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）
令和7年度（2025年度）成果論文等一覧
成果報告システムでご報告いただいた成果論文等をリストにしています。
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番号	タイトル等	doi	査読	謝辞
1	Agata, R., S. Baba, A. Nakanishi, and Y. Nakamura, 2025, HypoNet Nankai rapid hypocenter determination tool for the Nankai Trough subduction zone using physics-informed neural networks, Seismological Research Letters, 97(1), 524–536	doi:10.1785/0220240377	査読有
2	Aizawa, K., D. Muramatsu, K. Tsukamoto, Y. Teguri, T. Koyama, M. Utsugi, W. Kanda, T. Inomata, H. Shigematsu, and H. Shimizu, 2026, Trans-crustal magma plumbing system of Kirishima volcanic complex as inferred from dense broad-band magnetotelluric observations, Earth Planets and Space, 78, 43	doi:10.1186/s40623-026-02390-2	査読有	謝辞有
3	Aizawa, K., Y. Yamamoto, A. Wakabayashi, D. Muramatsu, S. Aniya, H. Tanabe, S. Fujita, S. Azusa, T. Koyama, I. Shiozaki, and M. Ichiki, 2025, Three-dimensional resistivity structure beneath Beppu and Yufuin geothermal fields imaged by dense broad-band magnetotelluric observations, Earth Planets and Space, 77, 159	doi:10.1186/s40623-025-02291-w	査読有	謝辞有
4	Akuhara, T., K. Shiraishi, T. Tsuji, Y. Yamashita, H. Sugioka, A. H. Farazi, S. Ohyanagi, Y. Ito, R. Arai, E. Araki, G. Fujie, Y. Nakamura, T. Tonegawa, R. Azuma, R. Hino, K. Mochizuki, S. Takemura, T. Yamada, and M. Shinohara, 2026, Structural barriers control the spatial extent of slow earthquake slip, Nature Communications, 17, 1431	doi:10.1038/s41467-025-68179-1	査読有	謝辞有
5	Akuhara, T., M. Shinohara, T. Yamada, R. Azuma, R. Hino, K. Obana, T. Takahashi, G. Fujie, S. Kodaira, Y. Murai, H. Baba, Y. Yamashita, and H. Yakiwara, 2025, Non-double-couple components of the 2024 Noto earthquake aftershocks: influence on focal mechanism estimation, Earth Planets and Space, 77, 145	doi:10.1186/s40623-025-02279-6	査読有
6	Ando, R., Y. Fukushima, K. Yoshida, and K. Imanishi, 2025, Nonplanar 3D fault geometry controls the spatiotemporal distributions of slip and uplift: Evidence from the Mw 7.5 2024 Noto Peninsula earthquake, Japan, Earth Planets and Space, 77, 53	doi:10.1186/s40623-025-02187-9	査読有	謝辞有
7	Arai, R., K. Shiraishi, Y. Nakamura, G. Fujie, A. Kioka, M. Kinoshita, and R. Fukuchi, 2025, Prevalence of mud diapirs in the Hyuga-nada subduction zone southwest Japan and its implications on hydrogeological processes, Progress in Earth and Planetary Science, 12, 16	doi:10.1186/s40645-025-00692-9	査読有
8	Asano, K. and T. Iwata, 2025, Source rupture process of the Mw 6.2 earthquake in the Noto Peninsula, central Japan, on May 5, 2023, Earth Planets and Space, 77, 54	doi:10.1186/s40623-025-02186-w	査読有	謝辞有
9	Azua, K., S. Ide, S. Yano, S. Ruiz, H. Sugioka, H. Shiobara, A. Ito, M. Miller, and H. Iwamori, 2025, Shallow tectonic tremors reveal the beginning of the slab window at the Chilean Triple Junction, Geophysical Research Letters, 52, e2025GL115019	doi:10.1029/2025GL115019	査読有
10	Baba, S., E. Araki, and T. Hori, 2025, Shallow tremors near the Nankai Trough activated after the M 7.6 Noto Peninsula earthquake, Geophysical Research Letters, 52, e2025GL118973	doi:10.1029/2025GL118973	査読有
11	Bagiya, M., H. Paul, S. K. Rajewar, V. K. Gahalaut, and K. Heki, 2025, Strong Rayleigh wave radiation toward southwest from ionospheric observations of the 2023 Kahramanmaras, Turkiye, earthquake doublet, Geophysical Research Letters, 52, e2024GL112923	doi:10.1029/2024GL112923	査読有
12	Bantidi, T. M., T. Nishimura, K. Z. Nanjo, B. Enescu, T. Ishibe, and G. M. Tuluka, 2025, What triggered the 2021 eruption at Nyiragongo Volcano (D.R. Congo)? Unraveling the complex interplay between tectonism and magmatism, Journal of Volcanology and Geothermal Research, 467, 108429	doi:10.1016/j.jvolgeores.2025.108429	査読有
