Publications

査読付き論文

1. Muramoto, T., Y. Ito, A. Miyakawa, and N. Furuichi (2024), Viscoelasticity modeling of clay minerals by dynamic viscoelasticity measurement and its implications for earthquake faulting, Tectonophysics, 872, 230208, https://doi.org/10.1016/j.tecto.2024.230208 (student's paper)[Link]
2. 伊藤喜宏(2023), 南海トラフ沿いの巨大地震のメカニズム：事前の備えと心構え, 日本旅行医学会学会誌, 18(1), 67-73
3. Ruan, Y., Y. Ito, and Y. Sawaki (2023), Anisotropic Velocity Structure Beneath Shikoku, Japan: Insights From Receiver Function and Shear Wave Splitting Analyses, J. Geophys. Res: Solid Earth, 128, e2023JB027178, https://doi.org/10.1029/2023JB027178 (student's paper)[Link]
4. Muramoto, T., Y. Ito, A. Miyakawa, and N. Furuichi (2023), Strain and Stress Accumulation in Viscoelastic Splay Fault and Subducting Oceanic Crust, Geophys. Res. Lett., 50(11), doi:10.1029/2023GL103496 (student's paper)[Link]
5. Inazu, D., Y. Ito, R. Hino and W. Tanikawa (2023), Abrupt water temperature increases near seafloor during the 2011 Tohoku earthquake, Progress in Earth and Planetary Science, 10:24, doi:10.1186/s40645-023-00556-0 [Link]
6. Farazi, A.H.,Md. S. Hossain, Y. Ito, J. Piña-Flores, A.S.M. M. Kamal, Md. Z. Rahman (2023), Shear wave velocity estimation in the Bengal Basin, Bangladesh by HVSR analysis: implications for engineering bedrock depth, Jornal of Applied Geophysics, 211, doi:10.1016/j.jappgeo.2023.104967 (student's paper)[Link]
7. Farazi, A.H.,Y. Ito, E. S. M. Garcia, A. M. Lontsi, F. J. Sánchez-Sesma, A. Jaramillo, S. Ohyanagi R. Hino and M. Shinohara (2023), Shear-wave velocity structure at the Fukushima forearc region based on H/V analysis of ambient noise recordings by ocean bottom seismometers, Geophysical Journal International, 233, 1801–1820, doi:10.1093/gji/ggad028. [Link] (student's paper)
8. Woods, K., S. C. Webb, L. M. Wallace, Y. Ito, C. Collins, N. Palmer, R. Hino, M. K. Savage, D. M. Saffer, E. E. Davis, D. H. N. Barker, Using seafloor geodesy to detect vertical deformation at the Hikurangi subduction zone: Insights from self-calibrating pressure sensors and ocean general circulation models, Journal of Geophysical Research: Solid Earth, 127, e2022JB023989, doi:10.1029/2022JB02398 [Link]
9. Sawaki, Y., Y. Yamashita, S. Ohyanagi, E. S. M. Garcia, A. Ito, H. Sugioka, T. Takahashi, M. Shinohara, and Y. Ito (2022), Seafloor depth controls seismograph orientation uncertainty, Geophysical Journal International, doi:10.1093/gji/ggac397. (student's paper)[Link]
10. Iwasaki, Y., K. Mochizuki, M. Ishise, E. Todd, S. Schwartz, H. Zai, M. Savage, S. Henrys, A. Sheehan, Y. Ito, L. Wallace, S. Webb, T. Yamada, and M. Shinohara (2022), Continuous tremor activity with stable polarization direction following the 2014 large slow slip event in the Hikurangi subduction margin offshore New Zealand, Journal of Geophysical Research: Solid Earth, doi:10.1029/2021JB022161. [Link]
11. Plata-Martinez, R., S. Ide, M. Shinohara, E. S. Garcia, N. Mizuno, L. A. Dominguez, T. Taira, Y. Yamashita, A. Toh, T. Yamada, J. Real, A. Husker, V. M. Cruz-Atienza and Y. Ito (2021), Shallow slow earthquakes to decipher future catastrophic earthquakes in the Guerrero seismic gap, Nature Communications, 12, 3976, doi:10.1038/s41467-021-24210-9. (student's paper)[Link]
12. Tago, J., V.M. Cruz-Atienza, C. Villafuerte, T. Nishimura, V. Kostoglodov, J. Real, and Y. Ito (2021), Adjoint Slip Inversion under a Constrained Optimization Framework: Revisiting the 2006 Guerrero Slow Slip Even, Geophys. J. Int., 226(2), 1187–1205, doi:10.1093/gji/ggab165.[Link]
13. Cruz-Atienza, V.M., J. Tago, C. Villafuerte, M. Wei, R. Garza-Girón, L. A. Dominguez, V. Kostoglodov, T. Nishimura, S. I. Franco, J. Real, M. A. Santoyo, Y. Ito, and E. Kazachkina (2021), Short-term interaction between silent and devastating earthquakes in Mexico, Nature Communications, 12, doi:10.1038/s41467-021-22326-6 [Link]
14. Sawaki, Y., Y. Ito, K. Ohta, T. Shibutani, and T. Iwata (2021), Seismological structures on bimodal distribution of deep tectonic tremor, Geophys. Res. Lett., 48(8),e2020GL092183, doi:10.1029/2020GL092183. (student's paper)[Link]
15. Inoue, T., Y. Ito, L. M. Wallace, Y. Yoshikawa, D. Inazu, E. S. M. Garcia, T. Muramoto, S. C. Webb, K. Ohta, S. Suzuki, and R. Hino (2021),Water depth dependence of long‐range correlation in nontidal variations in seafloor pressure, Geophys. Res. Lett., 48(8), e2020GL092173, doi:10.1029/2020GL092173. (student's paper)[Link]
16. Černý, J., M.T. Ramírez-Herrera, E.S. Garcia, and Y. Ito (2020), Seafloormorphology along the active margin in Guerrero, Mexico: Probable earthquake implications, Journal of South American Earth Sciences,102, doi: https://doi.org/10.1016/j.jsames.2020.102671.[Link]
17. Kawamura, K., A. Wada, M. Römer, M. Strasser, H. G. Fink, Y. Ito, and R. Hino (2020),Detailed seafloor observation on a deep-sea terrace along the Japan Trench after the 2011 Tohoku Earthquake, In: K.Sassa, K. Takara (eds.), Understanding and Reducing Landslide Disaster Risk, Catastrophic Landslides, Volume 1, Springer doi:10.1007/978-3-030-60196-6_32
18. Ito, Y., S. C. Webb, Y. Kaneko, L. M. Wallace, and R. Hino (2020), Sea surface gravity waves excited by dynamic ground motions from large regional earthquakes, Seis. Res. Lett., 94(4), 2268–2277, https://doi.org/10.1785/0220190267 [Link]
19. Katakami, S., Y. Kaneko,Y. Ito, E. Araki (2020), Stress sensitivity of instantaneous dynamic triggering of shallow slow slip events, Journal of Geophysical Research: Solid Earth, 125, e2019JB019178, https://doi.org/10.1029/2019JB019178 (student's paper)[Link]
20. Barnes,P. M., L. M. Wallace, D. M. Saffer, R. E. Bell, M. B. Underwood, A.Fagereng, F. Meneghini, H. M. Savage, H.S. Rabinowitz, J. K. Morgan, H. Kitajima, S. Kutterolf, Y. Hashimoto, C. H. Engelmann de Oliveira ,A. Noda, M. P. Crundwell, C. L. Shepherd, A. D. Woodhouse, R. N. Harris, M. Wang, S. Henrys, D. H.N. Barker, K. E. Petronotis, S. M. Bourlange, M. B. Clennell, A. E. Cook, B. E. Dugan, J. Elger, P. M. Fulton, D. Gamboa, A. Greve, S. Han, A. Hüpers, M. J. Ikari, Y. Ito, G.Y.Kim, H. Koge, H. Lee, X. Li, M. Luo, P. R. Malie, G.F. Moore, J. J. Mountjoy, D. D. McNamara, M. Paganoni, E. J. Screaton, U. Shankar, S. Shreedharan, E. A. Solomon, X. Wang, H-Y. Wu, I. A. Pecher, L. J. LeVay, and IODP Expedition 372 Scientists (2020), Slow slip source characterized by lithological and geometric heterogeneity,Science Advances, 6(13), eaay3314 doi: 10.1126/sciadv.aay3314 [Link]
21. Shibazaki, B., L. M. Wallace, Y. Kaneko, I. Hamling, Y. Ito, T. Matsuzawa (2019), Three-dimensional modeling of spontaneous and triggered slow-slip events at the Hikurangi subduction zone, New Zealand, J. Geo. Res., 124, 13,250–13,268, doi:10.1029/2019JB018190[Link]
22. Kaneko, Y., Y. Ito, B. Chow, L. M. Wallace, C. Tape, R. Grapenthin, E. D'Anastasio, S. Henrys, R. Hino (2019), Ultra‐long Duration of Seismic Ground Motion Arising From a Thick, Low‐Velocity Sedimentary Wedge, J. Geo. Res., 124, doi:10.1029/2019JB017795[Link]
