Related Publications
2015
Ji, Y., S. Yoshioka, and T. Matsumoto, Three-dimensional numerical modeling of temperature and mantle flow fields associated with subduction of the Philippine Sea plate, southwest Japan, J. Geophys. Res. Solid Earth, 2016, 121, 4458-4482.2016
Frank, W., N. Shapiro, A. Husker, V. Kostoglodov, A. Gusev, and M. Campillo, The evolving interaction of low-frequency earthquakes during transient slip, Sci Adv, 2016, 2(4), e1501616–e1501616.2016
Porritt, R. W. and S. Yoshioka, Slab pileup in the mantle transition zone and the 30 May 2015 Chichi-jima earthquake, Geophys. Res. Let., 2016, 43, 4905-4912.2016
Husker, A. L., H. Houston, and M. Campillo, Understanding slow slip and tremor on plate boundaries, Eos, 2016, 97.2016
伊藤喜宏, 深部低周波微動/低周波地震/超低周波地震ってなんだ?, 2016, なゐふる, 106, 2-3.2016
Carlos Villafuerte Urbina, Postgraduate School of Earth Sciences, UNAM. Title: “Evolución de la Presión de Poro Asociada a Sismos Silenciosos: Implicaciones en la Generación de Tremores Tectónicos en Guerrero, México”, August 5, 2016.2016
Castro, R. R., X. Pérez-Campos, R. Zúñiga, L. Ramírez-Guzmán, J. Aguirre, A. Husker, A. Cuéllar, T. Sánchez, A Review on Advances in Seismology in Mexico After 30 Years from the 1985 Earthquake, J. of South American Earth Sciences, 2016, 70, 49-54.2016
Suenaga, N., S. Yoshioka, and T. Matsumoto, Relationships among temperature, dehydration of the subducting Philippine Sea plate, and the occurrence of a megathrust earthquake, low-frequency earthquakes, and a slow slip event in the Tokai district, central Japan, Physics of the Earth and Planetary Interiors, 2016, 260, 44–52.2016
Cruz-Atienza V. M., Carlos Villafuerte, Harsha Bhat. Tectonic Tremor Migration Induced By Pore Pressure Solitons In Guerrero, Mexico. Mexican Geophysical Union (UGM), Puerto Vallarta, México, Geos, Vol. 36, 2016.2016
Manea, V. C., M. Manea, L. Ferrari, T. Orozco-Esquivel, R. W. Valenzuela, A. Husker, V. Kostoglodov, A review of the geodynamic evolution of flat slab subduction in Mexico, Peru, and Chile, Tectonophysics, 2017, 695, 27-52.2016
Kawamoto, S., Y. Hiyama, Y. Ohta, and T. Nishimura, First result from the GEONET real-time analysis system (REGARD): the case of the 2016 Kumamoto earthquakes, 2016, Earth Planets Space, 68(1), 190.2016
Tomiczek, T., A. Prasetyo, N. Mori, T. Yasuda and A. Kennedy (2016) Physical modelling of tsunami onshore propagation, peak pressures, and shielding effects in an urban building array, Coastal Engineering, Elservier, Vol.117, pp.97-112.2016
Goda, K., T. Yasuda, N. Mori and T. Maruyama (2016) New scaling relationships of earthquake source parameters for stochastic tsunami simulation, Coastal Engineering Journal, World Scientific, Vol.58, 1650010, 40p.2016
Maury, J., S. Ide, V. M. Cruz-Atienza, V. Kostoglodov, G. González-Molina and X. Pérez-Campos. Comparative study of non-volcanic tremor locations: characterization of slow earthquakes in Guerrero, Mexico. Journal of Geophysical Research, 121.2017
Manea, V. C., Manea, Ferrari, Orozco, R. W. Valenzuela, Husker, and Kostoglodov, A review of the geodynamic evolution of flat slab subduction in Mexico, Peru, and Chile, Tectonophysics, 2017, 695, 27–52.2016
Kawamoto, S., Y. Ohta, Y. Hiyama, M. Todoriki, T. Nishimura, T. Furuya, Y. Sato, T. Yahagi, and K. Miyagawa, REGARD: A new GNSS-based real-time finite fault modeling system for GEONET, J. Geophys. Res. Solid Earth, 2017, 122.2017
Mikumo, T., T. Shibutani, M. Iwakuni and N. Arai; Low-frequency atmospheric gravity waves from vertical tectonic deformation during two recent Chilean megathrust events: the 2010 Maule(Mw8.8), and 2014 Iquique (Mw8.2) earthquakes, Apri 04l, 2017 The Open Atmospheric Science Journal.2017