13	Bantidi, T. M., T. Nishimura, T. Ishibe, B. Enescu, and G. M. Tuluka, 2025, Variability of epidemic-type aftershock-sequence parameters and relation to physical processes for earthquakes in Africa, Earth, Planets and Space, 77, 29	doi:10.1186/s40623-025-02151-7	査読有
14	Bassett, D., S. Henrys, B. Tozer, H. van Avendonk, A. Gase, N. Bangs, S. Kodaira, D. Okaya, K. Jacobs, R. Sutherland, H. Seebeck, D. Baker, G. Fujie, R. Arai, A. Seaward, K. Mochizuki, M. Savage, T. Stern, and T. Lucke, 2025, Crustal structure of the Hikurangi subduction zone revealed by four decades of onshore–offshore seismic data: Implications for the dimensions and slip behavior of the seismogenic zone, Journal of Geophysical Research: Solid Earth, 130	doi:10.1029/2024JB030268	査読有
15	Bonfrisco, M., V. Coviello, G. Vignoli, S. Miyata, M. Piantini, M. Engel, R. Nadalet, R. Dinale, and F. Comiti, 2025, Temporal variability of bedload vs. suspended sediment load and respective hysteresis cycles in a glacier-fed Alpine river, Journal of Hydrology, 660, 133215	doi:10.1016/j.jhydrol.2025.133215	査読有
16	Chang, Y., R. Wang, P. Han, J. Wang, M. Miao, Z. Zeng, W. Wu, C. Jiang, L. Meng, H. Shi, and K. Hattori, 2025, b-value evaluation and applications to seismic hazard assessment, Entropy, 27(9), 958	doi:10.3390/e27090958	査読有
17	Chen, A.-T., H.-F. Lee, Y. Sano, N. Takahata, T. Kagoshima, Y.-C. Lai, C.-H. Lin, and C.-H. Lo, 2025, Temporal evolution of the hydrothermal system in the Tatun volcano group: Insights into potential volcanic activity, ACS Earth and Space Chemistry, 9, 2466–2483	doi:10.1021/acsearthspacechem.5c00233	査読有
18	Chen, F., D. Wang, S. Xu, B. Yan, J. Zhang, Y. Guo, D. Yao, J. Zhuang, G. Suárez, and P. Shearer, 2025, Bi-segment fault rupture and long-lasting intraslab aftershock activity during the 2017 Mw 8.2 Tehuantepec, Mexico earthquake, Journal of Geophysical Research: Solid Earth, 130, e2024JB030699	doi:10.1029/2024jb030699	査読有
19	Chen, H., P. Han, J. Zhuang, K. Hattori, M. Miao, K. Hu, and T. Tao, 2025, On solar–terrestrial interactions: Correlation between intense geomagnetic storms and global strong earthquakes, Geophysical Research Letters, 52, e2024GL108590	doi:10.1029/2024GL108590	査読有
20	Chen, Y., K. Takahashi, A. Tanabe-Ishibashi, N. Miura, and M. Sugiura, 2026, Neural evaluation of educational videos: Potential disadvantage of combining hazard-mechanism explanation and evacuation instruction messages, Journal of Disaster Research, 21(1), 33–45	doi:10.20965/jdr.2026.p0033	査読有	謝辞有
21	Chen, Y., Y. Ito, R. Plata-Martinez, L. A. Dominguez, S. Ohyanagi, E. S. Garcia, K. Flores, V. M. Cruz-Atienza, M. Shinohara, and Y. Yamashita, 2025, New insight into slow earthquake activities from continuous ocean bottom seismometers at the Guerrero seismic gap, Mexico, Geophysical Journal International, 241(1), 511–525	doi:10.1093/gji/ggaf057	査読有
22	Chida, Y., T. Takagawa, K. Suzuki, and N. Tsuruta, 2025, Soliton fission at Iida Port during the 2024 Noto Peninsula earthquake tsunami: A numerical analysis of dispersion effects and complex propagation processes, Coastal Engineering Journal	doi:10.1080/21664250.2025.2563435	査読有	謝辞有
23	Conway, C. E., A. T. Calvert, O. Ishizuka, S. Yamasaki, I. Miyagi, Y. Harigane, and G. S. Leonard, 2026, Prolonged cooling of andesitic–dacitic lava flows produces optimal groundmass material for 40Ar/39Ar dating, Chemical Geology, 705, 123268	doi.org/10.1016/j.chemgeo.2026.123268	査読有
