwan Workshop on Crustal Dynamics 2025/02/11

  12. Integrating GNSS and InSAR for High-Resolution Strain Rate Mapping

    Luka Knez, Yo Fukushima

    The 7th Japan-Taiwan Workshop on Crustal Dynamics 2025/02/11

  13. Improving the Accuracy of Tropospheric Delay Noise Corrections in InSAR: A Study of GNSS-Derived Delays Using Various Processing Approaches

    Sardila Nurulhikmah Sailellah, Yo Fukushima

    The 7th Japan-Taiwan Workshop on Crustal Dynamics 2025/02/11

  14. Landscape Changes Associated with the 2024 Noto Peninsula Earthquake, Japan, Revealed Through Integration of Geodetic and Geomorphological Approaches

    Yo Fukushima, Daisuke Ishimura, Naoya Takahashi, Yoshiya Iwasa, Luca C. Malatesta, Takayuki Takahashi, Chi-Hsien Tang, Keisuke Yoshida, Shinji Toda

    The 7th Japan-Taiwan Workshop on Crustal Dynamics 2025/02/12

  15. Landscape Changes Associated with the 2024 Noto Peninsula Earthquake, Japan, Revealed Through Integration of Geodetic and Geomorphological Approaches Invited

    Yo Fukushima, Daisuke Ishimura, Naoya Takahashi, Yoshiya Iwasa, Luca C. Malatesta, Takayuki Takahashi, Chi-Hsien Tang, Keisuke Yoshida, Shinji Toda

    American Geophysical Union 2024 Annual Meeting 2024/12/13

  16. ガラクタじっけんでわかる“地震のおこりかた" Invited

    福島洋

    ぼうさいキッズパーク 2024/11/24

  17. 防災コミュニーケーション学の創成

    福島洋

    日本リスク学会第 37 回年次大会 2024/11/17

  18. ⻑町−利府線断層帯で地震が起きたらどうなるか、どう備えるか Invited

    福島洋

    仙台市宮城野区防災セミナー 2024/11/14

  19. 長町−利府線断層帯で地震が起きたらどうなるか?

    福島洋

    仙台市立仙台青陵中等教育学校 令和6年度一日大学 2024/11/05

  20. 深層学習を利用した GNSS 変位空間補間器の実装と非地震性断層すべり推定

    中川亮, 福島洋, 加納将行, 矢野恵佑, 平原和朗, 田中優介, 岡田悠太郎

    日本測地学会第 142 回講演会 2024/10/30

  21. 日向灘地域の M7クラス地震が巨大地震を誘発する確率について

    福島洋, 西川友章

    日本地震学会2024年度秋季大会 2024/10/21

  22. Survey on the impact of the 2023 Kahramanmaraş earthquakes on schools and reflections of local teachers on improving disaster education

    福島 洋, ドウル ジャナイ, 小田 隆史, オズダマル エミン, 桜井 愛子, 齋藤 玲, 北村 美和子, 佐藤 健

    2024/10/21

  23. 「防災コミュニケーション」による災害リスク大幅低減の方略

    福島洋, 栗山進一, 佐藤健, 佐藤翔輔, ゲルスタ ユリア, 尾島俊之, 小杉素子, 岩本萌, 大類真嗣, 北村美和子

    日本自然災害学会第43回学術講演会 2024/09/20

  24. 学際的防災推進の重要性:防災コミュニケーションとインクルーシブ防災

    栗山進一, 福島洋, 朴慧晶

    日本地域看護学会第27回学術集会オンデマンド共催セミナー 2024/06/29

  25. PIXELのこれまでの取り組みと今後について Invited

    木下 陽平, 古屋 正人, 青木 陽介, 小澤 拓, 田中 明子, 福島 洋, 安藤 忍, 高田 陽一郎, 奥山 哲

    2024/05/30

  26. Extreme coseismic uplift and faulting complexity during the January 1, 2024, Mw 7.5 Noto Peninsula earthquake

    Chi-Hsien Tang, Yo Fukushima, Shinji Toda, Keisuke Yoshida, Naoya Takahashi, Takayuki Takahashi

    2024/05/31

  27. Kinematic and dynamic rupture modeling of the 2024 Mw7.5 Noto earthquake

    金子 善宏, 榎本 倫太郎, 能塚 義豊, Chi-Hsien Tang, 福島 洋, 後藤 浩之, 宮﨑 真一

    2024/05/28

  28. Effects of the 3D fault geometry, regional stresses and earthquake history on the 2024 Noto Peninsula earthquake: Insight from dynamic rupture simulations

    安藤 亮輔, 福島 洋, 吉田 圭佑, 今西 和俊

    2024/05/28

  29. Landscape changes caused by the 2024 Noto peninsula earthquake and its relation to the long-term landscape evolution

    高橋 直也, 福島 洋, 石村 大輔, 岩佐 佳哉, Malatesta Luca, 高橋 尚志, Tang Chi-Hsien, 吉田 圭佑, 遠田 晋次

    2024/05/28

  30. 2024年 Mw7.5能登半島地震の震源断層において数年間継続した微小地震のマイグレーションと本震の発生過程

    吉田 圭佑, 高木 涼太, 福島 洋, 安藤 亮輔, 太田 雄策, 内田 直希, 平原 聡, 木村 洲徳, 岡田 知己, 日野 亮太, 酒井 慎一, 平松 良浩, 松本 聡

    2024/05/28

  31. Geodetic observations and the inferred geometry of the dyke intrusion associated with the 2020 Taal Volcano eruption

    Lincoln Paul Alcantara Olayta, Yo Fukushima

    2024/05/29

  32. Deep-leaning-based fault slip estimation method using GNSS displacements: comparison with the least-squares-based method

    中川 亮, 福島 洋, 加納 将行, 矢野 恵佑, 平原 和朗

    2024/05/28

  33. Three-dimensional displacement field associated with the 1 Jan. 2024 Noto Peninsula earthquake obtained from SAR pixel offset analysis

    Yo Fukushima, Daisuke Ishimura, Naoya Takahashi, Takayuki Takahashi, and Shinji Toda