Castellanos, J., X. Pérez-Campos, R. Valenzuela, A. Husker, and L. Ferrari, Crust and upper-mantle seismic anisotropy variations from the coast to inland in central and Southern Mexico, Geophysical Journal International, 2017, 210, 360–374.2017
Nakata, R., H. Hino, T. Kuwatani, S. Yoshioka, M. Okada and T, Hori, Discontinuous boundaries of slow slip events beneath the Bungo Channel, southwest Japan, Scientific Reports, 2017, 7.2017
Mori, N., P.M. Mai, K. Goda and T. Yasuda (2017) Tsunami inundation variability from stochastic rupture scenarios: Application to multiple inversions of the 2011 Tohoku, Japan earthquake, Coastal Engineering, Elservier, Vol.127, pp.88–105.2017
Ito, Y., M. J. Ikari, K. Ujiie, and A. J. Kopf (2017), Coseismic slip propagation on the Tohoku plate boundary fault facilitated by slip-dependent weakening during slow fault slip, Geophys. Res. Lett., 44, 8749–8756.2017
Ji, Y., S. Yoshioka and Y. A. Banay, Thermal state, slab Metamorphism, and interface seismicity in the Cascadia subduction zone based on 3-D modeling, Geophysical Research Letters, 2017, 44, 9242-9252.2017
Porritt, R. W. and S. Yoshioka, Evidence of Dynamic crustal deformation in Tohoku, Japan, from time-varying receiver functions, Tectonics, 2017, 36, 1934-1946.2017
Katakami, S., Y. Yamashita, H. Yakihara, H. Shimizu, Y. Ito, and K. Ohta (2017), Tidal Response in Shallow tectonic tremors, Geophys. Res. Lett., 44, 9699-9706.2017
Husker, A., L. Ferrari, C. Arango-Galván, F. Corbo-Camargo, and J. Arzate-Flores, A geologic recipe for transient slip within the seismogenic zone: Insight from the Guerrero seismic gap, Mexico, Geology, 2017.2017
Suenaga. N., S. Yoshioka, T. Matsumoto and Y. Ji, Two-dimensional thermal modeling associated with subduction of the Philippine Sea plate in southern Kyushu, Japan, Tectonophysics, 2018, 723, 288-296.2017
伊藤喜宏(2018), 講座「南海トラフ巨大地震・津波発生の真実にせまる〜強靭な社会の構築に向けて〜」5.南海トラフのスロー地震と断層活動, 地盤工学会誌, 66(1), 54–60.2017
María Teresa Ramírez-Herrera, Krzysztof Gaidzik, Steven Forman, Vladimir Kostoglodov, Roland Bürgmann, Christopher W. Johnson; Relating the long-term and short-term vertical deformation across a transect of the forearc in the central Mexican subduction zone. Geosphere; 14 (2): 419–439.2017
Plata Martínez, Raymundo Omar. Energía irradiada de réplicas en la zona de subducción de Guerrero, México. Posgrado en Ciencias de la Tierra, UNAM.2017
Tomiczek, T., A. Prasetyo, N. Mori, T. Yasuda and A. Kennedy (2017) Effects of a macro-roughness element on tsunami wave amplification, pressures, and loads: Physical model and comparison to Japanese and US design equations, Coastal Engineering Journal, World Scientific, Vol.50, 1750004, 25p.2017
Mori, N., P.M. Mai, K. Goda and T. Yasuda (2017) Tsunami inundation variability from stochastic rupture scenarios: Application to multiple inversions of the 2011 Tohoku, Japan earthquake, Coastal Engineering, Elsevier, Vol.127, pp.88–105.2017
Suenaga, N., Y. Ji, S. Yoshioka and D. Feng, Subduction thermal regime, slab dehydration, and seismicity distribution beneath Hikurangi based on 3-D simulations, Journal of Geophysical Research: Solid Earth, 2018, 123, 4, 3080-3097.2017
Ji, Y., S. Yoshioka, V. C. Manea and Marina Manea, Seismogenesis of dual subduction beneath Kanto, central Japan controlled by fluid release, Scientific Reports, 2017, 7.2017
Adriano, B., Fujii, Y., Koshimura, S., Mas, E., Ruiz-Angulo, A. and Estrada, M., 2018. Tsunami source inversion using tide gauge and DART tsunami waveforms of the 2017 Mw8. 2 Mexico earthquake. Pure and Applied Geophysics, 175(1), pp.35-48.2017
Adriano, B., Fujii, Y., Koshimura, S., Mas, E., Ruiz-Angulo, A. and Estrada, M., 2018. Tsunami source inversion using tide gauge and DART tsunami waveforms of the 2017 Mw8. 2 Mexico earthquake. Pure and Applied Geophysics, 175(1), pp.35-48.2017