24	Cruz-Atienza, V. M., J. Tago, L. A. Domínguez, V. Kostoglodov, Y. Ito, E. Ovando-Shelley, T. Rodríguez-Nikl, R. González, S. Franco, D. Solano-Rojas, J. Beltrán-Gracia, P. Miranda-García, F. Boudin, L. Rivera, A. Bécel, C. Villafuerte, J. Real, E. Kazachkina, and A. Ronquillo, 2025, Seafloor geodesy unveils seismogenesis of large subduction earthquakes in Mexico, Science Advances, eadu8259	doi:10.1126/sciadv.adu8259	査読有
25	Dhar, S., Y. Takada, and J. Muto, 2025, Inferring 3-D rheology of low-viscosity zone around Quaternary volcanoes of NE Japan from postseismic deformation of the 2011 Tohoku-Oki earthquake, Journal of Geophysical Research: Solid Earth, 130, e2024JB029939	doi:10.1029/2024JB029939	査読有	謝辞有
26	Diba, D., H. Song, M. Uyeshima, and Y. Usui, 2025, Three-dimensional magnetotelluric inversion with structurally guided regularization constraint, Physics of the Earth and Planetary Interiors	doi:10.1016/j.pepi.2025.107333	査読有
27	Doll, P., B. M. Kennedy, A. R. L. Nichols, J. W. Cole, D. B. Townsend, S. R. Eaves, C. E. Conway, G. S. Leonard, and J. Davidson, 2025, Postglacial effusive activity at Mt. Ruapehu, Aotearoa New Zealand: Lava flow volumes and eruptive rate, Journal of Volcanology and Geothermal Research, 468, 108435	doi.org/10.1016/j.jvolgeores.2025.108435	査読有
28	Dong, Z., X. Liu, D. Zhao, and S. Zhao, 2025, Oceanic subduction and craton underthrusting beneath the Bolivian orocline in the Central Andes: Insight from anisotropic tomography, Geophysical Journal International, 241, 1763-1780	doi:10.1093/gji/ggaf123	査読有	謝辞有
29	Ebina, Y., Y. Yamanaka, T. Murata, Y. Kano, and A. Katagiri, 2025, Elucidating earthquake and volcanic phenomena based on Japanese historical and archaeological data, Journal of Disaster Research, 20(2), 160–169	doi:10.20965/jdr.2025.p0160	査読有	謝辞有
30	Enomoto, Y., K. Heki, T. Yamabe, and H. Kondo, 2025, Unusual iridescent clouds observed prior to the 2008 Wenchuan earthquake and their potential link to preseismic activity, Atmosphere, 16(5), 549	doi:10.3390/atmos16050549	査読有
31	Flores, P. C. M., S. Kodaira, K. Shiraishi, G. Fujie, Y. Nakamura, and R. Arai, 2026, Extensive fluid overpressure in the shallow slow earthquake zone of the Nankai Trough off Muroto mapped with high-resolution P-wave velocity, Scientific Reports, 16, 7636	doi:10.1038/s41598-026-38308-x	査読有
32	Flores‑Ibarra, K., V. Hjörleifsdóttir, S. K. Singh, A. Iglesias, X. Pérez‑Campos, and Y. Ito, 2025, The complex and long‑duration 18 April 2002 Mw 6.7 near‑trench earthquake in the Guerrero seismic gap, Mexico, Geophysical Journal International, 242(2)	doi:10.1093/gji/ggaf225	査読有
33	Fukuda, J., and S. Barbot, 2025, Ensemble Kalman inversion for spatially varying rheological parameters in a stress-driven model of postseismic deformation, Geophysical Journal International, 242(2), ggaf208	doi:10.1093/gji/ggaf208	査読有	謝辞有
34	Fukui, N., T. Miyashita, T. Yasuda, and N. Mori, 2025, Numerical analysis of local tsunami heights and arrival times of the 2024 Noto Peninsula tsunami, Coastal Engineering Journal, 1–14	doi:10.1080/21664250.2025.2464427	査読有	謝辞有
35	Fukushima, R., M. Kano, K. Hirahara, M. Ohtani, K. Im, and J.-P. Avouac, 2025, Physics-informed deep learning for estimating the spatial distribution of frictional parameters in slow slip regions, Journal of Geophysical Research: Solid Earth, 130, e2024JB030256	doi:10.1029/2024JB030256	査読有
36	Fukushima, S., M. Shinohara, T. Yamada, R. Hino, R. Azuma, Y. Ito, Y. Yamashita, and H. Takano, 2025, Enhanced P-wave velocity imaging by marine airgun-source seismic surveys with distributed acoustic sensing, Scientific Reports, 15, 18111	doi:10.1038/s41598-025-01190-0	査読有