    2024/05/30

  34. InSAR tropospheric correction using dense GNSS tropospheric products

    Yo Fukushima, Yusaku Ohta, and Sardila Nurulhikmah Sailellah

    2024/05/29

  35. Challenges in using Artificial Intelligence on InSAR in the Japanese context International-presentation

    Yo Fukushima

    American Geophysical Union Fall Meeting 2023 2023/12/14

  36. 行動変容に着目した地震防災の取り組みの試行的体系整理と地震警戒・注意情報の有効活用へ向けた検討

    Yo Fukushima, Natsuko Chubachi, Shinichi Kuriyama

    2023/11/25

  37. 日本の活断層や火山の微小変動検出を目的としたInSARデータへの深層学習適用の困難性

    Yo Fukushima

    2023/11/02

  38. 健康分野の行動変容アプローチを参考にした地震防災に関する取り組みの試行的体系整理

    Yo Fukushima, Natsuko Chubachi, Shinichi Kuriyama

    2023/11/01

  39. Interseismic deformation analysis due to megathrust locking using GNSS Data: A case study of southwestern Pakistan

    Shaukat Parvaiz, Yo Fukushima

    2023/10/31

  40. Statistical modeling and machine learning studies on the forecast of earthquakes and fault slip International-presentation

    Yo Fukushima

    2023/10/25

  41. Creep characteristics along the central part of the Philippines Fault on Leyte Island from ALOS-2 time- series analysis

    Yagizalp Okur, Yo Fukushima

    2023/10/11

  42. Possibility of shallow repeating aseismic slip associated with the 2011 Mw5.8 and 2016 Mw5.9 crustal earthquakes in northern Ibaraki Prefecture, Japan

    Keisuke Yoshida, Yo Fukushima

    2023/05/25

  43. Unwrapping dense and complex SAR interferograms: Examples from the 2023 Turkey Earthquake

    Yo Fukushima, Yagizalp Okur

    2023/05/25

  44. GNSSデータへの深層学習の適用による短期的SSEの断層すべり直接推定

    Ryo Nakagawa, Yo Fukushima, Masayuki Kano, Keisuke Yano, Kazuro Hirahara

    2023/05/25

  45. Comparison of the GNSS tropospheric delays from different processing tools for InSAR correction

    Sardila Nurulhikmah Sailellah, Yo Fukushima

    2023/05/25

  46. Pre-eruptive Geodetic Observations of the 2020 Taal Volcano Eruption

    Lincoln Paul Alcantara Olayta, Yo Fukushima, Augusto Ronald Pigtain

    2023/05/25

  47. InSAR時系列解析とGNSS観測を用いた宅地地盤変動の検出

    Aina Miyajima, Yo Fukushima

    2023/05/23

  48. Creep characteristics along the central part of the Philippines Fault on Leyte Island from ALOS-2 time-series analysis

    Yagizalp Okur, Yo Fukushima

    Japan Geoscience Union Meeting 2022 2022/05/26

  49. The 14 August 2021 Haiti Earthquake (Mw7.2): Coseismic and postseismic processes and implications on future hazard

    Yo Fukushima

    Japan Geoscience Union Meeting 2022 2022/05/26

  50. Deformation of reclaimed valleys in Sendai during the 2011 off the Pacific Coast of Tohoku Earthquake detected by InSAR and its background factors

    Aina Miyajima, Yo Fukushima, Takayuki Nakano, Satoshi Fujiwara

    Japan Geoscience Union Meeting 2022 2022/05/25

  51. Using InSAR for Evaluating the Accuracy of Seismically-derived Earthquake Locations and Focal Mechanism Solutions International-presentation

    Nematollah Ghayournajarkar, Yo Fukushima

    2021/12/17

  52. Automatic error-term separation approach in InSAR time-series analysis and application to Arima-Takatsuki Fault Zone,western Japan International-presentation

    Yo Fukushima

    2021/12/16

  53. Complex Fault Rupture Geometry and Slip Distribution of the Mw7.2 Nippes Earthquake,Haiti International-presentation

    Bryan Raimbault, Romain Jolivet, Eric Calais, Zacharie Duputel, Yo Fukushima

    2021/12/16

  54. Citizen seismology helps decipher the 2021 Haiti earthquake International-presentation

    Eric Calais, Steeve Symithe, Tony Monfret,Bertrand Delouis,Anthony Lomax, Francoise Courboulex,Jean-Paul Ampuero, Pablo Eduardo, Espioza Lara, Quentin Bletery, Jerome Cheze, Anne Deschamps,Bernard Mercier De Lepinay, Bryan Raimbault, Romain Jolivet, Sylvert PAUL, Sadrac ST Fleur, Dominique Boisson, Yo Fukushima, Zacharie Duputel, Liuwei Xu, Lingsen Meng

    2021/12/16

  55. 「南海トラフ地震臨時情報」発表時の情報伝達における課題の抽出 ー科学の「不確実性」を社会にどう伝えるかー

    入江 さやか, 大谷 竜, 兵藤 守, 林 能成, 橋本 学, 堀 高峰, 川端 信正, 隈本 邦彦, 岩田 孝仁, 横田 崇, 谷原 和憲, 福島 洋

    日本地球惑星科学連合2021年大会 2021/06/06

  56. InSAR解析による地震時すべり域と余効すべり域の重なりの検討

    坂本 佳奈美, 福島 洋

    日本地球惑星科学連合2021年大会 2021/06/03

  57. 固体地球科学セクションの学術研究とSDGs

    中村 美千彦, 福島 洋

    日本地球惑星科学連合2021年大会 2021/06/06

  58. Comparison of atmospheric delay correction methods in InSAR:Case study in Japan

    Sardila Nurulhikmah Sailellah, Yo Fukushima

    2021/06/05

  59. Automatic error-term estimation approach for improving the accuracy of InSAR time series analysis-Example on the Arima-Takatsuki Fault Zone,Japan

    2021/06/05

  60. Using InSAR for evaluating the accuracy of earthquake location determination,Comparison of Iranian and Japanese cases

    Nematollah Ghayournajarkar, Yo Fukushima

    2021/06/05

  61. Nature of Secondary-Ruptured Faults Revealed by InSAR and Paleoseismic Survey

    Yo Fukushima, Daisuke Ishimura

    FRINGE2021 Meeting 2021/06/03

  62. New Earthquake Warning Framework in the Nankai Trough Subduction Zone in Japan and Scientific Rational that the Society Need to Know for Effective Countermeasures