23. Ohta, K., Y. Ito, R. Hino, S. Ohynanagi, T. Matsuzawa, H. Shiobara, M. Shinohara (2019), Tremor and inferred slow slip associated with afterslip of the 2011 Tohoku earthquake, Geophys. Res. Lett., 46, 4591–4598, doi:10.1029/2019GL0824268[Link]
24. Yarce, J., A. F. Sheehan, J. S. Nakai, S. Y. Schwartz, K. Mochizuki, M. K. Savage, L. M. Wallace, S. A. Hennrys, S. C. Webb, Y. Ito, R. E. Abererombie, B. Fry, H. Shaddox, E. K. Todd (2019), Seismicity at the northern Hikurangi Margin, New Zealand, and investigation of the potential spatial and temporal relationships with a shallow slow slip event, J. Geo. Res., 124, doi:10.1029/2018JB017211[Link]
25. Muramoto, T., Y. Ito, D. Inazu, L. M. Wallace, R. Hino, S. Suzuki, S. C. Webb, S. Henrys(2019), 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, doi:10.1029/2018GL080830 (student's paper)[Link]
26. 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), doi:10.1186/s40645-018-0240-3 (student's paper)[Link]
27. 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, doi:10.1029/2018JB016651 (student's paper)[Link]
28. Kubota, T, T. Saito, Y. Ito, Y. Kaneko, L. M. Wallace, S. Suzuki, R. Hino, and S. Henrys (2018), Using Tsunami Waves Reflected at the Coast to Improve Offshore Earthquake Source Parameters: Application to the 2016 Mw 7.1 Te Araroa Earthquake, New Zealand, J. Geophys. Res., 123, 8767-8779, doi:0.1029/2018JB015832, [Link]
29. Todd, E.K., S.Y. Schwartz, K. Mochizuki, L. M. Wallace, A. F. Sheehan, S. C. Webb, C. A. Williams, J. Nakai, J. Yarce, B. Fry. S. Henrys, Y. Ito (2018), Earthquakes and Tremor Linked to Seamount Subduction During Shallow Slow Slip at the Hikurangi Margin, New Zealand, J. Geophys. Res., 123, 6769-6783, doi:10.1029/2018JB016136[Link]
30. Kano, M., N. Aso, T. Matsuzawa, S. Ide, S. Annoura, R. Arai, S. baba, M. Bostock, K. Chao, K. Heki, S. Itaba, Y. Ito, N. Kamaya, T. Maeda, J. Maury, M. Nakamura, T. Nishimura, K. Obana, K. Ohta, N. Poiata, B. Rousset, H, Sugioka, R. Takagi, T. Takahashi, A. Takeo, Y. Tu, N. Uchida, Y. Yamashita, and K. Obara (2018), Development of a Slow Earthquake Database, Seis. Res. Let., 89 (4), 1566-1575, doi:10.1785/0220180021. [Link]
31. Azuma, R., R. Hino, Y. Ohta, Y. Ito, K. Mochizuki, K. Uehira, Y. Murai, T. Sato, T. Takanami, M. Shinohara, and T. Kanazawa (2018), Along-arc heterogeneity of the seismic structure around a large coseismic shallow slip area of the 2011 Tohoku-oki Earthquake: 2-D Vp structural estimation through an airgun-ocean bottom seismometer experiment in the Japan Trench subduction zone, J. Geophys. Res., 123 (6),5249–5264, doi10.1029/2017JB015361.[Link]
32. Cruz-Atienza, V. M., Y. Ito, V. Kostoglodov, V. Hjörleifsdóttir, A. Iglesias, J. Tago, M. Calò, J. Real, A. Husker, S. Ide, T. Nishimura, M. Shinohara, C. Mortera‐Gutierrez, S. García, and M. Kido (2018), A Seismogeodetic Amphibious Network in the Guerrero Seismic Gap, Mexico, Seismo. Res. Lett., 89(4),1435-1449,doi:10.1785/0220170173. [Link]
33. 伊藤喜宏(2018), 南海トラフのスロー地震と断層活動 地盤工学会誌 , 66, 54-60.
34. 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, doi:10.1002/2017GL074060. (student's paper) [Link]
35. 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, doi:10.1002/2017GL074307.[Link]
36. Kubota, T., R. Hino, D. Inazu Y. Ito, T. Iinuma, Y. Ohta, S. Suzuki, and K. Suzuki (2016), Coseismic slip model of offshore moderate interplate earthquakes on March 9, 2011 in Tohoku using tsunami waveforms, Earth, Planet. Sci. Lett.,458, 241-251, doi:10.1016/j.epsl.2016.10.047. [Link]
37. Muto, J., B. Shibazaki, T. Iinuma,, Y. Ito, Y. Ohta, S. Miura, and Y. Nakai (2016), Heterogeneous rheology controlled postseismic deformation of the 2011 Tohoku-Oki earthquake, Geophys. Res. Lett.,43, 4971-4978, doi:10.1002/2016GL068113. [Link]
38. Wallace, L., S. Webb, Y. Ito, K. Mochizuki, R. Hino, S. Henrys, S. Schwartz, and A. Sheehan (2016), Slow slip near the trench at the Hikurangi subduction zone, New Zealand, Science, 352, 701–704, doi:10.1126/science.aaf2349. [Link]
39. Harris, R., L. Wallace, S. Webb, Y. Ito, K. Mochizuki, H. Ichihara, S. Henrys, A. Tréhu,  S. Schwartz, A. Sheehan, D. Saffer, and R. Lauer (2016), Investigations of shallow slow slip offshore of New Zealand, Eos, 97, doi:10.1029/2016EO048945. [Link]
40. Kubota, T., R. Hino, D. Inazu, Y. Ito, and  T. Iinuma (2015), Complicated rupture process of the Mw 7.0 intraslab strike-slip earthquake in the Tohoku region on 10 July 2011 revealed by near-field pressure records, Geophys. Res. Lett., 42, 9733–9739, doi:10.1002/2015GL066101. [Link]
41. Ito, Y., and  M. J. Ikari (2015), Velocity- and slip-dependent weakening in simulated fault gouge: Implications for multi-mode fault slip, Geophys. Res. Lett.,42, 9247–9254,  doi:10.1002/2015GL065829. [Link]
42. Ikari, M. J., Y. Ito, K. Ujiie, and A. J. Kopf (2015), Spectrum of slip behaviour in Tohoku fault zone samples at plate tectonic slip rates, Nature Geoscience,  8, 870–874, doi10.1038/ngeo2547. [Link]
43. Ghosh, A., E. Uesca-Pérez, E. Brodsky, and Y. Ito (2015), Very low frequency earthquakes (VLFEs) in Cascadia migrate with tremor, Geophys. Res. Lett., 42, 3228–3232. doi: 10.1002/2015GL063286. [Link]
44. Ito, Y., R. Hino, S. Suzuki, and Y. Kaneda (2015), Episodic tremor and slip near the Japan Trench prior to the 2011 Tohoku–Oki earthquake, Geophys. Res. Lett.,42, 6, 1725-1731, doi:10.1002/2014GL062986. [Link]
45. Nakatani, Y., K. Mochizuki, M. Shinohara, T. Yamada, Y. Ito, Y. Murai, and ,T. Sato (2015), Changes in seismicity before and after the 2011 Tohoku earthquake around its southern limit revealed by dense ocean-bottom seismic array data, Geophys. Res. Lett., 42, 5, 1384-1389. doi:10.1002/2015GL063140. [Link]
46. Asano, Y., K. Obara, T. Matsuzawa, H. Hirose, and Y. Ito (2015), Possible shallow slow slip events in Hyuga-nada, Nankai subduction zone, inferred from migration of very low frequency earthquakes, Geophys. Res. Lett., 42, 331-338, doi:10.1002/2014GL062165. [Link]
47. 藤本 博己・日野 亮太・木戸 元之・伊藤 喜宏・太田 雄策・飯沼 卓史・長田 幸仁・稲津 大祐・鈴木 秀市・佐藤 俊也・立花 憲司・出町 知嗣・三浦 哲 (2014), 海陸統合測地観測に基づく2011 年東北地方太平洋沖地震に関する研究, 測地学会誌, 60, 1-22.[Link]
48. Romano,F., E. Trasatti, S. Lorito, C. Piromallo, A. Piatanesi, Y. Ito, D. Zhao, K. Hirata, P. Lanucara and M. Cocco (2014), Structural control on the Tohoku earthquake rupture process investigated by 3D FEM, tsunami and geodetic data, Scientific Reports, 4, 5631, doi:10.1038/srep05631.[Link]
49. Ito, Y., and R. Hino (2013),Velocity reduction in an offshore region after the 2011 Tohoku-Oki earthquake, revealed from ocean-bottom seismic records, Proceedings of the 11th SEGJ International Symposium, 523-526, doi: 10.1190/segj112013-131. [Link]
50. Hino, R., Y. Ito, Y. Ohta, T. Iinuma, and D. Inazu (2013), Ocean bottom pressure records of the 2011 Tohoku-Oki earthquake, Proceedings of the 11th SEGJ International Symposium,  462-465, doi: 10.1190/segj112013-117. [Link]