37	Furukawa, M., B. A. Verberne, S. Sawa, H. Nagahama, M. Takahashi, O. Plümper, and J. Muto, 2025, The brittle–plastic transition in quartz–albite mixtures: New insights from shear deformation experiments at mid- to lower-crustal depth conditions, Journal of Geophysical Research: Solid Earth, 130, e2025JB031249	doi:10.1029/2025JB031249	査読有	謝辞有
38	Ge, L., 2025, A theoretical assessment of long-term gravity variations induced by large earthquakes a case study toward next-generation satellite gravimetry, 東京大学大学院理学系研究科 修士論文 2025/9
39	Gentili, S., G. D. Chiappetta, G. Petrillo, P. Brondi, and J. Zhuang, 2025, Forecasting strong subsequent earthquakes in Japan using an improved version of the NESTORE machine learning algorithm, Geoscience Frontiers, 16, 102016	doi:10.1016/j.gsf.2025.102016	査読有
40	Ghita, C., B. Enescu, A. Marinus, I.-A. Moldovan, C. Ionescu, E. G. Constantinescu, and L. An, 2025, Aftershock analysis and forecasting for the crustal seismicity in Romania, Earth, Planets and Space, 77, 48	doi:10.1186/s40623-025-02174-0	査読有	謝辞有
41	Goto, H., T. Yamanaka, T. Makita, Y. Iwasa, T. Ogura, K. Kagohara, Y. Kumahara, Y. Suzuki, N. Matta, T. Aoki, W. Mori, K. Haranishi, and T. Nakata, 2026, Coast uplifted by nearby shore-parallel active submarine faults during the 2024 Mw 7.5 Noto Peninsula earthquake, Geomorphology, 493, 110069	doi:10.1016/j.geomorph.2025.110069	査読有
42	Guo, Y., J. Zhuang, G. Yin, and H. Zhang, 2025, Statistical characteristics of seismicity correlated with crustal fluids in the Noto region, Journal of Geophysical Research: Solid Earth, 130, e2025JB031544	doi:10.1029/2025JB031544	査読有
43	Hamatsu, T., and Y. Takeuchi, 2026, Current situation and problems of pass on related to the Kumamoto earthquake in 2016 the case of elementary and junior high school teachers in Mashiki Town, Journal of Disaster Research, 21(1), 71–86	doi:10.20965/jdr.2026.p0071	査読有	謝辞有
44	Hamdache, M., B. Enescu, J. Henares, and J. A. Peláez, 2026, Forecasting analysis of aftershock sequences in Morocco, Physics and Chemistry of the Earth, 142, 104312	doi:10.1016/j.pce.2026.104312	査読有
45	Haruta, Y., F. Maeno, and Y. J. Suzuki, 2026, Reconstruction of the plinian phase of the 7.3 ka “Akahoya” caldera-forming eruption at the Kikai caldera, Japan, Journal of Volcanology and Geothermal Research, 108541	doi:10.1016/j.jvolgeores.2026.108541	査読有	謝辞有
46	Hasegawa, T., F. T. Aka, H. Iwamori, S. Watanabe, A. N. E. Asaah, and N. Linus, 2025, Did magmatism of the Central Atlantic Magmatic Province extend to the proto-Cameroon Line in the Gulf of Guinea West Central Africa, Earth Planets and Space, 77, 157	doi:10.1186/s40623-025-02275-w	査読有
47	Heki, K., 2026, Origin of the ionospheric changes immediately before the 15 January 2022 eruption of the Hunga Tonga–Hunga Ha’apai submarine volcano, Atmosphere, 17(1), 30	doi:10.3390/atmos17010030	査読有
48	Hirano, S., and M. Naoi, 2025, DiallelX: A modern Fortran code for network cross-correlation, Progress in Earth and Planetary Science, 12, 31	doi:10.1186/s40645-025-00701-x	査読有	謝辞有
49	Hirauchi, K., Y. Nagata, and K. Okazaki, 2025, Fault–fracture mesh development produces tectonic tremor in fluid-overpressured serpentinized mantle wedge, Communications Earth and Environment, 6, 182	doi:10.1038/s43247-025-02159-7	査読有
50	Hirose, F., and A. Kobayashi, 2025, Tidal correlation of deep tectonic tremors increases during long-term slow slip events in the Bungo Channel, southwest Japan, Earth, Planets and Space, 77, 18	doi:10.1186/s40623-025-02145-5	査読有
51	Hooker, H. J. N., S. Luciano, D. M. Fisher, A. J. Smye, Y. Hashimoto, T. Hosokawa, and S. J. Elliott, 2025, Veining style and size-scaling behavior throughout the generation and exhumation of subduction mélange: Evidence from Japan and Alaska, Journal of Structural Geology	doi:10.1016/j.jsg.2025.105607	査読有