    2020/12/01

  63. 「理解・気づきツール」としての南海トラフ地震確率推移表の開発

    福島洋

    日本地震学会2020年度秋季学術大会 2020/10/29

  64. Ups and downs in the Osaka metropolitan area,Japan,detected by LiCSBAS InSAR time-series analysis

    2020/07/12

  65. Measuring strain accumulation around active faults using ALOS-2 data

    Yo Fukushima

    2020/01/23

  66. Surface creep rate distribution along the Philippine fault, Leyte Island, and possible repeating of Mw~6.5 earthquakes on an isolated locked patch

    Yo Fukushima, Manabu Hashimoto, Masatoshi Miyazawa, Naoki Uchida, Taka’aki Taira

    2020/01/15

  67. Extremely early recurrence of intraplate fault rupture following the 2011 Tohoku-oki earthquake Invited

    Yo Fukushima, Shinji Toda, Satoshi Miura, D. Ishimura, J. Fukuda, T. Demachi, K. Tachibana

    2020/01/15

  68. Mw 6.5 Repeater Along a Creeping Section of the Philippine Fault?

    Yo Fukushima, Manabu Hashimoto, Masatoshi Miyazawa, Naoki Uchida, Taka’aki Taira

    2019/12/13

  69. Making use of uncertain earthquake forecast information: Challenges toward disaster risk reduction against the anticipated Nankai Trough Earthquake (M8-M9), western Japan

    Yo Fukushima, Fumihiko Imamura, Hiroaki Maruya, Makoto Okumura, Motoyuki Kido, Natsuko Chubachi, Ryota Hino, Kanan Hirano, Shunichi Koshimura, Miwa Kuri, Shuji Moriguchi, Yusaku Ohta, Hiroyuki Sasaki, Motoaki Sugiura, Tetsuya Torayashiki

    2019/11/11

  70. レイテ島におけるフィリピン断層のクリープ分布と孤立固着域でのMw〜6.5の繰り返し地震の可能性

    福島洋, 橋本学, 宮澤理稔, 内田直希, 平貴昭

    日本測地学会第132回講演会 2019/10/31

  71. レイテ島におけるフィリピン断層クリープ速度と孤立固着域におけるMw~6.5の地震の繰り返し発生の可能性

    福島洋, 橋本学, 宮澤理稔, 内田直希, 平貴昭

    日本地震学会2019年度秋季大会 2019/09/16

  72. シンポジウム「南海トラフ地震臨時情報:科学的データや知見の活用」

    日本地震学会 2019/09/15

  73. COMPLEMENTARY OCCURRENCE OF FAULT CREEP AND AN MW 6.5 EARTHQUAKE ALONG THE PHILIPPINE FAULT ON LEYTE ISLAND REVEALED BY ALOS AND ALOS-2 SAR INTERFEROMETRY

    Yo Fukushima,, Manabu Hashimoto

    2019/07/31

  74. 「地震×社会」「巨大地震の発生可能性が普段より高まった」と言われたら、どうしますか?

    文部科学省情報ひろばサイエンスカフェ 2019/06/24

  75. 2016年熊本地震の副次的断層すべりによるInSAR地表変位と すべり分布

    福島 洋, 石村 大輔

    日本地球惑星科学連合2019年大会 2019/05

  76. 南海トラフ巨大地震に関する見通しの可視化の意義と方法

    福島 洋

    日本地球惑星科学連合2019年大会 2019/05

  77. ALOS-2 observation of the 2017 Sefidsang earthquake, northeastern Iran: a blind shallow-dipping thrust event near the Eastern Kopeh Dagh

    Nematollah Ghayournajarkar, Yo Fukushima

    2019/05

  78. InSAR analysis on the surface ruptures in the Aso caldera activated by the 2016 Kumamoto earthquake sequence

    Yo Fukushima, Daisuke Ishimura

    130th Meeting of the Geodetic Society of Japan 2018/10/18

  79. 南海トラフ地震の臨時情報と社会対応のあり方についての課題と展望

    Yo Fukushima, Shuji Moriguchi, Miwa Kuri, Natsuko Chubachi, Yoshi Abe

    37th Annual Conference of the Japan Society for Natural Disaster Science 2018/10/17

  80. Role of forecast information in earthquake bosai and challenges

    FUKUSHIMA Yo

    2018 Fall Meeting of the Seismological Society of Japan 2018/10/10

  81. Relation between the spatial variation of creep rate and the 2017 Mw 6.5 Ormoc earthquake along the Philippine fault on Leyte Island International-presentation

    Yo Fukushima, Manabu Hashimoto

    19th General Assembly of WEGENER 2018/09/10

  82. Spatial variation of creep rate of the Philippine fault on Leyte Island and its relation with the 6 July 2017 earthquake (Mw 6.5) revealed by SAR interferometry

    Yo Fukushima, Manabu Hashimoto

    Japan Geoscience Union 2018 Meeting 2018/05

  83. Extremely early recurrence of an M6 intraplate earthquake observed after the 2011 Tohoku-oki earthquake International-presentation

    Yo Fukushima, Shinji Toda, Satoshi Miura, Daisuke Ishimura, Yusaku Ohta, Tomotsugu Demachi, Kenji Tachibana

    European Geosciences Union General Assembly 2018 2018/04

  84. Spatial variation of creep rate of the Philippine fault on Leyte Island and its relation with the 6 July 2017 earthquake (Mw 6.5) revealed by SAR interferometry

    Yo Fukushima, Manabu Hashimoto

    Workshop on Crustal Deformation 2018/03/02

  85. Computation of Crustal Deformation and Its Application Using Boundary Element Methods Invited

    Yo Fukushima

    Workshop on Utilizing New-Generation SAR for Understanding the Ground Deformation Mechanism 2017/12/20

  86. Coseismic Deformation of a Mw6.5 Earthquake on Leyte Island, the Philippines on July 6, 2017 and its Tectonic Implications

    Manabu Hashimoto, Yo Fukushima

    128th Meeting of the Geodetic Society of Japan 2017/10/04

  87. Early recurrence of an M6 intraplate earthquake (5.8 years) observed in northern Kanto region, Japan, after the 2011 Tohoku-oki earthquake International-presentation

    Yo Fukushima, S. Toda, T. Miura

    IAG-IASPEI 2017 2017/08/02

  88. 超短期間(5.8年)で再来した茨城北部の地震(M〜6)について

    福島 洋

    京都大学防災研究所 平成29年度一般研究集会 「リモートセンシング技術の進展と活断層・内陸地震研究」 2017/07/07

  89. Early recurrence of M?6 intraplate earthquake (5.8 years) observed in northen Kanto region, Japan International-presentation