51. Hino , R., D. Inazu, Y. Ohta, Y. Ito, S. Suzuki, T. Iinuma, Y. Osada, M. Kido, H. Fujimoto, Y. Kaneda (2013), Was the 2011 Tohoku-Oki earthquake preceded by aseismic preslip ? Examination of seafloor vertical deformation data near the epicenter, Mar. Geophys. Res., doi:10.1007/s11001-013-9208-2 [Link]
52. Arai, K., H. Naruse, R. Miura, K. Kawamura, R. Hino, Y. Ito, D. Inazu, M. Yokokawa, N. Izumi, M. Maruyama, T. Kasaya (2013), Tsunami-generated turbidity current of the 2011 Tohoku-Oki earthquake, Geology, 41, 1195-1198, doi:10.1130/G34777.1 [Link]
53. Muto, J., B Shibazaki, Y Ito, T Iinuma, M Ohzono (2013), Two-dimensional viscosity strucutre of the northeastern Japan islands arc-trench system, Geophy. Res. Lett., 40, 4604-4608, doi:10.1002/grl.50906. [Link]
54. Davis, E., M Kinoshita, K Becker, K Wang, Y Asano, Y Ito (2013), Episodic deformation and inferred slow slip at the Nankai subduction zone during the first decade of CORK borehole pressure and VLFE monitering, Earth Planet. Sci. Lett., 368, 110–118. [Link]
55. Ito, Y. R. Hino, M. Kido, H. Fujimoto, Y. Osada, D. Inazu, Y. Ohta, T. Iinuma, M. Ohzono, S. Miura, M. Mishina, K. Suzuki, T. Tsuji, J. Ashi (2013), Episodic slow slip events in the Japan subduction zone before the 2011 Tohoku-Oki earthquake, Tectonophysics, 600, 14–26. [Link] [The 5 most highly cited papers in Tectonophyics (2016)]
56. Tsuji , T., K. Kawamura, T. Kanamatsu, T. Kasaya, K. Fujikura, Y. Ito, T. Tsuru, and M. Kinoshita (2013), Extension of continental crust by anelastic deformation during the 2011 Tohoku-oki earthquake: The role of extensional faulting in the generation of a great tsunami, Earth. Planet. Sci. Lett., 364, 44–58. [Link]
57. Shinohara, M,  Y. Machida, T. Yamada, K. Nakahigashi, T. Shinbo, K. Mochizuki, Y. Murai, R. Hino, Y. Ito, T. Sato, H. Shiobara, K. Uehira, H. Yakiwara, K. Obana, N. Takahashi, S. Kodaira, K. Hirata, H. Tsushima, and T. Iwasaki (2013), Precise aftershock distribution of the 2011 off the Pacific coast of Tohoku earthquake revealed by ocean bottom seismometer network, Earth Planet Space, 64, 1137–1148. [Link]
58. Nakahigashi, K., M. Shinohara, K. Mochizuki, T. Yamada, R. Hino, T. Sato, K. Uehira, Y. Ito, Y. Murai and T. Kanazawa (2013), P-wave velocity structure in the southernmost source region of the 2011 Tohoku earthquake, off the Boso Peninsula deduced by an ocean bottom seismographic survey, Earth Planet Space, 64, 1149–1156. [Link]
59. Suzuki, K.,  R. Hino, Y. Ito,, Y. Yamamoto, S. Suzuki, H. Fujimoto, M. Shinohara, M. Abe, Y. Kawaharada, Y. Hasegawa, and Y. Kaneda (2012), Seismicity near the hypocenter of the 2011 off the Pacific coast of Tohoku earthquake deduced by using ocean bottom seismographic data, Earth Planet Space, 64, 1125–1135. [Link]
60. Ito, Y. and K. Shiomi (2012), Seismic scatterers within subducting slab revealed from ambient noise autocorrelation, Geophys. Res. Lett, 39, L1903, doi:10.1029/2012GL053321[Link]
61. Hasegawa, A., K. Yoshida, Y. Asano, T. Okada, T. Iinuma, Y. Ito (2012), Change in stress field after the 2011 great Tohoku-Oki earthquake, Earth. Planet. Sci. Lett.,  355–356, 231–243. [Link]
62. Ito, Y., K. Shiomi, J. Nakajima, and R. Hino (2012), Autocorrelation analysis of ambient noise in northeastern Japan subduction zone, Tectonophysics, 572–573, 38–46. [Link]
63. Ohta, Y., R. Hino, D. Inazu, M. Ohzono, Y. Ito, M. Mishina, T. Iinuma, J. Nakajima, Y. Osada, K. Suzuki, H. Fujimoto, K. Tachibana, T. Demachi, S. Miura (2012), Geodetic constraints on afterslip characteristics following the March 9, 2011, Sanriku-oki earthquake, Japan, Geophys. Res. Lett., 39, L16304, doi:10:1029/2012GL052430. [Link]
64. Nakahigashi, K.,  M. Shinohara, E. Kurashimo, T. Yamada, A. Kato, T. Takanami, K. Uehira, Y. Ito, T. Iidaka, T. Igarashi, H. Sato, R. Hino, K. Obana, Y. Kaneda, N. Hirata, T. Iwasaki T. Kanazawa (2012), Seismic structure of the source region of the 2007 Chuetsu-oki earthquake revealed by offshore-onshore seismic survey: asperity zone of intraplate earthquake delimited by crustal inhomogeneity, Tectonophysics, 562–563, 34–47. [Link]
65. Iinuma, T., R. Hino , M. Kido , D. Inazu , Y. Osada , Y. Ito, M. Ohzono, H. Tsushima, S. Suzuki, H. Fujimoto, S.i Miura (2012), Coseismic slip distribution of the 2011 off the Pacific Coast of Tohoku Earthquake (M9.0) refined by means of seafloor geodetic data, J. Geophys. Res., 117, B07409, doi:10.1029/2012JB009186. [Link]
66. Yoshida, K., A. Hasegawa, T. Okada, T. Iinuma, Y. Ito, and Y. Asano (2012), Stress before and after the 2011 Great Tohoku-oki earthquake, and induced earthquake in inland areas of eastern Japan, Geophys. Res. Lett., 39, L03302, doi:10.1029/2011GL049729 [Link]
67. 古賀祥子・伊藤喜宏・日野亮太・篠原雅尚・海野徳仁(2012),日本海溝周辺におけるプレート内地震発生機構, 地震２, 64, 75-90.[Link]
68. Kido, M., Y. Osada, H. Fujimoto, R. Hino, and Y. Ito (2011), Trench-normal variation in observed seafloor displacements associated with the 2011 Tohoku-Oki earthquake, Geophys. Res. Lett., 38, L24303, doi:10.1029/2011GL050057. [Link]
69. Shibazaki, B., T. Matsuzawa, A. Tsutsumi, K. Ujiie, A. Hasegawa, and Y. Ito (2011), 3D modeling of the cycle of a great Tohoku-oki earthquake, considering frictional behavior at low to high slip velocities, Geophys. Res. Lett., 38, L21305, doi:10.1029/2011GL049308. [Link]
70. Saito, T., Y. Ito, D. Inazu, and R. Hino (2011),  Tsunami source of the 2011 Tohoku-Oki earthquake, Japan: Inversion analysis based on dispersive tsunami simulations, Geophys. Res. Lett., 38, L00G19, doi:10.1029/2011GL049089. [Link]
71. Ito, Y.,T. Tsuji, Y. Osada, M. Kido, D. Inazu, Y. Hayashi, H. Tsushima, R. Hino, and H. Fujimoto (2011), Frontal wedge deformation near the source region of the 2011 Tohoku-Oki earthquake, Geophys. Res. Lett., 38, L00G05, doi:10.1029/2011GL048355. [Link]
72. Asano, Y., T. Saito, Y. Ito, K. Shiomi, H. Hirose, T., Matsumoto, S. Aoi, S. Hori, and S. Sekiguchi (2011), Spatial distribution and focal mechanisms of aftershocks of the 2011 Mw 9.0 earthquake in eastern Japan, Earth Planet Space, 63, 669-673 . [Link]
73. Shinohara, M., T. Yamada, K. Nakahigashi, S. Sakai, K. Mochizuki, K. Uehira, Y. Ito, R. Azuma, Y. Kaiho, T. No, H. Shiobara, R. Hino, Y. Murai, H. Yakiwara, T. Sato, Y. Machida, T. Shinbo, T. Isse, H. Miyamachi, K. Obana, N. Takahashi, S. Kodaira, Y. Kaneda, K. Hirata, S. Yoshikawa, K. Obara, T. Iwasaki, and N. Hirata (2011), Aftershock observation of the 2011 off the Pacific coast of Tohoku Earthquake by using ocean bottom seismometer network, Earth Planet Space, 63, 835-840. [Link]
74. Tsuji, T., Y. Ito, M. Kido, Y. Osada, H. Fujimoto, J. Ashi, M. Kinoshita, and T. Matsuoka (2011), Potential Tsunamigenic Fault of the 2011 Off-Tohoku Earthquake, Earth Planet Space, 63, 831-834. [Link]
75. Ito, Y., K. Obara, T. Matsuzawa, and T. Maeda (2009),Very-low-frequency earthquakes related to small asperities on the plate boundary interface at the locked to aseismic transition, J. Geophys. Res., 114, B00A13, doi:10.1029/2008JB006036. [Link]