52	Hotta, S., S. Okumura, K. Matsumoto, T. Miyamoto, A. Tomiya, and K. Niida, 2025, Petrological constraints on magma ascent processes during the 1977 eruption of Usu volcano Japan, Journal of Geophysical Research, 130(7), e2024JB030966	doi:10.1029/2024JB030966	査読有	謝辞有
53	Ichimura, M., K. Mikihara, M. Ishimoto, T. Kobayashi, and H. Munekane, 2025, Ground deformation after the 2015 phreatomagmatic eruption at Kuchino-Erabujima Volcano, Japan detected by InSAR time-series analysis with ALOS‑2 data, Earth, Planets and Space, 77, 155	doi:10.1186/s40623-025-02293-8	査読有
54	Ichimura, T., K. Fujita, M. Hori, and M. Lalith, 2025, Fast and power‑efficient GPU‑based explicit elastic wave propagation analysis by low‑ordered orthogonal voxel finite elements with INT8 tensor cores, Journal of Computational Science, 91, 102659	doi:10.1016/j.jocs.2025.102659	査読有
55	Ide, S., and K. Yoshida, 2026, Predictable and unpredictable aspects of earthquakes from P‑wave onsets of acceleration seismograms, Earth, Planets and Space	doi:10.1186/s40623-025-02357-9	査読有	謝辞有
56	Inoue, N., R. Yamaguchi, Y. Yagi, R. Okuwaki, B. Enescu, and T. Tadapansawut, 2025, A multiple asymmetric bilateral rupture sequence derived from the peculiar teleseismic P‑waves of the 2025 Mandalay, Myanmar earthquake, Seismica, 4	doi:10.26443/seismica.v4i1.1691	査読有
57	Inoue, T., T. Hashimoto, K. Aizawa, H. Ichihara, Y. Yamaya, and R. Tanaka, 2026, Dense magnetotelluric imaging of the Akan Caldera: Insights into its magma plumbing system and caldera‑forming reservoir, Earth, Planets and Space, 78, 79	doi:10.1186/s40623-026-02398-8	査読有	謝辞有
58	Ioki, K., Y. Sawai, Y. Namegaya, D. Matsumoto, K. Tanigawa, Y. Shimada, T. Tamura, and R. Okada, 2026, Difference in slip patterns between two prehistoric giant earthquakes along the southern Kuril Trench, Geophysical Research Letters	doi:10.1029/2025GL118295	査読有
59	Ishida, M., Y. Hieda, S. Araki, K. Fujinaga, T. Shimizu, M. Tanimizu, C. Broderick, H. Nakamura, H. Iwamori, S. Machida, S. Yoneda, K. Nakamura, and Y. Kato, 2026, Large-scale polymetallic mineralization driven by long-lived magmatic-hydrothermal activity and subducted sediment influx a case study from Toyoha NE Japan, Journal of Geochemical Exploration, 280, 107887	doi:10.1016/j.gexplo.2025.107887	査読有
60	Ishise, M., and A. Kato, 2025, Seismic anisotropy in the mantle wedge revealed by tectonic tremors beneath the Bungo Channel, southwest Japan, Geophysical Research Letters, 52, e2025GL116762	doi:10.1029/2025GL116762	査読有	謝辞有
61	Ishizaki, Y., N. Kametani, and W. Numata, 2025, Geology and eruptive history of Kusatsu‑Shirane Volcano, in Ohba, T., and A. Terada (eds.), Monograph Kusatsu‑Shirane, Active Volcanoes of the World, Springer, Cham, 1–20	doi:10.1007/978-3-031-86137-6_1	査読有	謝辞有
62	Ishizu, K., T. Goto, Y. Fukahata, K. Koike, C. Vachiratienchai, and W. Siripunvaraporn, 2025, Inversion algorithm determining sharp boundaries in electrical resistivity tomography, Geophysics, 90, WA221–WA233	doi:10.1190/geo2024-0385.1	査読有
63	Iwahashi, K., O. Ishizuka, M. Kawaguchi, T. Oikawa, A. Nishihara, F. Maeno, A. Yasuda, and N. Tomita, 2025, Characteristics of drifting pumice collected several weeks after the earthquakes in October 2023 near Izu–Torishima, Geochemical Journal, 59, 192–206	doi:10.2343/geochemj.GJ25011	査読有
64	Iwai, T., S. Miyata, and K. Yamanoi, 2025, Changes in the debris flow threshold owing to volcanic eruptions evaluation with numerical simulations, Journal of Disaster Research, 20(6), 1054–1061	doi:10.20965/jdr.2025.p1054	査読有	謝辞有