    Yo Fukushima, Shinji Toda, Satoshi Miura

    JpGU-AGU Joint Meeting 2017 2017/05/21

  90. InSAR measurements around active faults: creeping Philippine Fault and un-creeping Alpine Fault International-presentation

    Yo Fukushima

    AGU 2013 Fall Meeting 2013/12

  91. Detection of Crustal Deformation Around Active Faults using InSAR

    Yo Fukushima

    Seismological Society of Japan 2013 Fall Meeting 2013/10

  92. InSAR measurements around Alpine Fault, South Island of New Zealand International-presentation

    Yo Fukushima

    The 1st Workshop for ALOS-2 2013/09

  93. Correction of DInSAR noise using GNSS measurements International-presentation

    Yo Fukushima

    2013 Asia-Pacific Conference on Synthetic Aperture Radar 2013/09

  94. Volcanic subsidence triggered by the 2011 Mw 9.0 Tohoku earthquake, Japan International-presentation

    Yo Fukushima, Youichiro Takada

    IAVCEI 2013 Scientific Assembly 2013/07

  95. Creep on the Philippine fault in northern Leyte Island

    Yo Fukushima, Hiroyuki Tsutsumi, Jeffrey S. Perez

    JPGU Meeting 2013 2013/05

  96. Evaluation of the Potential of Large Aftershocks of the M9 Tohoku, Earthquake International-presentation

    Yo Fukushima, Shin'ichi Miyazaki, Manabu Hashimoto, Paul Segall, Kaj Johnson

    J-RAPID Symposium 2013/03

  97. Comparison of strain rates during the historical (1880s-1990s) and GPS periods over Northeastern Honshu before the 2011 Tohoku-Oki earthquake International-presentation

    Yo Fukushima, Manabu Hashimoto, Paul Segall

    AGU 2012 Fall Meeting 2012/12

  98. 地震火山研究におけるALOSの 寄与とALOS-2以降への期待

    福島洋, 橋本学, 高田陽一郎

    4th ALOS-2/3 Workshop 2012/12

  99. Creep on the Philippine fault in northern Leyte Island

    Yo Fukushima, Hiroyuki Tsutsumi

    Geodetic Society of Japan 118th Fall Meeting 2012/11

  100. Comparison of strain rates during the historical (1880s-1990s) and GPS periods over northeastern Honshu before the 2011 Tohoku-Oki earthquake

    Yo Fukushima, Manabu Hashimoto, Paul Segall

    Seismological Society of Japan 2012 Fall Meeting 2012/10

  101. Detection of small crustal deformation using PALSAR data

    Yo Fukushima

    京都大学防災研究所一般研究集会「SAR研究の新時代に向けて」 2012/09

  102. Evaluation of the potential of large aftershocks of the 2011 Tohoku earthquake International-presentation

    Yo Fukushima, Shin'ichi Miyazaki, Manabu Hashimoto, Paul Segall, Kaj Johnson

    Japan & New Zealand NSF RAPIDs Research Needs Workshop 2012/02

  103. ALOS/PALSAR Observations Associated with the 2011 Mw 9.0 Tohoku, Japan, Earthquake International-presentation Invited

    Yo Fukushima, Youichiro Takada, Taku Ozawa, Manabu Hashimoto

    AGU 2011 Fall Meeting 2011/12

  104. 2011年4月11日いわき地震(Mw=6.6)のすべり分布インバージョン

    Yo Fukushima, Youichiro Takada, Manabu Hashimoto

    Geodetic Society of Japan 116th Fall Meeting 2011/10

  105. 2011年4月11日いわき地震(Mw=6.6)の地表地震断層と断層モデル

    Yo Fukushima, Youichiro Takada, Manabu Hashimoto, Shinji Toda, Hiroyuki Tsutsumi

    Seismological Society of Japan 2011 Fall Meeting 2011/10

  106. Crustal deformation of the volcanoes in the northeastern Japan arc induced by the 2011 Tohoku Earthquake

    Yo Fukushima, Youichiro Takada

    Volcanological Society Japan 2011 Fall Meeting 2011/10

  107. Study on magma transfer mechanism by detection of volcano deformation using InSAR and numerical modeling Invited

    Yo Fukushima

    Volcanological Society Japan 2011 Fall Meeting 2011/10

  108. Atmospheric phase delay estimation from multiple SAR interferometry measurements International-presentation

    Yo Fukushima

    FRINGE 2011 Workshop 2011/09

  109. Deformation in Niigataken-Chuestu region by using an InSAR time-series analysis

    Yo Fukushima, Andrew Hooper

    JPGU Meeting 2011 2011/05

  110. Steady deformation pattern and the magma storage system of Kilauea volcano

    Yo Fukushima

    JPGU Meeting 2011 2011/05

  111. An approach to reduction of ionospheric noise in SAR interferometry for detecting small and secular deformation

    Yo Fukushima

    JPGU Meeting 2011 2011/05

  112. Measurement of Quasi-Steady Deformation in Niigata-Chuetsu region, Central Japan, Using Persistent Scatterer Interferometry International-presentation

    Yo Fukushima, Andrew Hooper

    AGU 2010 Fall Meeting 2010/12

  113. Noise Reduction of InSAR Time-series Analysis and Application to Kilauea Volcano

    Yo Fukushima

    Geodetic Society of Japan 114th Fall Meeting 2010/11

  114. Crustal Deformation After 2004 Niigataken-Chuetsu Earthquake, Central Japan, Investigated by Persistent Scatterer Interferometry

    Yo Fukushima, Andrew Hooper

    Geodetic Society of Japan 114th Fall Meeting 2010/11

  115. Shallow magma system of Kilauea volcano investigated using L-band synthetic aperture radar data International-presentation

    Yo Fukushima, Daniel Sinnett, Paul Segall

    AGU 2009 Fall Meeting 2009/12

  116. On detection of crustal deformation associated with plate subductions with ALOS/PALSAR data International-presentation

    Yo Fukushima, Manabu Hashimoto

    3rd Joint PI Symposium of ALOS Data Nodes for ALOS Science Program 2009/11

  117. InSAR SBAS analysis on ALOS PALSAR data: application to Kilauea volcano, Hawaii International-presentation

    Yo Fukushima, Howard Zebker

    FRINGE 2009 Workshop 2009/11

  118. SAR offset-tracking analysis on ALOS/PALSAR data for obtaining the three-dimensional ground displacements caused by the 2008 Mw 7.0 Iwate-Miyagi earthquake, northeast Japan International-presentation