Mori, N., K. Goda and D.T. Cox (2017) Recent process in Probabilistic Tsunami Hazard Analysis (PTHA) for mega thrust subduction earthquakes,In The 2011 Japan Earthquake and Tsunami: Reconstruction and Restoration; Insights and Assessment after 5 Years, Ed.Vicente Santiago-Fandino, Springer, pp.469-485.2018
Cruz-Atienza VM, Villafuerte C, Bhat HS. Rapid tremor migration and pore-pressure waves in subduction zones. Nature Communications. 2018;9:2900.2018
Pringle, W.J., N. Yoneyama and N. Mori (2018) Multiscale coupled three-dimensional model analysis of the tsunami flow characteristics around the Kamaishi bay offshore breakwater and comparisons to a shallow water model, Coastal Engineering Journal, Taylor & Francis.2018
Ide, S., & Maury, J. (2018). Seismic Moment, Seismic Energy, and Source Duration of Slow Earthquakes: Application of Brownian slow earthquake model to three major subduction zones. Geophysical Research Letters, 45(7), 3059-3067.2018
Katakami, S., Y. Ito, K. Ohta, R. Hino, S. Suzuki, and M. Shinohara (2018), Spatiotemporal Variation of Tectonic Tremor Activity Before the Tohoku-Oki Earthquake, J. Geophys. Res., 123, 9676-9688.2018
Uemura, M, Y. Ito, K. Ohta, R. Hino, M. Shinohara(2018), Spatio-temporal changes in the seismic velocity induced by the 2011 Tohoku-Oki earthquake and slow slip event revealed from seismic interferometry, using Ocean Bottom Seismometer's records, Progress in Earth and Planetary Science, 5(87).2018
Nakano, G., Ramírez-Herrera, M., Corona, N., (2018) Effects of decontextualized tsunami disaster education: A case study of schools in Acapulco, Mexico., Journal of Natural Disaster Science vol.39 No,2. pp.19-33.2018
Diego Melgar, Angel Ruiz-Angulo, Emmanuel Soliman Garcia, Marina Manea, Vlad. C. Manea, Xiaohua Xu, M. Teresa Ramirez-Herrera, Jorge Zavala-Hidalgo, Jianghui Geng, Nestor Corona, Xyoli Pérez-Campos, Enrique Cabral-Cano & Leonardo Ramirez-Guzmán (2018), Deep embrittlement and complete rupture of the lithosphere during the Mw 8.2 Tehuantepec earthquake, Nature Geoscience, 11, 955–960.2018
宮下卓也, 森 信人 (2018) Random Phase と Logic Tree を用いた確率論的な津波波高評価の比較, 土木学会論文集 B2 (海岸工学), 74(2), I_427-I_432.2018
福井信気, 森 信人 (2018) 都市地形アップスケーリングによる市街地粗度パラメタリゼーションを用いた津波遡上計算の検証―2011 年東北地震津波・女川町―, 土木学会論文集 B2 (海岸工学), 74(2), I_187-I_192.2018
Mirwald, A., V. M. Cruz-Atienza, J. Díaz-Mojica, A. Iglesias, S. K. Singh, C. Villafuerte and J. Tago The September 19, 2017 (Mw7.1), intermediate-depth Mexican earthquake: a slow and energetically inefficient deadly shock. Geophysical Research Letters, 46.2018
Maury, J., Ide, S., Cruz‐Atienza, V. M., & Kostoglodov, V. (2018). Spatiotemporal variations in slow earthquakes along the Mexican subduction zone. Journal of Geophysical Research: Solid Earth, 123(2), 1559-1575.2018
Cruz‐Atienza, V. M., Ito, Y., Kostoglodov, V., Hjörleifsdóttir, V., Iglesias, A., Tago, J., ... & Nishimura, T. (2018). A Seismogeodetic Amphibious Network in the Guerrero Seismic Gap, Mexico. Seismological Research Letters.2018
Ji, Y., S. Yoshioka, V. C. Manea, M. Manea and N. Suenaga, Subduction thermal structure, metamorphism and seismicity beneath northcentral Chile, Journal of Geodynamics, 2018.2018
Diego Melgar, Angel Ruiz-Angulo, Emmanuel Soliman Garcia, Marina Manea, Vlad. C. Manea, Xiaohua Xu, M. Teresa Ramirez-Herrera, Jorge Zavala-Hidalgo, Jianghui Geng, Nestor Corona, Xyoli Pérez-Campos, Enrique Cabral-Cano & Leonardo Ramirez-Guzmán (2018), Deep embrittlement and complete rupture of the lithosphere during the Mw 8.2 Tehuantepec earthquake, Nature Geoscience, 11, 955–960.2019
Muramoto, T., Y. Ito, D. Inazu, L. M. Wallace, R. Hino, S. Suzuki, S. C. Webb, S. Henrys(2018), Seafloor crustal deformation on ocean bottom pressure records with non-tidal variability corrections: application to Hikurangi margin, New Zealand, Geophys. Res. Lett., 46, 303-310.