76. Nakamichi, H., H. Kumagai, M. Nakano, M. Okubo, F. Kimata, Y. Ito, and K. Obara (2009), Source mechanism of avery-long-period event at Mt Ontake, central Japan: Response of a hydrothermal system to magma intrusion beneath the summit, J. Vol. Geotherm. Res., 187, 167–177. [Link]
77. Ito, Y., Y. Asano, and K. Obara (2009),Very-low-frequency earthquakes indicate a transpressional stress regime in the Nankai accretionary prism, Geophys. Res. Lett., 36, L20309, doi:10.1029/2009GL039332. [Link]
78. Hino, R., R. Azuma, Y. Ito, K. Suzuki, H. Tsushima, S. Suzuki, M. Miyashita, T. Tomori, M. Arizono, G. Tange (2009), Insight into complex rupturing of the immature bending normal fault in the outer slope of the Japan Trench from aftershocks of the 2005 Sanriku earthquake (Mw = 7.0) located by ocean bottom seismometry, Geochem. Geophys. Geosyst., 10, Q07O18, doi:10.1029/2009GC002415. [Link]
79. Yamamoto, Y., R. Hino, K. Suzuki, Y. Ito,  T. Yamada, M. Shinohara, T. Kanazawa, G. Aoki, M. Tanaka, K. Uehira, G. Fujie, Y. Kaneda, T. Takanami, and T. Sato (2008), Spatial heterogeneity of the mantle wedge structure and interplate coupling in the NE Japan forearc region, Geophys. Res. Lett.. L23304, doi:10.1029/2008GL036100. [Link]
80. Shinohara, M., T. Kanazawa, T. Yamada, K. Nakahigashi, S. Sakai, R. Hino, Y. Murai, A. Yamazaki, K. Obana, Y. Ito, K. Iwakiri, R. Miura, Y. Machida, K. Mochizuki, K. Uehira, M. Tahara, A. Kuwano, S. Amamiya, S. Kodaira, T. Takanami, Y. Kaneda, and T. Iwasaki (2008), Precise aftershock distribution of the 2007 Chuetsu-oki Earthquake obtained by using an ocean bottom seismometer network, Earth Planets Space, 60, 1121–1126. [Download PDF]
81. Asano, Y., K. Obara, and Y. Ito (2008), Spatiotemporal distribution of very-low frequency earthquakes in Tokachi-oki near the junction of the Kuril and Japan trenches revealed by using array signal processing, Earth Planets Space, 60, 871–875. [Download PDF]
82. Shiomi, K., M. Matsubara, Y. Ito,and K. Obara (2008),Simple relationship between seismic activity along Philippine Sea slab and geometry of oceanic Moho beneath southwest Japan, Geophys. J. Int., 173, 1018–1029. [Link]
83. Ito, Y., K. Obara, K. Shiomi, S. Sekine, and H. Hirose (2007), Slow Earthquakes Coincident with Episodic Tremors and Slow slip events, Science, 315, 503-506 (Published online 30 November 2006). [Link]
84. Ito, Y., S. Sekiguchi, T. Okada, R. Honda, K. Obara and S. Hori (2006), Performance of regional distance centroid moment tensor inversion applied to the 2004 mid-Niigata prefecture earthquake, Japan, Geophys. J. Int., 167, 1317-1331. [Link]
85. Matsumura, M., Y. Ito, H. Kimura, K. Obara, S. Sekiguchi, S. Hori, and K. Kasahara (2006), Development of Accurate and Quick Analysis System for Source Parameters (AQUA), Zisin, 59, 167-184 (in Japanese with English abstract)
86. Matsumoto, T., Y. Ito, and H. Matsubayashi (2006)，Spatial Distribution of F-net Moment Tensor Solutions of the Mid Niigata Prefecture Earthquake in 2004，Zisin，58，427-443 (in Japanese with English Abstract) [Download PDF]
87. Ito, Y. and K. Obara (2006), Very low frequency earthquakes within accretionary prisms are very low stress-drop earthquakes, Geophys. Res. Lett., 33, L09302, doi:10.1029/2006GL025883. [Link]
88. Davis, E. E. , K. Becker, K. Wang, K. Obara, Y. Ito, and  M. Kinoshita (2006), A discrete episode of seismic and aseismic deformation of the Nankai trough subduction zone accretionary prism and incoming Philippine Sea plate, Earth Planet. Sci. Lett., 242, 73–84. [Link]
89. Tahara, M., H. Shimizu , M. Nakata and Y. Ito (2006), Focal depth distribution using sP depth phase and implications for plate coupling in the Hyuganada region, Japan, Phys. Earth Planet. Int., 155, 219-235. [Link]
90. Matsumoto, T., Y. Ito, H. Matsubayashi and S. Sekiguchi (2006), Spatial distribution of F-net moment tensors for the 2005 West Off Fukuoka Prefecture Earthquake determined by the extended method of the NIED F-net routine, Earth Planets Space, 58, 63–67. [Download PDF]
91. Ito, Y., K. Obara, T. Takeda, K. Shiomi, T. Matsumoto, S. Sekiguchi, and S. Hori (2006), Initial-rupture fault, main-shock fault, and aftershock faults: Fault geometry and bends inferred from centroid moment tensor inversion of the 2005 west off Fukuoka prefecture earthquake, Earth Planets Space, 58, 69-74. [Download PDF]
92. Ito, Y. and K. Obara (2006), Dynamic deformation of the accretionary prism excites very low frequency earthquakes, Geophys. Res. Lett., 33, L02311, doi:10.1029/2005GL025270. [Link]
93. Nakamura, T, S. Suzuki, H. Sadedhi, S. M. F. Aghda, T. Matsushima, Y. Ito, S. K. Hosseini, A. J. Gandomi, and M. Maleki (2005), Source fault structure of the 2003 Bam earthquake, southerastern Iran, inferred from the aftershock distribution and its relation to the heavily damaged area: existence of the Arg-e-Bam fault proposed, Geophys. Res. Lett., 32, doi:10.1029/2005GL022631. [Link]
94. Obara, K. and Y. Ito (2005), Very low frequency earthquakes exited by the 2004 off the Kii peninsula earthquakes: A dynamic deformation process in the large accreationary prism, Earth Planets Space, 57, 321–326. [Download PDF]
95. Y. Ito, T. Matsumoto, H. Kimura, H. Matsubayashi,K. Obara, and S. Sekiguchi (2005), Spatial distribution of centroid moment tensor solutions for the 2004 off Kii peninsula earthquakes, Earth, Planets Space, 57, 351–356. [Download PDF]
96. Obara, K., Y. Haryu, Y. Ito, and K. Shiomi (2004), Low frequency events occurred during the sequence of aftershock activity of the 2003 Tokachi-Oki earthquake; a dynamic process of the tectonic erosion by subducted seamount, Earth Planets Space, 56, 347–351. [Download PDF]
97. Ito, Y., H. Matsubayashi, H. Kimura, T. Matsumoto, Y. Asano, S. Sekiguchi (2004), Spatial distribution for moment tensor solutions of the 2003 Tokachi-oki earthquake(MJMA=8.0) and aftershocks, Earth Planets Space, 56, 301-306. [Download PDF]
98. Okada, T., N. Umino, Y. Ito, T. Matsuzawa, A. Hasegawa, and M. Kamiya (2001), Source Processes of 15 September 1998 M 5.0 Sendai, Northeastern Japan, Earthquake and Its M 3.8 Foreshock by Waveform Inversion, 2001, Bull. Seismol. Soc. Am. 91, 1607–1618.[Link]
99. Umino, N., Y. Ito, T. Igarashi, and A. Hasegawa (2001), 1964 M6.9 Oga-oki Earthquake: Slip Preceding the 1983 Japan Sea Earthquake ? , Zisin，53, 263–268 (in Japanese) [Download PDF].

著書・翻訳

1. 日本自然災害学会　編　(2022) 自然災害科学・防災の百科事典, 777 pp, 丸善 [分担執筆：プレート内地震, 70-71; 地震の観測, 74-75]
2. ジョアンナ　ミラー/伊藤喜宏(訳）(2017), 海底圧力計が解き明かすスロースリップ,　パリティ, 32(2), 24–27
   
3. NHK「サイエンスZERO」取材班・古村孝志・伊藤喜宏・辻健 (2011), ＮＨＫサイエンスＺＥＲＯ　東日本大震災を解き明かす,132 pp, NHK出版
   

査読なし

1. 伊藤喜宏 (2024), 南海トラフ沿い巨大地震の地震像とスロー地震の関係ーその巨大地震への備え日向けてー, 消防防災の科学, 155, 5-12
2. Yoshihiro Ito (2023), Seismological and geodetic approaches to detect slow earthquakes at the seafloor: "Slow" treasure hunting in open sea, 2023年Conductivity Anomaly 研究会論文集, 1-2.