    Yo Fukushima

    AGU 2008 Fall Meeting 2008/12

  119. Crustal displacements and fault model of the 2008 Iwate-Miyagi Nairiku earthquake using PALSAR data

    Yo Fukushima, Yukitoshi Fukahata

    2008 ERI Workshop ‘Monitoring and Analyzing Earthquakes, Volcanoes and Ground movements by using SAR and Infra-red Sensors’ 2008/09

  120. InSAR time-series analysis using Envisat images: Application on the region of two earthquakes in Niigata, central Japan

    Yo Fukushima, Andrew Hooper

    JPGU Meeting 2008 2008/05

  121. Preseismic, coseismic and postseismic displacements of 2007 Aysen earthquake, Chile, measured by PALSAR interferometry

    Yo Fukushima

    Geodetic Society of Japan 108th Fall Meeting 2007/11

  122. Ground deformation associated with a seismic swarm near Aysen, southern Chile, measured by ALOS/PALSAR interferometry International-presentation

    Yo Fukushima

    FRINGE 2007 Workshop 2007/11

  123. Crustal deformation mapping using PALSAR interferometry conducted by DPRI, Kyoto University International-presentation

    Yo Fukushima, Manabu Hashimoto, Fumio Ohya, Keigo Yamamoto

    First Joint PI Symposium of ALOS Data Nodes for ALOS Science Program 2007/11

  124. Study on preseismic, coseismic and postseismic deformation associated with Aysen Earthquake (Chile) of 21 April 2007

    Yo Fukushima

    Seismological Society of Japan 2007 Fall Meeting 2007/10

  125. Inflation of Kilauea volcano, Hawaii: Boundary element modeling of ALOS/PALSAR interferometric data International-presentation

    Yo Fukushima

    International Union of Geodesy and Geophysics (IUGG) XXIV General Assembly 2007/07

  126. InSAR measurements of subsidence and eruption model for the mud volcano in Sidoarjo, East Java International-presentation

    Yo Fukushima, Jim Mori, Manabu Hashimoto, Yasuyuki Kano

    International Union of Geodesy and Geophysics (IUGG) XXIV General Assembly 2007/07

  127. Crustal deformation analysis using SAR interferometry on the 2007 Noto Hanto earthquake

    Yo Fukushima, Taku Ozawa, Manabu Hashimoto

    JPGU Meeting 2007 2007/05

  128. Measurement of the land subsidence associated with a mud eruption in the Java Island and the eruption model

    Yo Fukushima, Jim Mori, Manabu Hashimoto, Yasuyuki Kano

    JPGU Meeting 2007 2007/05

  129. Mud eruption in Java Island: SAR interferometric analysis of PALSAR data and boundary element modeling

    Yo Fukushima, Jim Mori, Manabu Hashimoto, Yasuyuki Kano

    JPGU Meeting 2007 2007/05

  130. Mud eruption in Java Island: SAR interferometric analysis of PALSAR data and boundary element modeling International-presentation

    Yo Fukushima, Jim Mori, Manabu Hashimoto, Yasuyuki Kano

    SAR Workshop 2007 2007/03

  131. Transition of magma propagation behavior during an eruption sequence at Piton de la Fournaise International-presentation

    Fukushima, Y, V. Cayol

    AGU 2006 Fall Meeting 2006/12

  132. 合成開口レーダーから分かる火山体内部の変形/応力場 Invited

    Yo Fukushima

    研究集会「アスペリティのマッピングとモニタリングシンポジウム(EARS)」 2006/10

  133. Modeling InSAR data using a boundary element method: Dike intrusions associated with eruptions at Piton de la Fournaise

    Yo Fukushima, Valerie Cayol, Philippe Durand, Didier Massonnet

    「新世代の干渉SAR」研究集会 2006/10

  134. InSARデータを用いたモデリング研究 Invited

    Yo Fukushima

    「地殻変動連続観測の未来」「地殻変動連続観測の新たな展開」合同研究集会 2006/09

  135. Complex Dike Emplacements at Piton de la Fournaise Revealed by InSAR and Their Implications on the Magma Transfer Mechanism International-presentation Invited

    Fukushima, Y, V. Cayol, P. Durand, D. Massonnet

    Western Pacific Geophysics Meeting 2006/07

  136. フルネーズ火山(レユニオン島)の浅部火道形状

    Fukushima, Y, V. Cayol

    JPGU Meeting 2006 2006/05

  137. Complex Dike Intrusions at Piton de la Fournaise Revealed by Numerical Modeling of InSAR Data International-presentation

    Fukushima, Y, V. Cayol, P. Durand, D. Massonnet

    AGU 2005 Fall Meeting 2005/12

  138. Finding realistic dike models from InSAR data: Applications to the eruptions at Piton de la Fournaise International-presentation

    Fukushima, Y, V. Cayol, P. Durand

    AGU 2004 Fall Meeting 2004/12

  139. 3次元複合境界要素法を用いた干渉SARデータの解析:フルネーズ火山の噴火に伴うダイク貫入モデルの推定

    Fukushima, Y, V. Cayol, P. Durand

    Geodetic Society of Japan 102nd Fall Meeting 2004/11

  140. Finding and appraising possible dike models from InSAR data: Application to the eruptions at Piton de la Fournaise International-presentation

    Fukushima, Y, V. Cayol, P. Durand

    IAVCEI 2004 Scientific Assembly 2004/11

  141. 3次元複合境界要素法を用いた干渉SARデータの解析:フルネーズ火山の噴火に伴うダイク貫入モデルの推定

    Fukushima, Y, V. Cayol, P. Durand

    Volcanological Society Japan 2004 Fall Meeting 2004/10

  142. Finding realistic dike models from InSAR data: The February 2000 eruption at Piton de la Fournaise International-presentation

    Fukushima, Y, V. Cayol, P. Durand

    EGU General Assembly 2004/04

  143. Seaward displacements at Piton de la Fournaise measured by radar interferometry between 1998 and 2000 International-presentation