65	Iwamori, H., Y. Ogawa, T. Okada, T. Watanabe, H. Nakamura, T. Kuwatani, K. Nagata, A. Suzuki, and M. Ichiki, 2025, Geofluid mapping reveals the connection between magmas, fluids, and earthquakes, Communications Earth and Environment, 6, 373	doi:10.1038/s43247-025-02351-9	査読有	謝辞有
66	Iwasaki, Y., S. Y. Schwartz, K. Mochizuki, H. Crume, D. Bassett, T. Yamada, and D. Morad, 2025, Intraslab seismicity near subducted seamounts induced by the 2019 large slow slip event offshore the northern Hikurangi subduction zone, New Zealand, Journal of Geophysical Research: Solid Earth, 130	doi:10.1029/2025JB031751	査読有	謝辞有
67	Iwata, T., 2025, Mixture of linear and nonlinear Hawkes processes and its application to real earthquake sequences, Journal of Agricultural, Biological, and Environmental Statistics	doi:10.1007/s13253-025-00681-x	査読有	謝辞有
68	Kagoshima, T., Y. Sano, N. Takahata, Y. Kawamoto, T. Shibata, Y. Li, T. Morishita, Y. Hiramatsu, and J. Nakajima, 2025, Helium isotope anomaly in groundwater prior to the 2024 Noto Peninsula earthquake, Nature Communications, 16, 10414	doi:10.1038/s41467-025-65717-9	査読有
69	Kaida, H., T. Ishizawa, H. Yanagisawa, H. Imura, K. Hayashi, and K. Goto, 2026, Source estimation of the 1703 Genroku tsunami through geological surveys and numerical simulations on Hachijo Island, Progress in Earth and Planetary Science, 13, 10	doi:10.1186/s40645-026-00798-8	査読有	謝辞有
70	Kanagawa, K., T. Nakanishi, J. Fujimori, S. Sagano, and M. Sawai, 2025, Temperature-dependent frictional properties of opal gouge and their implications for faulting in opaline chert at the Japan Trench subduction zone, Journal of Structural Geology, 105589	doi:10.1016/j.jsg.2025.105589	査読有
71	Kanda, W., T. Koyama, and Y. Matsunaga, 2025, Geomagnetic observations at Kusatsu-Shirane Volcano, in Ohba, T., and A. Terada (eds.), Kusatsu-Shirane Volcano, Active Volcanoes of the World, Springer, Cham	doi:10.1007/978-3-031-86137-6_10	査読有
72	Kaneda, H., D. Ishimura, and Y. Niwa, 2025, Comment on “Surface exposure ages of middle–late Pleistocene marine and fluvial terraces along the northern and southern Sanriku coasts, Northeast Japan”, Geomorphology, 487, 109921	doi:10.1016/j.geomorph.2025.109921	査読有	謝辞有
73	Kaneki, S., and H. Noda, 2025, Diverse preseismic creep behavior realized with various state-evolution laws: Insight from dynamic earthquake cycle simulations, Earth, Planets and Space, 77, 175	doi:10.1186/s40623-025-02269-8	査読有	謝辞有
74	Kaneko, T., M. Ichihara, A. Yasuda, et al., 2026, Characterizing thermal transitions of the 2018 Shinmoe-dake eruption in Japan using Himawari‑8 high‑frequency infrared imagery and seismic data, Earth, Planets and Space, 78, 15	doi:10.1186/s40623-025-02335-1	査読有	謝辞有
75	Kano, M., K. Yano, Y. Tanaka, T. Takabatake, and Y. Ohta, 2025, Spatio-temporal characteristics in the GEONET F5 solution in the frequency domain estimated based on robust spectral analysis, Earth, Planets and Space, 77, 103	doi:10.1186/s40623-025-02236-3	査読有	謝辞有
76	Kano, Y., and Y. Hashimoto, 2025, Minna de Honkoku citizen-participation transcription project for Japanese historical documents, Annual Review of Earth and Planetary Sciences, 53, 3-1–3-18	doi:10.1146/annurev-earth-040523-120834	査読有	謝辞有
77	Katoh, S., H. Nagao, and Y. Iio, 2025, PoViT‑UQ: P‑wave polarity and arrival time determination using vision transformer with uncertainty quantification, Geophysical Journal International, 243, ggaf324	doi:10.1093/gji/ggaf324	査読有	謝辞有
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259	Yoshida, K., 2025, Different seismogenic environments of interplate and intraslab earthquakes re-examination of apparent repeating earthquakes, Journal of Geophysical Research Solid Earth, 130, e2025JB031433	doi:10.1029/2025JB031433	査読有