3. 伊藤喜宏　(2023), SATREPSにおける地震防災分野の国際協力　メキシコ沿岸部の大地震・津波災害の軽減に向けた総合的研究, 日本地震工学会誌, 48, 19–22.
4. 伊藤喜宏・吉岡祥一 (2021), メキシコにおける巨大地震・津波災害の軽減に向けた学際的研究の立ち上げと地震学的成果, 神戸大学都市安全研究センター研究報告, 25, 145-152.
5. 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
   
6. 伊藤喜宏 (2016), 深部低周波微動/低周波地震/超低周波地震ってなんだ？, なゐふる, 106, 2-3.
7. Iinuma, T., R. Hino, M. Kido, Y. Osada, D. Inazu, ,.Y. Ito , S. Suzuki, Y. Ohta, H. Fujimoto (2015), Investigation on the Postseismic Deformation Associated with the 2011 Tohoku Earthquake Based on Terrestrial and Seafloor Geodetic Observations: To Evaluate the Further Seismic Hazard Potential on the Plate Interface Beneath the Northeastern Japanese Islands, in IAG 150 Years, Int. Assoc. Geodesy Symposia, 143, edited by C. Rizos and P. Willis, pp. 459-466, Springer, Switzerland, doi:10.1007/1345_2015_162.
8. 内田直希・加藤愛太郎・伊藤喜宏・太田 雄策 (2014), 発生前に起きていたスロースリップ, なゐふる, 97, 2-3.
9. 伊藤喜宏・望月公廣・Laura Wallace (2014), ニュージーランド・スロースリップ域掘削計画ースロースリップのなぞを解く！ー, 月刊地球, 号外40, 65, 282-287.
10. Yoshihiro Ito (2013), R/V KAIREI Cruise Report KR13-04, Ocean bottom geodetic and thermal observation in the coseismic area of the 2011 Tohoku-Oki earthquake, Chief Scientist: Yoshihiro Ito, JAMSTEC Document Catarog, KR13-04, 35pp.
11. 日野亮太・鈴木健介・伊藤喜宏・金田義行 (2011), 東北地方太平洋沖地震の前震・本震・余震の分布ー海底地震観測による, 科学, 81, 10, 1036–1043.
12. Yoshihiro Ito (2008), YOKOSUKA Cruise Report YK08-06, Detection of Multi-scale Slow earthquakes by using Ocean-bottom  Seismic and Geodetec Observation, Chief Scienctist: Yoshihiro Ito, JAMSTEC Document Catalog, YK08-06.37pp.
13. 伊藤喜宏・廣瀬仁・小原一成 (2007), 千島前弧スリバーの移動により形成される十勝沖陸側地殻内の応力場，月刊地球，29, 307-312.
14. 浅野陽一・小原一成・ 伊藤喜宏(2007), 高感度加速度計アレイによる波動伝播モニタリングと超低周波地震の検出, 月刊地球, 29, 262-267.
15. 伊藤喜宏・松村稔 (2007), AQUAシステム　震源位置および発震機構解の即時推定, なゐふる, 59, 2-3.
16. 伊藤喜宏・小原一成 (2006)，セントロイドモーメントテンソル解析により推定した新潟県中越地震の本震および余震の発震機構，月刊地球，53，42-48．
17. 伊藤喜宏 (2005)，余震の発生機構に関する研究，防災科学技術研究所　研究報告，68，27-89. [Download]
18. 伊藤喜宏・小原一成 (2005)，2003年宮城県沖地震震源域における余震の応力降下量の地域性，月刊地球，307，44-48．
19. 伊藤喜宏・岡田知己・長谷川昭 (2003), 経験的グリーンテンソルを用いた微小地震のメカニズム解推定法の開発，月刊地球，290，637-641．
20. 伊藤喜宏・岡田知己・長谷川昭 (2003), 経験的グリーンテンソル法を用いた微小地震のメカニズム解の推定，東北地域災害科学研究，39,  7-12.
21. Yoshihiro Ito and Masaki Kanao (2003), Seismological Bulletin of Syowa Station, Antarctica, (2001), Japanese Antarctica research expedition, JARE data reports, 272( SEISMOLOGY 37).
22. 岡田知己・海野徳仁・伊藤喜宏・松澤暢・堀修一郎・河野利夫・仁田交市・長谷川昭 (2001), 東北地方地殻浅部で発生した中規模地震の震源過程, 地震研究所彙報, 76, 61-74.
23. 伊藤喜宏・岡田知己・松澤暢・海野徳仁・長谷川昭 (2001), 1998年9月15日仙台市で発生した地震(M5.0)の余震データに基づく応力場の推定, 地震研究所彙報, 76, 51-59.
24. 海野徳仁・堀内茂木・山本 明・松澤 暢・日野亮太・田中 聡・岡田知己・橋本恵一・堀 修一郎・河野俊夫・仁田交市・小野寺 充・中村綾子・浅野陽一・佐竹義美・吉本和生・中原 恒・早川俊彦・長谷川 昭・小菅正裕・渡辺和俊・高野活子・佐藤仙一・根本 信・松岡英俊・長谷見晶子・佐々木克憲・宮森まゆみ・田中健也・三浦英俊・伊東明彦・伊藤喜宏・飯島健徳・渡辺浩之・小原一成・木村尚紀・野口伸一・青井 真・笠原敬司 (1997), 1996年8月11日秋田・宮城県境付近の地震について, 東北地域災害科学研究報告, 33，17-25．
25. 伊東明彦・伊藤喜宏・長谷川昭・笠原稔 (1997), 日光白根山直下で発生している「火山性微動」の特徴, 宇都宮大学教育学部紀要, 47(2), 21-32.

学会発表等(発表者に限る)

1. Ito, Y., S. S. Ohyanagi, R. Plata-Martinez, K. Flores, Y. Chen and K. Kuniyoshi (2023), Effects of Subducting Seamount on Slow and Fast Seismicity in the Guerrero Seismic Gap, Mexico, Mexico, AGU23, T31H-0311 (Dec. 13, 2023, San Francisco)
2. Ito, Y., S. S. Ohyanagi, R. Plata-Martinez, K. Flores, Y. Chen and K. Kuniyoshi (2023), Effects of subducting seamount on slow and fast seismicity in the Guerrero Seismic Gap, Mexico, International Joint Workshop on Slow-to-Fast Earthquake Science 2023, O08 (Sep. 13, 2023, Tokyo)
3. Ito, Y., S. S. Ohyanagi, R. Plata-Martinez, K. Flores, G. E. Solimian (2023), Insights into the relationship between seismicity and relief of the plate interface near the trench at the Guerrero seismic gap, Mexico, JpGU 2023, SCG45-08 (May 24, 2023, Makuhari)
4. Yoshihiro Ito (2023), Insights into the relationship between seismicity and relief of the plate interface near the trench at the Guerrero seismic gap, Mexico, Slow-to-fast Earthquake workshop (March 13,2023, Tainan)
5. 伊藤喜宏 (2022), 海域におけるスロー地震観測のための地震学および測地学的アプローチ, 2022年度 Conductivity Anomaly 研究会（SGEPSS分科会）「海域における地震・火山災害の軽減に資する地球電磁気学的アプローチの探求」(Dec. 26, 2022, 宇治）招待講演
6. Ito,Y., S. Ohyanagi, R. O. Plata-Martinez, E.S.M. Garcia, and K. Flores, The relationship between seismicity and geometry of plate interface near the trench at the western part of Guerrero seismic gap from a recent seafloor experiment, International Joint Workshop on Slow-to-Fast Earthquake 2022, P010)(Sep. 14, 2022, Nara, USA)
7. Ito, Y., (2022), Insights into the occurrence and relationship between seismicity and a relief of plate interface near the trench at the western part of Guerrero seismic gap from a recent seafloor experiment (Aug. 17, 2022, Victoria University of Wellington)
8. Ito, Y., (2022), Slow-to-fast earthquakes and mitigating hazards at plate boundaries: Interdisciplinary work in Mexico and Japan, Mini-Workshop 17 August 2022 Japan/New Zealand collaboration on Slow Slip Research (Aug. 17, 2022, Wellington) Public Lecture
9. Ito, Y., (2022), Comparing surface topography of subducting plates related to seismic gaps in Mexico, Mini-Workshop 17 August 2022 Japan/New Zealand collaboration on Slow Slip Research (Aug. 17, 2022, Wellington)
10. 伊藤喜宏 (2022), コロナ禍での国際研究プロジェクトーメキシコにおける地震・津波災害軽減に向けた学際的研究の推進ー, JpGU2022, U07-05 (May 5, 2022, 幕張)招待講演
11. Ito, Y., , Victor M. Cruz-Atienza, and SATREPS Members, (2021), An interdisciplinary research project for the mitigation of megathrust-earthquake and tsunami disaster in Mexico:SATREPS 2016-2022, RAUGM2021, SE10-05 (Nov 2, 2021, Zoom)
12. Ito, Y., ,E.S.M. Garcia, R.O. Plata-Martinez, S. Ohyanagi., and T. Inoue (2021), An Encouragement of Ocean Bottom Observational Seismology, JpGU 2021, SSS02-10 (June 4, 2021, Zoom) INVITED
13. Ito, Y., , M. Uemura, S. Webb, K. Mochizuki, and S. Henrys (2019), Ambient noise field and temporal changes in seismic interferograms at sea bottom inferred from ocean-bottom seismic and pressure arrays, AGU 2019, S21A-04 (December 10, 2019, San Francisco, USA)
14. Ito, Y., and V. M. Cruz-Atienza (2019), Hazards Assessment of Large Earthquakes and Tsunamis for Disaster Mitigation in the Mexican Pacific Coast “Japan – Mexico SATREPS Project (2016 - 2021)”, RAUGM2019 (October 31, 2019, Puerto Vallaruta, Mexico)