    Fukushima, Y, V. Cayol, P. Durand

    EGS-AGU-EUG Joint Assembly 2003/04

  144. レーザー・ドップラー振動計を用いた超音波領域での圧電素子の輻射パターン測定

    福島 洋, 西澤 修, 佐藤 春夫, 大竹 政和

    Seismological Society of Japan 1999 Fall Meeting 1999/11

  145. 岩石試料を用いた波動伝播モデル実験 ― Sコーダ波の励起とクラック配列との関係

    福島 洋, 西澤 修, 佐藤 春夫, 大竹 政和

    Seismological Society of Japan 1999 Fall Meeting 1999/11

  146. InSARを用いた2011年東北地方太平洋沖地震時における仙台市内の谷埋め盛土での変動検出

    宮嶋愛菜, 福島 洋

    第136回日本測地学会講演会 2021/11/17

  147. Mitigation of tropospheric delay noise in InSAR analysis using meso-scale meteorological models: A case study of Japan

    Sardila Nurulhikmah Sailellah, Yo Fukushima

    2021/11/17

  148. Using InSAR for evaluating accuracy of seismically-derived earthquake locations and focal mechanism solutions

    Nematollah Ghayournajarkar, Yo Fukushima

    2021/11/17

  149. 2021年8月14日ハイチ地震(Mw7.2)のInSAR解析による地殻変動の特徴

    福島洋

    第136回日本測地学会講演会 2021/11/17

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Research Projects 11

  1. 南海トラフ地震のリスクに対する住民の行動変容促進のための方法論の研究

    System: 災害の軽減に貢献するための地震火山観測研究計画(第3次)

    2024/04 - 2029/03

  2. ゆっくりすべりによる大地震発生確率の計算

    System: 災害の軽減に貢献するための地震火山観測研究計画(第3次)

    2024/04 - 2029/03

  3. InSARとGNSSと深層学習による活断層スロースリップイベントの探索

    福島 洋

    Offer Organization: 日本学術振興会

    System: 科学研究費助成事業

    Category: 基盤研究(C)

    Institution: 東北大学

    2024/04 - 2027/03

  4. カフラマンマラシュ地震の学校・ 子どもへの影響および防災教育状況の調査

    Offer Organization: 科学技術振興機構

    System: 国際緊急共同研究・調査支援プログラム(J-RAPID)

    2023/09 - 2024/07

  5. 南海トラフ地震の事前情報発表時における組織の対応計画作成支援パッケージの開発

    Offer Organization: セコム科学技術振興財団

    System: 特定領域研究助成

    2019/01 - 2023/03

  6. 活断層の「端」と「間」の変形機構の解明 Competitive

    福島 洋

    Offer Organization: 文部科学省

    System: 科学研究費補助金 基盤研究(C)

    2018/04 - 2021/03

  7. 干渉SARで探るプレート辺縁域の変形と内陸地震の関係 Competitive

    福島 洋

    Offer Organization: 文部科学省

    System: 科学研究費補助金 若手研究(B)

    2013/04 - 2014/01

  8. 東北地方太平洋沖地震の大余震発生ポテンシャルの評価 Competitive

    福島 洋

    Offer Organization: 科学技術振興機構

    System: 震災関連研究を対象とした「国際緊急共同研究・調査支援プログラム」(J-RAPID)

    2011/10 - 2013/03

  9. Lバンド合成開口レーダーによる大気と大地のイメージング Competitive

    橋本 学

    Offer Organization: 文部科学省

    System: 科学研究費補助金 基盤研究(B)

    2010 - 2012

  10. 最新測地観測手法の統合によるインドネシア3都市での地盤沈下の比較研究 Competitive

    福田 洋一

    Offer Organization: 文部科学省

    System: 科学研究費補助金 基盤研究(B)

    2008 - 2010

  11. 干渉合成開口レーダー技術で探る中部・近畿地方の地殻変動と歪集中プロセスの解明 Competitive

    福島 洋

    Offer Organization: 文部科学省

    System: 科学研究費補助金 若手研究(B)

    2007 - 2008

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Social Activities 9

  1. Persistent Challenges in Disaster Mitigation in Japan and How to Overcome Them

    International Webinar on Disaster 2025 “Disaster Mitigation and Countermeasures in Indonesia and Japan"

    2025/04/26 - 2025/04/26

  2. 防災セミナー「長町−利府線断層帯で地震が起きたらどうなるか、どう備えるか」

    仙台市宮城野区防災セミナー

    2024/11/14 - 2024/11/14

  3. 一日大学講師「長町−利府線断層帯で地震が起きたらどうなるか?」

    一日大学

    2024/11/05 - 2024/11/05

  4. 一日大学講師「東北地方の地震活動と火山活動」

    一日大学

    2023/11/07 - 2023/11/07

  5. 第153回ふじのくに防災学講座「『南海トラフ地震臨時情報』を知り地震によりよく備える」

    2023/05/20 - 2023/05/20

  6. ぼうさいキッズパーク「ガラクタでわかる"地震のおこり方実験"」

    2022/11/23 - 2022/11/23

  7. けせんぬま防災きっずスクール「ガラクタでわかる"地震の起こり方実験"」

    2022/07/31 - 2022/07/31

  8. 「東北地方の地震活動と火山活動について」「南海トラフ地震の可能性と国民生活への影響について」

    2021/07/10 -

  9. 《JST共催》「地震×社会」不確実な情報を受けたときに、どう動くか?―情報ひろばサイエンスカフェで研究者と市民がともに考える

    サイエンスカフェ

    2019/06/24 -

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Media Coverage 76

  1. M8.8の衝撃カムチャツカ沖地震「M9級数百年に一度」がなぜ

    中日新聞社 東京新聞

    2025/08/21

    Type: Newspaper, magazine

  2. M9級70年で再来か カムチャツカ沖地震 東北大が解析

    毎日新聞社 毎日新聞

    2025/08/07

    Type: Newspaper, magazine

  3. カムチャツカ地震、前回から70年あまりで発生の謎 研究者を悩ます

    朝日新聞社 朝日新聞

    2025/08/05

    Type: Newspaper, magazine

  4. Living in Japan

    2025/07/06

    Type: TV or radio program

  5. 能登の水田に現れた崖の謎 活断層そっくり? 見えてきたメカニズム

    朝日新聞社 朝日新聞

    2025/07/04

    Type: Newspaper, magazine

  6. Preparing for Nankai Trough Megaquake

    NHK World Japan Asian View https://www3.nhk.or.jp/nhkworld/en/radio/asianview/interviews/202504111901/