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265	Yukutake, Y., T. Taira, S. Onizawa, and Y. Morita, 2025, Decadal monitoring of seismic velocity changes beneath Izu-Oshima central Japan using ambient seismic noise records, Journal of Geophysical Research Solid Earth, 130, e2025JB031170	doi:10.1029/2025JB031170	査読有
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273	Zhao, D., X. Liu, and D. Zhao, 2025, Shear-wave velocity and azimuthal anisotropy in the upper mantle of the Tonga subduction zone, Geoscience, 39, 1–17	doi:10.1111/j.1365-246X.1987.tb01367.x	査読有
274	Zhu, Y., S. Watada, and C. An, 2026, Effects of fault geometry uncertainty on tsunami inversion a study based on the 2011 Tohoku earthquake, Earth Planets and Space, 78, 12	doi:10.1186/s40623-025-02350-2	査読有
275	安江健一, 2025, 1:25, 000活断層図　曽根丘陵断層帯とその周辺「塩山」解説書,  国土地理院技術資料D1-No.1136	link
276	安江健一, 2025, 内陸型地震を解き明かす分析技術 活断層はいつ・どこで・どれくらい動いたか？,  応用物理,  94,   37-38	https://doi.org/10.11470/oubutsu.94.10_525	査読有
277	安江健一・廣内大助, 2025, 阿寺断層帯における最新活動時期と1586年天正地震時の被害,  月刊地球,  47,  355-366	link
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282	伊牟田圭,  渡邉俊一, 2026, 緊急時に想定される時短海底地殻変動観測の事前能力評価,  海洋情報部研究報告,  64, 35-48	link	査読有
283	榎原雅治, 2025, 寺社修造状況からみた「明応南海地震」、歴史地震、40、45-63	link	査読有
284	塩�ｱ大輔・橋本雄一・三浦直樹・榊浩平・白濱幸弘・杉浦元亮, 2025, VRとfMRIを用いた津波疑似避難に関する行動分析.情報処理学会研究報告, 2025-IS-173(2), 1-5			謝辞有
285	塩�ｱ大輔・深田秀実・橋本雄一, 2025, VR 津波避難訓練システムを用いた港湾観光都市における率先避難と観光者の避難行動, 情報処理学会研究報告, 2025-IS-171(8), 1-5			謝辞有
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288	岡田知己・藤村遼太郎・内田晴海・木村洲徳・��木涼太・Martha SAVAGE・田上綾香・前田純伶・前田拓人・野口科子・阿部信太郎, 2026, 青森県陸奥湾下の地震の S 波スプリッティング解析, 東北地域災害科学研究, 印刷中	link		謝辞有
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291	関口春子, 2025, 盆地構造モデル修正のための計算波動場解析, 京都大学防災研究所年報, 68, 1-4	link
292	関香織, 岩本征大, 森健彦, 西正儀, 井上秀穂, 2025, 市販のガス警報器を用いたSO2/H2S比の観測,  験震時報.	link	査読有
293	気象研究所, 2025, 全国 GNSS 観測点のプレート沈み込み方向の位置変化,  地震予知連絡会会報,  114,  21-25	link
294	気象研究所, 2025, 内陸部の地震空白域における地殻変動連続観測,  地震予知連絡会会報,  114,  326-329	link
295	気象研究所, 2025, 南海トラフ沿いの長期的スロースリップの客観検知,  地震予知連絡会会報,  114,  292-294	link
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305	久保智弘, 2026, 特別研究 「効果的な火山防災マップのあり方に関する研究」、山梨県富士山科学研究所研究報告書	link
306	久保田達矢, 久保久彦, 三好崇之, 鈴木亘, 青井真, 功刀卓, 武田哲也, 2025, 2024年日向灘の地震に伴う津波の波源分布 ——N-netとDONETの水圧計記録の解析から——, 地震2,  78,  73–86	doi:10.4294/zisin.2024-10S	査読有
307	久保田達矢・鈴木亘・三好崇之・近貞直孝・久保久彦・中村武史, 2026, 2025年7月30日カムチャツカ半島付近で発生した地震による海底津波観測記録,  地震予知連絡会会報,  115, 469-473	link
308	及川　純・田島靖久, 2026, 火山性地震発生の特徴と地殻変動から推定した霧島火山新燃岳の 2008年〜2011年噴火の準備過程と噴火過程, 防災科学技術研究所研究報告
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310	宮縁育夫・星住英夫, 2025, 阿蘇火山の地質: カルデラ形成噴火と後カルデラ活動、地質学雑誌、131(1)、319‒342	doi:10.5575/geosoc.2025.0029	査読有
311	居樹幸太朗, 2026, 減災古文書研究会の活動紹介,  中部「歴史地震」研究年報,  Vol. 14
312	金田平太郎, 2025, 1:25, 000活断層図　身延断層とその周辺「南部」解説書,  国土地理院技術資料D1-No.1138	link		謝辞有
313	熊原康博, 2025, 1:25, 000活断層図　大久保断層及び太田断層とその周辺「桐生」解説書, 国土地理院技術資料D1-No.1135	link
314	熊澤 貴雄・尾形 良彦, 2025, 日向灘沖南部の余震活動について,  地震予知連絡会会報,  114 (9-4) 429-439	link
315	原直史, 2025, 1828（文政11）年複合災害情報の流布について―越後国を中心に―, 災害・復興と資料, 17, 21-34		査読有	謝辞有
316	原田智也・西山昭仁・石辺岳男, 2025,  『大地震見聞録』に記録された安政江戸地震による土浦の被害, 歴史地震,  40,  81-107	link	査読有
317	原田和彦, 2025, 寺院日記・松代藩庁日記に見られる地震記事, 災害・復興と資料, 17, 9-20		査読有	謝辞有
318	原田和彦, 2026, 1847善光寺地震―松代藩の史料にみる被害報告と復興策, 信濃毎日新聞社, 1-257	link
319	古川竜太・及川輝樹, 2025, 火山防災と空間情報技術第２回火山地質図の紹介,  測量,  4月号,  26-29	https://www.jsurvey.jp/1-4-2025.htm
320	吾妻　崇・中井未里・清水日奈子・丸山　正, 2025, 2024年度における活断層データベースの整備,  令和6年度 防災・減災のための高精度デジタル地質情報の整備事業報告書,  地質調査所総合センターNo.87,  89–93		査読有
321	後藤秀昭, 2025, 1:25, 000活断層図　能登半島北部の活断層「珠洲」解説書,  国土地理院技術資料D1-No.1140	link