15. Ito, Y., , S. Webb, Y. Kaneko, L. Wallace, and R. Hino (2019), Millihertz ground motion at the seafloor excited by large regional earthquakes , International Conference in Commemoration of 20th Anniversary of the 1999 Chi-Chi Earthquake (September 17, 2019, Taipei, Taiwan) INVITED
16. Ito, Y., , S. Webb, Y. Kaneko, L. Wallace, and R. Hino (2019), Millihertz Ground Motion at the Seafloor Excited by Large Regional Earthquakes, SSA 2019, (April 24, 2019, Seattle, USA)
17. Ito, Y., , S. Webb, Y. Kaneko, L. Wallace, and R. Hino (2018), Ground motion and its ocean bottom amplification in subduction zones, AGU 2018, (December 13, 2018, Washington D.C., USA)
18. Ito, Y., , Y. Kaneko, L. Wallace, S. Henrys, S. Webb, T. Muramoto, K. Ohta, K. Mochizuki, S. Suzuki, M. Kido and R. Hino (2017), Seismic waves triggering slow slip event on the pressure gauge records in the Hikurangi subducting margin, AGU 2017, (December 11, 2017, New Orleans, USA)
19. Ito, Y., , M. Ikari, K. Ujiie and A. Kopf (2017), Slip-dependent weakening on shallow plate boundary fault in the Japan subduction zone: shallow coseismic slip facilitated by foreshock afterslip, EGU 2017, (April 25, 2017, Viena, Wien)
20. Ito, Y., , S. Katakami, K. Ohta, M. Uemura, T. Muramoto, and E. S. M. Garcia (2017), Interaction between slow and fast slips in the Japan Trench: Prospect from near field ocean bottom seismic and geodetic observations, SSA 2017, (April 18, 2017, Denver, CO) INVITED
21. Ito, Y., M. Ikari, K. Ujiie, and A. Kopf (2016),Velocity- and slip-dependent weakening on the Tohoku plate boundary fault: shallow coseismic slip facilitated by foreshock afterslip, AGU 2016, T21C-2827.
22. Ito, Y. (2016), How to use slow earthquakes: Monitering and exploiting slow earthquakes to megathrust event, RAUGM 2016, SE12-2.
23. Ito, Y., and M. Ikari (2016),Two effects of slow earthquakes on large megathrust earthquakes: Triggering and facilitating of coseismic slip, JpGU meeting 2016, SCG21-19.
24. Ito, Y., and M. Ikari (2016),Two effects of slow earthquake to megathrust events: Triggering and facilitating of megathrust slip, AGU Chapman Conference on the Slow Slip Phenomena, (February 21-25, 2016)
25. Ito, Y. (2016), Pre-Earthquake Early Warning: Monitoring Transient Acceleration of Subducting Plates, 2016 AAAS Annual Meeting (February 11-15, 2016).
26. Ito, Y., and M. Ikari (2015), Velocity- and slip-dependent weakening in simulated fault gauge: Implications for coexistence of slow slip with fast slip, AGU 2015, S34-04.
27. Ito, Y., and V. M. Cruz-Atienza (2015), New Collaboration with Japan on disaster mitigation of large earthquake and tsunami hazards in the Guerrero Gap: SATREPS, RAUGM 2015, SE01-01.
28. Ito, Y., R. Hino, S. Suzuki, Y. Kaneda (2015), Small low-frequency tremor coincident with slow slip events near the Japan Trench, JpGU meeting 2015, SSS02-02.
29. Ito, Y. (2015), Very-low-frequency earthquakes in Japan: Its implications on the earthquake physics and seismic hazard, SSA 2015 annual meeting, 86:1B, 658. INVITED
30. Ito, Y., R. Hino, S. Suzuki, Y. Kaneda (2015), Episodic tremor and slip observed near the Japan Trench prior to the 2011 Tohoku-Oki earthquake, International workshop-Tectonic tremor and silent sismicity.
31. Ito, Y., L. Wallace, S. Henrys, K. Mochizuki, C. Williams, R. Hino, H. Ichihara, D. Inazu, S. Suzuki, T. Yagi, T. Kubota, D. Haijima, B. Fry, S. Bannister (2014), Transient crustal deformation doe to slow slip observed on ocean bottom pressure recorders in the Hikurangi  margin, AGU 2014 Fall meeting, T51A-4599.
32. Ito, Y.,  V. M. Cruz-Atienza (2014), An ocean-bottom geodetic and seismic network for assessing the megaearthquake and tsunami hazard ptentials along the Mexican subdcution zone, Reunion Anual 2014, UGM, SE10-4, INVITED.
33. Ito, Y., L. Wallace, S. Henrys, K. Mochizuki, C. Williams, R. Hino, H. Ichihara, D. Inazu, S. Suzuki, T. Yagi, T. Kubota, D. Haijima, B. Fry, S. Bannister (2014), Transient crustal deformation due to slow slip observed on ocean bottom pressure recorders in the Hikurangi margin, 日本地震学会2014年度秋季大会, A21-06.
34. 伊藤喜宏・小平秀一・望月公廣・Laura Wallace・Demian Saffer・Stuart Henrys・Phil Barnes・Mike Underwood・Nathan Bangs (2014),　ニュージーランド・スロースリップ掘削計画, 日本地質学会第121年学術大会, T8-O-12.
35. Ito, Y., R. Hino, S. Suzuki, S. Miura, Y. Kaneda (2014), Episodic tremor and slip occurred near the Japan trench prior to the 2011 Tohoku-oki earthquake, AOGS2014, SE20-A021.
36. Ito, Y., R. Hino, and M. J. Ikari (2013) Comparison of two shallow episodic tremor and slip events within the coseismic slip area of the 2011 Tohoku-Oki earthquake, AGU 2013 Fall meeting, S41B-2432
37. Ito, Y., and R. Hino (2013), Velocity reduction in an offshore region after the 2011 Tohoku-Oki earthquake, revealed from ocean-bottom seismic recoreds, The 11th SEGJ International Symposium in Yokohama, 22.
38. 伊藤喜宏・望月公廣・日野亮太・木戸元之・塩原肇・鈴木秀市・八木健夫・篠原雅尚・小原一成•Laura Wallace・Stuart Henrys・ Bill Fry・ Stephen Bannister (2013), ニュージーランド・ヒクランギ沈み込み帯における海底圧力計を用いたスロースリップ観測, 日本地震学会2013年度秋季大会, C21-12.
39. 伊藤喜宏 (2013)，スロー地震：高間隙水圧下にある断層のゆっくり破壊，日本地質学会第120年学術大会，R4-O-19. （招待講演）
40. 伊藤喜宏 (2013)，冷湧水域下で発生した日本海溝スロースリップと2011年東北地方太平洋沖地震，日本地質学会第120年学術大会，T4-O-10.
41. Ito, Y., R. Hino, S. Suzuki, Y. Kaneda (2013), Shallow episodic tremor and slip near the Japan Trench before the 2011 Tohoku-Oki earthquake, JpGU 2013 Meeting, SSS01-16.
42. Ito, Y., R. Hino, M. Kido, H. Fujimoto, Y. Osada, D. Inazu, Y. Ohta, T. Iinuma, M. Ohzono, M. Mishina, S. Miura, K. Suzuki, T. Tsuji, J. Ashi (2012), Episodic slow slip events in the Japan subduction zone before the 2011 Tohoku-Oki earthquake, AGU 2012 Fall meeting, T21F-01.
43. Ito, Y., 2012, Reconstruction of Deep-reflected Imaging from Autocorrelogram of Ambient Noise, 2nd Neustadt Workshop on Noise and Diffuse Wavefields.
44. Ito, Y., C. Chujo, H. Nakahara, R. Hino (2012), Detection of seismic velocity changes associated with the 2005 M7.2 Miyagi-Oki earthquake, NE, Japan, by auto correlation analysis of seafloor ambient Noise, ESC 2012, ES2:08.
45. 伊藤喜宏・芝崎文一郎・柄谷和輝・日野亮太・中島淳一 (2012), 有限要素法に基づく2011年東北地方太平洋沖地震による地殻内変形， 日本地球惑星科学連合2012年大会, SSS39-06.