    2025/04/25

    Type: TV or radio program

  7. 南海トラフ地震「半割れ」初の被害想定

    読売新聞社 読売新聞

    2025/04/02

    Type: Newspaper, magazine

  8. 能登半島の地形的特徴は地震の繰り返しで形成された、東北大などが解明

    マイナビニュース https://news.mynavi.jp/techplus/article/20241206-3079547/

    2024/12/06

    Type: Internet

  9. 能登半島の地形は地震が形成 広域地滑り解明に道 東北大など

    日刊工業新聞 https://www.nikkan.co.jp/articles/view/00733303

    2024/12/05

    Type: Newspaper, magazine

  10. 能登半島は地震によって作られた 能登半島地震と地形の関係解明 東北大らのチーム

    テレビ朝日 https://news.tv-asahi.co.jp/news_society/articles/000389288.html

    2024/12/05

    Type: TV or radio program

  11. 半島の地形形成に地震影響 能登衛星画像分析、東北大

    共同通信 47NEWS https://www.47news.jp/11859519.html

    2024/12/05

    Type: Internet

  12. 能登地震、半島広域で地滑り 衛星画像を分析―東北大など

    時事通信 https://www.jiji.com/jc/article?k=2024120500154

    2024/12/05

    Type: Internet

  13. 地震のメカニズム学んで災害に備えを 「ぼうさいキッズパーク」〈宮城・石巻市〉

    仙台放送ニュース https://news.yahoo.co.jp/articles/22aa21b549a48f4997021b0b924fefbe9f6ba04f

    2024/11/24

  14. 親子で地震の仕組みを学ぶ 石巻

    NHKニュース https://www3.nhk.or.jp/lnews/sendai/20241124/6000029516.html

    2024/11/24

    Type: TV or radio program

  15. 防災行動推進 保健師らと連携

    静岡新聞 https://news.at-s.com/article/1598164

    2024/11/18

    Type: Newspaper, magazine

  16. 個人の防災対策推進へ 東北大と県など本格着手

    静岡新聞 https://news.at-s.com/article/1594776

    2024/11/13

    Type: Newspaper, magazine

  17. 「巨大地震注意」に注意

    読売新聞社 読売クオータリー2024秋号 https://www.yomiuri.co.jp/choken/kijironko/cksocialsports/20241021-OYT8T50147/ 100-109ページ

    2024/11

    Type: Newspaper, magazine

  18. 「平時の3600倍」に急上昇 M8クラス驚愕の発生確率

    女性セブン

    2024/09/05

  19. 【社説】巨大地震注意情報/防災力強化に向けた検証(コメント掲載)

    福島民友 https://www.minyu-net.com/news/detail/2024083108083726155

    2024/08/31

    Type: Newspaper, magazine

  20. 備える南海トラフ地震 臨時情報対応 今後の教訓に

    読売新聞

    2024/08/15

    Type: Newspaper, magazine

  21. 南海トラフM8以上地震なら1週間以内に「同規模再び」

    テレビ朝日 グッド!モーニング https://news.tv-asahi.co.jp/news_society/articles/900006632.html

    2024/08/12

  22. 日本専家:発生南海海槽特大地震概率1%

    香港フェニックステレビニュース https://share.fengshows.com/article.html?id=c02143e7-c4c3-45cc-b8ec-9687f13338c2&channelID=r06&time=1723276339.310720

    2024/08/10

    Type: TV or radio program

  23. 南海トラフ地震、警戒の休暇入り 東海道新幹線は徐行

    日本経済新聞 https://www.nikkei.com/article/DGXZQOUE08E790Y4A800C2000000/

    2024/08/09

    Type: Newspaper, magazine

  24. 「M8以上の南海トラフ巨大地震発生の場合」1週間以内の後発地震発生確率最高“77%”平時の3600倍まで急上昇「巨大地震が立て続けに起こる可能性を踏まえた事前準備を」東北大などが発表

    東北放送 https://newsdig.tbs.co.jp/articles/tbc/1349779

    2024/08/09

    Type: TV or radio program

  25. いのち守る・防災しずおか 東海さん一家の防災日記 南海トラフ地震に備える 識者インタビュー㊤

    静岡新聞

    2024/07/28

    Type: Newspaper, magazine

  26. BOSAI(防災)アクション―東北大学災害研の知見 第3回 福島洋准教授に聞く 日常のコミュニケーションの重要性

    聖教新聞社 聖教新聞

    2024/07/21

    Type: Newspaper, magazine

  27. 南海トラフ「臨時情報」認知3割 M6.8以上で警戒度評価

    日本経済新聞

    2024/04/24

    Type: Newspaper, magazine

  28. 南海トラフ 異なる仕組み

    読売新聞

    2024/04/19

    Type: Newspaper, magazine

  29. 「臨時情報」知り減災に生かそう 静岡、南海トラフ地震の講座

    朝日新聞

    2023/05/21

    Type: Newspaper, magazine

  30. 静岡人インタビュー「この人」「南海トラフ地震臨時情報」の対応計画策定を支援する

    静岡新聞

    2023/04/13

    Type: Newspaper, magazine

  31. 地震対応計画の作成支援「南海トラフ地震臨時情報」発表時 企業向けマニュアルなど

    静岡新聞

    2023/03/31

  32. 南海トラフ地震の1週間以内にまた巨大地震、最大で平時の3600倍

    ナショナル ジオグラフィック 電子版

    2023/01/28

    Type: Promotional material

  33. 特集:南海トラフ地震

    テレビ大阪

    2023/01/26

    Type: TV or radio program

  34. 南海トラフ地震の1週間以内に別の巨大地震、最大で「平常時の3600倍起きやすい」 東北大などが試算

    JST Science Portal

    2023/01/18

    Type: Internet

  35. 南海トラフ2つの地震連続か 「後発」への事前避難は

    静岡朝日テレビ

    2023/01/17

    Type: TV or radio program

  36. 南海トラフ巨大地震は連続して起きるかも!「その時」どう行動する?