46. 伊藤喜宏・Moore Gregory・小原一成・浅野陽一 (2012), 南海トラフの浅部超低周波地震と付加体内構造， 日本地球惑星科学連合2012年大会, SCG72-P10.
47. 伊藤喜宏・日野亮太・木戸元之・藤本博己・長田幸仁・稲津大祐・三浦哲・太田雄策・内田直希・辻健・芦寿一郎・三品 正明 (2012), 2011年東北地方太平洋沖地震発生前のスロースリップイベント， 日本地球惑星科学連合2012年大会, SCG63-01.（招待講演）[ハイライト論文]
48. Ito, Y., K. Chujo, R. Hino, T. Yamada, M. Shinohara, Y. Murai (2011), Singular value decomposition images calculated from autocorrelation functions of ambient noise detected by ocean-bottom seismometers in the Japan subduction zone, AGU2011 Fall meeting, S31F-08.
49. Ito, Y., T. Tsuji, Y. Osada, M. Kido, D. Inazu, Y. Hayashi, H. Tsuhima, R. Hino, and H. Fujimoto (2011), Frontal wedge deformation near the source region of the 2011 Tohoku-Oki earthquake, AGU 2011 Fall meeting, T11C-02, INVITED
50. 伊藤喜宏・辻健・長田幸仁・木戸元之・稲津大祐・林豊・対馬弘晃・日野亮太・ 藤本博己 (2011), 震源域直上の海底圧力観測に基づく2011年東北地方太平洋沖地震に伴う海溝付近の地震時すべり，日本地震学会2011年度秋季大会, A22-01.
51. Ito, Y., Y. Osada, R. Hino, H. Fujimoto, D. Inazu, S. Miura, N. Uchida, M. Kido, T. Tsuji, J. Ashi, Y. Ohta, M. Mishina (2011), Transient slow slip event in the Japan Trench, AOGS 2011, SE71-A006.
52. Ito, Y., H. Fujimoto, R. Hino, M. Kido, Y. Ohta, Y. Osada, T. Iinuma, D. Inazu (2011), The Mw 9.0 Tohoku-Oki earthquake and implications for global subduction zone hazards –Seismic implication–, IODP Workshop on “Using Ocean Drilling to Unlock the Secrets of Slow Events”, Gisborne, New Zealand.
53. Ito, Y., K. Shiomi, J. Nakajima & R. Hino (2011) Autocorrelation analysis of ambient noise in the northeastern Japan subduction zone, IUGG 2011, 2363.
54. 伊藤喜宏・長田幸仁・稲津大祐・日野亮太・対馬弘晃・太田雄策・木戸元之・藤本博己 (2011), 2011年東北地方太平洋沖地震の震源域直上における海底圧力観測， 日本地球惑星科学連合2011年大会, MIS036-P12.
55. 伊藤喜宏・汐見勝彦・中島淳一・日野亮太 (2011), ノイズ自己相関解析に基づく東北日本の深部地震波反射構造, 日本地球惑星科学連合2011年大会, SSS027-03.
56. 伊藤喜宏・小原一成，(2010), 沈み込み帯における超低周波地震，日本地震学会2010年秋季大会, B22_10,
57. 伊藤喜宏・芝崎文一郎・柄谷和輝 (2010), 有限要素法を用いた南海トラフ付加体内部の応力場の推定, 日本地震学会2010年秋季大会, P1-09.
58. 伊藤喜宏・稲津大祐・長田幸仁・三浦哲・内田直希・大園真子・木戸元之・太田雄策・三品正明・日野亮太・藤本博己・辻健・芦寿一郎 (2010), 海底観測および陸上観測で捉えた日本海溝のゆっくり地震, 日本測地学会第114回講演会, 47.
59. Ito, Y., Chujo, K., Takagi, R., Hino, R., Suzuki, S., Yamada, T., Shinohara, M., Kanazawa, T., Murai, Y., and Shiomi, K., and Obara K, Autocorrelation analysis of ambient noise in NE Japan, 14th International Symposium on Deep Seismic Profiling of the Continents and their Margins.
60. Ito, Y., Y. Osada, M. Kido, D. Inazu, N. Uchida,R. Hino,H. Fujimoto,S. Suzuki, H. Tsushima, R. Azuma, K. Suzuki, S. Koga,S. Ii,T.  Tsuji,N. Nakayama, and J. Ashi (2010),Ocean-bottom seismic and geodetic observations of transient slow slip events in the Japan Trench, AGU, 91(26), West. Pac. Geophys. Meet. Suppl., Abstract S53C-03.
61. 伊藤喜宏・長田幸仁・稲津大祐・内田直希・日野亮太・藤本博己・鈴木秀市・対馬弘晃・東龍介・鈴木健介，古賀祥子，猪井志織，辻健，中山典子，芦寿一郎 (2010), 海底圧力・地震計を用いた日本海溝陸側斜面下のゆっくり地震の観測, 日本地球惑星科学連合2010年大会, SSS014-06.
62. 伊藤喜宏・中条恒太・高木涼太・日野亮太・鈴木秀市・山田知朗・篠原雅尚・金沢敏彦・村井芳夫・汐見勝彦，小原一成 (2010), 自己相関解析による東北日本沈み込み帯の地震波速度不連続面の検出, 日本地球惑星科学連合2010年大会, SSS015-08.
63. 伊藤喜宏・日野亮太・鈴木秀市・山田知朗・篠原雅尚・金沢敏彦 (2009), 海底地震計記録を用いた地震波干渉法による日本海溝陸側斜面下の不均質構造推定の試み, 日本地震学会 2009年秋季大会, B11-04．
64. 伊藤喜宏・浅野陽一・小原一成, 南海トラフ付加体内部の応力場逆解析(2009), 日本地質学会 2009年大会, S-5 （招待講演）．
65. 伊藤喜宏・浅野陽一・小原一成 (2009), 超低周波地震のメカニズム解に基づく付加体内部の応力場，日本地球惑星科学連合2009年大会, T224-005.
66. 伊藤喜宏・藤本博己・日野亮太・木戸元之・長田幸仁・鈴木秀市・山本揚二朗・東龍介・対馬弘晃・鈴木健介・辻健・中山典子・芦寿一郎・蒲生俊敬 (2009), 日本海溝におけるゆっくり地震検出のための海底地震・測地および湧水観測, Blue Earth 2009, BE09-P73.
67. Yoshihiro Ito, Kazushige Obara, Takanori, Matsuzawa, and Takuto Maeda, (2008) Very-low-frequency earthquakes accompanied with episodic tremors and slips on the plate boundary in the transition zone from locked to aseismic interface, AGU 2008 Fall meeting, U33A-0027.
68. Yoshihiro Ito, Kazushige Obara, Youichi Asano, Hiromi Fujimoto, Ryota Hino, Juichiro Ashi, and Takeshi Tsuji (2008) Shallow very-low-frequency earthquakes around Japan; Recent studies and observation, AGU 2008 Fall meeting, T22B-06, INVITED.
69. Ito, Y., H. Fujimoto, R. Hino, M. Kido, Y. Osada, Y. Yamamoto, S. Suzuki, R. Azuma, H. Tsushima, K. Suzuki, T. Tsuji, N. Nakayama, J. Ashi and T. Gamo, Seismological, geodetical, and cold-seepage observations for detection of slow earthquakes along Japan Trench, ASC General Assembly and SSJ Fall Meeting 2008, Nov. 24-27, 2008, Tsukuba, Japan.
70. Yoshihiro Ito and Kazushige Obara (2008) Very-low-frequency earthquake within accretionary prism along Nankai Trough, Margin SEIZE Workshop The next decade of the Seismic Zone Experiment, Mt. Hood Oregon, INVITED
71. 伊藤喜宏・藤本博己・日野亮太・木戸元之・長田幸仁・鈴木秀市・山本揚二朗・東龍介・対馬弘晃・鈴木健介・辻健・中山典子・芦寿一郎・蒲生俊敬(2008), 日本海溝におけるゆっくり地震検出のための海底地震・測地および湧水観測ーYK08-06航海の概要と成果ー，日本地質学会 2008年大会, P-53．
72. Yoshihiro Ito, Makoto Matsubara and Junichi Nakajima (2008), Seismicity and tomography along Japan Trench revealed by Hybrid method for hypocenter determination using waveform and travel time, 13th International Symposium on Deep seismic Profiling of the Continents and their Margins.
73. 伊藤喜宏・飯沼卓史・松原誠・小原一成 (2008) ハイブリッドモーメントテンソル解析による日本海溝陸側斜面下の地震活動, 日本地球惑星科学連合2008年大会, S143-005.
74. Yoshihiro Ito, Yojiro Yamamoto, Kensuke Suzuki, Ryota Hino, Makoto Matsubara, and Kazushige Obara (2007) Performance of the hybrid method for waveform and travel-time analyses based on a comparison with the hypocenters calculated from the ocean-bottom-seismometer network, AGU 2007 Fall Meeting, S13F-04.
75. 伊藤喜宏・山本揚二朗・鈴木健介・日野良太・松原誠・小原一成 (2007) 海底地震観測網による震源との比較に基づく波形・走時ハイブリッドモーメントテンソル解析法の検証, 日本地震学会講演予稿集2007年度秋季大会，D11-01.
76. Yoshihiro Ito, and Kazushige Obara, (2007) Slow earthquakes in the Nankai subduction zone, The 21 Century COE International Symposium, Sendai.
77. 伊藤喜宏・小原一成 (2007) 西南日本の付加プリズムで発生する超低周波地震, 南海トラフ巨大地震発生帯の掘削科学（IODP), 東京
78. Yoshihiro Ito, Takuto Maeda, and Kazushige Obara (2007) Deep very low-frequency earthquakes coincident with Non-Volcanic deep tremors and slow slip events, IUGG 2007,  6205
79. 伊藤喜宏・松原誠・関口渉次・小原一成 (2007)，波形・走時ハイブリッドモーメントテンソル解析で決定した震源に基づく地震波速度トモグラフィー，日本地球惑星科学連合2007年大会，S231-P008
80. 伊藤喜宏・前田拓人・小原一成 (2007)，西南日本の沈み込み帯で発生する深部超低周波地震，日本地球惑星科学連合2007年大会，S229-016（招待講演）．
81. Yoshihiro Ito and Kazushige Obara (2006), Very-low-frequency earthquakes within the accretionary prism and in the transition zone along the Nankai subduction zone, AGU 2006 Fall Meeting, V52A-08 INVITED.
82. Yoshihiro Ito and Kazushige Obara (2006), Detection of very-low-frequency earthquakes coincident with episodic tremors and slow slip events in the transition zone of the subducting plate interface,  AGU 2006 Fall Meeting, T41A-1537.
83. 伊藤喜宏•浅野陽一•小原一成•松本拓己 (2006)，準リアルタイムモーメントテンソル解析による超低周波地震モニタリング, 日本地震学会講演予稿集2006年度秋季大会, P114.
84. 伊藤喜宏•小原一成•汐見勝彦•関根秀太郎•廣瀬仁 (2006), 沈み込むプレート境界遷移領域で発生する超低周波地震, 日本地震学会講演予稿集2006年度秋季大会, A012.
85. Yoshihiro Ito, Kazushige Obara, and Youichi Asano (2006), Very-low-frequency earthquakes within the accretionary wedge along the Nankai Trough, 6th Joint Meeting of UJNR Panel on Earthquake Research, P14.
86. Yoshihiro Ito, Kazushige Obara, Tesuya Takeda, and Keiji Kasahara (2006), Relationshiop between shallow seismicity and seafloor topography—accretionary prism earthquake and outer-rise earthquake—, 12th International Symposium on Deep seismic Profiling of the Continents and their Margins, ACM-P08.
87. 伊藤喜宏•小原一成 (2006), 付加プリズムで発生する超低周波地震ー付加体地震ー，日本地質学会 2006年大会, S-28(招待講演)．
88. Yoshihiro Ito and Kazushige Obara (2006), Very low frequency earthquakes excited by dynamic deformation of accretionary wedge, 2006 Western Pacific Geophysics Meeting, T14B-03 INVITED.
89. 伊藤喜宏・小原一成・関口渉次 (2006)，千島前弧スリバーの移動により形成される十勝沖陸側地殻内の応力場，日本地球惑星科学連合2009年大会，T224-009．
90. 伊藤喜宏・笠原敬司・武田哲也・小原一成 (2006)，海洋性地殻内で発生する正断層型地震と地塁・地溝構造，日本地球惑星科学連合2007年大会，T146-003．
91. Yoshihiro Ito and Kazushige Obara, (2005), Dynamic deformation of the accretionary prism excites very-low-frequency earthquakes, AGU 2005 Fall Meeting, T11B-0364.
92. 伊藤喜宏・小原一成・岡田知己・関口渉次(2005)，稠密広帯域地震観測網を用いたセントロイドモーメントテンソル解析とその精度，日本地震学会講演予稿集2005年度秋季大会，P135．
93. 伊藤喜宏・小原一成(2005)，南海トラフの付加体内で発生する超低周波地震の応力降下量，日本地震学会講演予稿集2005年度秋季大会，C021．
94. 伊藤喜宏・松村稔・汐見勝彦・針生義勝・中川茂樹・浅野陽一・木村尚紀・関根秀太郎・武田哲也・林広樹・廣瀬仁・松林弘智・松原誠・松本拓己・小原一成・関口渉次・堀貞喜・笠原敬司(2005)，即時高精度震源パラメータ解析システム(AQUA)の2005年福岡県西方沖の地震への適用，地球惑星科学関連学会2005年合同大会予稿集，X113-P026．
95. 伊藤喜宏・長谷川昭・小原一成 (2005)，余震の発生機構ー主断層面内と面外の余震の発震機構解の空間的特徴ー，地球惑星科学関連学会2005年合同大会予稿集，s052-004．
96. 伊藤喜宏・小原一成 (2005)，南海トラフ付近で発生する超低周波地震のCMT解析，地球惑星科学関連学会2005年合同大会予稿集，J036-011．
97. 伊藤喜宏・松本拓己・木村尚成・松林弘智・浅野陽一・関根秀太郎・松原誠・関口渉次・小原一成 (2004)，2004年９月紀伊半島南東沖の地震ー防災科研広帯域データによるモーメントテンソル解析と周辺の地震活動ー，日本地震学会講演予稿集2004年度秋季大会，PK30．
98. 伊藤喜宏・小原一成 (2004)，南海トラフ付近で発生する超低周波地震のモーメントテンソル解，日本地震学会講演予稿集2004年度秋季大会，A024．
99. 伊藤喜宏・松林弘智・木村尚成，松本拓巳，浅野陽一，関口渉次，小原一成，廣瀬仁 (2004)，2003年十勝沖地震（Mj8.0）震源域における余震のモーメントテンソル解の特徴的空間分布，地球惑星科学関連学会200４年合同大会予稿集，S044-013．
100. Yoshihiro Ito, Kazushige Obara, Akira Hasegawa, and Yuji Yagi (2003), Spatial Variation of Aftershock Stress Drops in the focal Area of the 2000 Western Tottori Earthquake (Mw=6.6), AGU 2003 Fall Meeting, S52K-05.
101. 伊藤喜宏・小原一成・長谷川昭・八木勇治 (2003)，余震の応力降下量の空間変化ー2003年鳥取県西部地震余震域ー，日本地震学会講演予稿集2003年度秋季大会，B028．
102. 伊藤喜宏・汐見勝彦・関根秀太郎・針生義勝・八木勇治・浅野陽一，小原一成 (2003)，防災科研Hi-netを使用した余震の応力降下量の推定，日本地震学会講演予稿集2003年度秋季大会，P181．
103. Yoshihiro Ito, Tomomi Okada, Akira Hasegawa, and  Kazushige Obara  (2003), Estimation of focal mechanisms of microearthquakes using empirical Green tensor, , IUGG2003 Sapporo Japan Program & Abstracts, SS01/03A/D-019 .
104. 伊藤喜宏・岡田知己・長谷__ｺ・小原一成 (2003)，経験的グリーンテンソル法により求めた鳥取県西部地震余震域のメカニズム解の空間分布，地球惑星科学関連学会2003年合同大会予稿集，S052-P003．
105. 伊藤喜宏・岡田知己・長谷川昭 (2002), 経験的グリーンテンソル法を用いた微小地震のメカニズム解の推定—稠密観測網のデータを用いた手法の検証—, 日本地震学会講演予稿集2002年度秋季大会, A66.
106. Yoshihiro Ito, Tomomi Okada, Toru Matsuzawa, Akihiko Ito, Norihito Umino, and Akira Hasegawa (1999), Moment tensor inversion for microearthquakes using empirical Green’s function derivatives, AGU 1999 Fall Meeting, T41B-01.
107. 伊藤喜宏・岡田知己・松澤暢・海野徳仁・長谷川昭・前田憲二 (1999), 経験的グリーンテンソル法により推定した1998年９月１５日仙台市の地震（M5.0）の余震の発生機構, 日本地震学会講演予稿集1999年度秋季大会, A61.
108. 伊藤喜宏・岡田知己・海野徳仁・長谷川昭 (1999), 経験的グリーンテンソルを用いた微小地震のモーメントテンソルインバージョン, , 地球惑星科学関連学会1999年合同大会予稿集, Se-007.
109. 伊藤喜宏・岡田知己・海野徳仁・長谷川昭・石川由季子・渡辺浩行・伊東明彦 (1998), 1998年８月３日福島県西郷村に発生した地震（M4.9）の余震のメカニズム解, 日本地震学会講演予稿集1998年度秋季大会, B44.
110. 伊藤喜宏・伊東明彦・長谷川昭・笠原稔 (1998), 短周期地震計を用いた波形インバージョンによる日光足尾地域の微小地震のメカニズム解, 地球惑星科学関連学会1998年合同大会予稿集, Sc-030.
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