    読売新聞ネットサイト「防災ニッポン」

    2023/01/17

    Type: Internet

  37. 南海トラフ地震発生の1週間以内に別の巨大地震“最大77%” 東北大学など

    日テレニュース

    2023/01/12

    Type: TV or radio program

  38. 南海トラフ沿いの巨大な“後発地震” 1週間以内の発生確率初算出 約8割に上る

    テレ朝news

    2023/01/11

    Type: TV or radio program

  39. Japan study points to high probability of twin earthquakes in Nankai Trough

    Japan Times

    2023/01/11

    Type: Newspaper, magazine

  40. 「南海トラフ巨大地震」1週間以内の後発地震発生確率最高“77%”平時の3600倍まで急上昇「巨大地震が立て続けに起こる可能性を踏まえた事前準備を」東北大などが発表

    TBC東北放送

    2023/01/11

    Type: TV or radio program

  41. 南海トラフ地震後1週間、M8級連続の確率高く 東北大学

    日本経済新聞

    2023/01/11

    Type: Newspaper, magazine

  42. 南海トラフ地震、発生1週間以内のM8級誘発率は最大3600倍 東北大など解析

    日刊工業新聞

    2023/01/11

    Type: Newspaper, magazine

  43. 南海トラフ後1週間 大地震確率「最大3600倍」 東北大など研究チーム試算

    毎日新聞

    2023/01/11

    Type: Newspaper, magazine

  44. 後発地震の発生確率高まる 南海トラフ、東北大など

    静岡新聞

    2023/01/10

    Type: Newspaper, magazine

  45. 巨大地震続発確率、最大96%=南海トラフで3年以内―東北大など

    時事通信ニュース

    2023/01/10

    Type: Internet

  46. 後発地震の発生確率高まる 南海トラフ、東北大など

    47news(共同通信)

    2023/01/10

    Type: Internet

  47. 南海トラフ巨大地震、続発は1週間以内に最大77% 他の地域より起きやすく

    産経新聞

    2023/01/10

    Type: Newspaper, magazine

  48. 南海トラフ東西どちらかでM8以上、1週間以内の連続発生の確率は100倍以上

    読売新聞

    2023/01/10

    Type: Newspaper, magazine

  49. 科学の視点で災害学ぶ 子どもたち、地震の仕組みを実験

    石巻かほく 石巻かほく

    2022/11/29

    Type: Newspaper, magazine

  50. 2021年ハイチ地震解明 市民参加型の観測網威力

    科学新聞 科学新聞

    2022/04/08

    Type: Newspaper, magazine

  51. 東北大学防災UPDATES!<2022年1月に発生した日向灘の地震(M6.6)について>

    エフエム仙台

    2022/03/20

    Type: TV or radio program

  52. These Small,Cheap Devices Help Monitor Haiti's Earthquakes

    The New York Times

    2022/03/10

    Type: Newspaper, magazine

  53. 東北大学防災UPDATES!<トンガの火山噴火について>

    エフエム仙台

    2022/03/06

    Type: TV or radio program

  54. 地震情報に対して「わが事」として考え行動すること 大事なのは,科学を理解する力と状況判断力 そして自ら考えて学ぶ力 Myself

    共同出版 月刊誌「教育課程」12月号

    2021/12

    Type: Newspaper, magazine

  55. 「2011年3月11日の地震とその後に起こったこと」

    エフエム仙台・東北大学防災 UPDATES!

    2021/03/21

    Type: TV or radio program

  56. 「2011年3月11日前に起こっていたこと」

    エフエム仙台・東北大学防災 UPDATES!

    2021/03/07

    Type: TV or radio program

  57. 地震予測 不確かさ含め生かす道を

    朝日新聞

    2021/02/11

    Type: Newspaper, magazine

    More details Close

    予知困難でも防災の力に 情報「空振り」は備えに活用

  58. 内閣府想定は「過小評価」

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    2020/10/30

    Type: Newspaper, magazine

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    地震学会研究成果「一部割れ、数十倍が妥当」

  59. 大学の国際化と国際貢献

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    2020/03/15

    Type: TV or radio program

  60. 変動地球共生学卓越大学院プログラム

    エフエム仙台・東北大学防災UPDATES!

    2020/03/01

    Type: TV or radio program

  61. 本県で「臨時情報」対応研究 東北大 南海トラフ地震向け 行政、企業に提案へ

    高知新聞

    2020/02/20

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  62. クイズで学ぶ地球防災ラボ「災害の仕組みを知る:火山」

    朝日小学生新聞

    2019/10/30

  63. 「母国へ日本の知識を:地震を研究するイラン男性」

    東日本放送 チャージ!

    2019/07/17

    Type: TV or radio program

  64. 地震臨時情報、市民も備えを

    日本経済新聞

    2019/06/21

    Type: Newspaper, magazine

  65. 「防災研究最前線」コーナーに出演し、南海トラフ地震臨時情報、空振りをどう許容するかについて解説やトーク

    NHKラジオ第一 にっぽん列島夕方ラジオ ゴジだっちゃ!

    2019/06/13

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  66. 南海トラフ地震臨時情報について

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    2019/06/13

    Type: TV or radio program

  67. 南海トラフ「臨時情報」、自治体や企業どう対応? 東北大が研究

    日本経済新聞

    2019/06/10

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  68. 「臨時情報」にどう対応する 東北大が高知で研究

    大阪日日新聞

    2019/06/09

    Type: Newspaper, magazine

  69. 「臨時情報」にどう対応する 東北大が高知で研究

    徳島新聞

    2019/06

    Type: Newspaper, magazine

  70. 「臨時情報」にどう対応する 東北大が高知で研究

    岩手日報

    2019/06

    Type: Newspaper, magazine

  71. 南海トラフ巨大地震の“事前”対応について

    エフエム仙台・東北大学防災UPDATES!

    2019/03/17

    Type: TV or radio program

  72. 珍しい活断層型地震と2011年の巨大地震の関係

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    2019/03/03

    Type: TV or radio program

  73. 同一活断層 短期に2地震 茨城北部 震災で間隔短縮か (同内容の報道がこの他に32件)

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    2018/08/08

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  74. 地震の予知・予測と南海トラフの大地震

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    2018/03/18

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  75. 「宇宙から大地をみる」

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    2018/03/04

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  76. 活断層探る、宇宙の「目」複雑な動き、衛星で解析

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    2017/08/10

    Type: Newspaper, magazine

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    地殻変動を人工衛星から詳細に捉える技術が進歩したことで、これまで考えられてきたよりもずっと複雑な活断層の動きが見えてきた。宇宙からの観測技術の進歩を受けて、活断層をめぐる常識を見直す必要がある。

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