322	後藤秀昭, 2025, 1:25, 000活断層図　能登半島北部の活断層「輪島」解説書,  国土地理院技術資料D1-No.1142	link
323	後藤秀昭, 2025, 海底の断層から発生する地震の予測に不可欠な活断層図―沿岸域およびプレート境界の変動地形—, 月刊地球, 47, 203-209	link
324	高橋 誠・木村玲欧, 2025, 総論 : 特集「防災リテラシー」,  『月刊　地球/ Vol.47,  No.5』,  237-243	link
325	高橋浩晃, 2025, 千島海溝沿いの巨大地震と防災対策の現況, 地震ジャーナル, 79, 32-48	link
326	高橋誠・木村玲欧,  総論：特集「防災リテラシー」, 2025, 月刊地球,  Vol.47,  No.5（2025年5月号）,  pp.237-243	link		謝辞有
327	高木朗充,  為栗健,  井口正人,  森俊哉,  宗包浩志,  下司信夫,  橋本武志,  碓井勇二,  相澤幸治,  清水洋, 2025, 研究集会「火山活動評価研究の現状と今後の展望」, 火山,  70,  111-118	doi:10.18940/kazan.70.2_111	査読有
328	今西祐一, 池田博, 本多亮, 三浦哲, 名和一成, 西山竜一, 風間卓仁, 若林環, 山本圭吾, 2025, iGrav超伝導重力計を可搬型相対重力計として用いる試みについて」, 測地学会誌, 71, 34–42	link	査読有
329	佐藤翔輔・田村圭子・木村玲欧・小田原未依・元谷豊・竹本加良子, 2025, 東日本大震災10年の生活再建過程ふりかえる被災者から聞き取り：復興庁・被災者インタビュー調査の概要とウェブサイトでの公開,  地域安全学会東日本大震災特別論文集,  No.14,  pp.31-34	link
330	阪本真由美, 2025, 大規模噴火と自治体間の広域連携,  都市問題,  東京市政調会,  116,  65-72	link
331	榊原 保志,  Vanda KOY,  Kasya SOK,  Chao TOLA,  小泉 治彦, 2026, カンボジアの小学校におけるペーパークラフト惑星モデル製作実習の教育効果,  地学教育,  78-3,  53-62	doi:10.18904/chigakukyoiku.78.3_53	査読有
332	榊原保志, 2025, カンボジアにおける簡易天秤とペットボトルキャップ分銅を用いた教材とものの重さを量る授業プログラムの評価,  理科教育学研究,  66-2,  339-347	doi:10.11639/sjst.25021	査読有
333	榊原保志・小林　隆・廣内大助, 2026, 野外調査活動が避難所と避難経路を決める学習に与える影響−白馬村の小学校における事例−,  地理学評論, 99-1,  46-54	link	査読有
334	三村暉,  弘田尚也,  北村昌卓,  平井敬, 2026, かわら版史料による防災教育の実践と効果　―歴史に触れる防災教育―,  中部「歴史地震」研究年報,  Vol. 14
335	三反畑修 , 2025, 鳥島近海で繰り返す不思議な津波 —海底カルデラ火山における「トラップドア断層破壊」―. 地震ジャーナル,  79,  p.49-62	doi:10.60191/eqj.2025.79_49
336	山下裕亮, 2025, 2024年8月8日日向灘M7.1の地震から1年,  宮崎の自然と環境,  10,  8-13	link
337	山下裕亮, 2025, 南海トラフ地震の特徴と南海トラフ地震臨時情報,  全建宮崎,  60,  1-6
338	山下裕亮・伊尾木圭衣, 2025, 日下姓安井系図の記述から読み解く1662年日向灘地震（外所地震）の新たな地震像,  地震2,  78,  119-126	doi:10.4294/zisin.2024-24S	査読有	謝辞有
339	山下裕亮・堀高峰, 2025, 日向灘南部における大地震の多様な発生様式,  地震2,  78, 127-146	doi:10.4294/zisin.2025-2S	査読有	謝辞有
340	山中　蛍, 2025, 1:25, 000活断層図　糸魚川−静岡構造線断層帯とその周辺「甲府　改訂版」解説書,  国土地理院技術資料D1-No.1139	link
341	山田伸之,  竹中博士 , 2026, 岡山平野児島湾岸部での微動アレイ探査,  岡山大学地球科学研究報告,  32(1)	link
342	山�ｱ誠子・石塚吉浩・佐藤鋭一, 2025, 雌阿寒岳火山とその周辺から採取された火山岩の感度法K–Ar年代,  地質調査総合センター研究資料集,  no. 772	link
343	寺田暁彦・田村正義, 2025, 草津町役場から遠隔操作可能な全自動ドローンを用いた草津白根火山の監視試験,  火山,  70,  103-109	doi:10.18940/kazan.70.2_103		謝辞有
344	室井研二, 2025, 東日本大震災後に防災は強化されたのか,  『月刊地球/ Vol.47,  No.5』,  270-279	link
345	室井研二・高橋誠・田所敬一, 2026, 防災の歴史的変容と脆弱性─三重県漁村地域の南海トラフ地震対策を事例に─,  『名古屋大学社会学論集46』	link
346	小岩圭吾・道家涼介, 2026, 干渉SAR解析による津軽平野の地盤沈下,  東北地域災害科学研究,  印刷中	link
347	小野映介・小岩直人・柴 正敏・��橋未央・佐藤善輝, 2025, 津軽平野中部における完新世の堆積環境の変化と地形変遷, 地理学評論, 98(3), 146-161	link	査読有
348	小林知勝・宗包 浩志・石本 正芳, 2025, 人工衛星から視る令和6年能登半島地震の地殻変動と断層運動,  活断層研究,  62,  11-15	doi:10.11462/afr.2025.62_11	査読有
349	松四雄騎, 2025, 地震および豪雨による連鎖斜面変動の発生機構に関する予察―能登半島災害における現象の地質条件依存性を手掛かりに―  京都大学防災研究所年報 68A	link		謝辞有
350	松多信尚, 2025, 1:25, 000活断層図　能登半島北部の活断層「門前」解説書,  国土地理院技術資料D1-No.1144	link		謝辞有
351	松多信尚・白銀美里・太田麗, 2025, 伊勢名所図会歌合絵巻から推察する明応の津波の影響地形学的解釈,  月刊地球,  47,  388–398	link
352	松多信尚・鈴木康弘・後藤秀昭・渡辺満久, 2025, 1:25, 000活断層図「門前」.国土地理院技術資料,  D1-No.1132
353	松澤孝紀・太田和晃・三好崇之, 2026, 南海トラフ浅部の微動活動（2025年10月）,  地震予知連絡会会報,  115, 312-314	link
354	松澤孝紀・田中佐千子・小原一成, 2025, 西南日本における深部低周波微動活動 (2024年11月〜2025年4月) ,  地震予知連絡会会報,  114,  338-343	link
355	松澤孝紀・田中佐千子・小原一成, 2026, 西南日本における深部低周波微動活動 (2025年5月〜2025年10月), 地震予知連絡会会報,  115, 345-350	link
356	松澤真、渡壁卓磨、佐藤正人, 2026, 地震時に発生した表層崩壊と風化帯構造の関係に関する一考察〜令和6年能登半島地震の例〜、応用地質、Vol.66、No.6、pp.1-12	doi:10.5110/jjseg.66.225	査読有
357	新井隆太,  田村芳彦,  小平秀一, 2026, 伊豆小笠原弧の地殻構造の新たな解釈,  月刊地球, 48, 3	link
358	水野 樹・前野 深, 2025, 微細構造解析に適した多孔質・脆弱岩石試料の薄片作製法,  東京大学地震研究所技術研究報告,  31,  20-32	link	査読有
359	水野 嶺, 2025, 史料にもとづく阿蘇火山における19世紀前半の噴火活動の再構築、火山、70（2）、79-91	link	査読有	謝辞有
360	水野 嶺, 2025, 明応七年六月十一日地震の再検討、歴史地震、40、121-129	link	査読有	謝辞有
361	水野嶺・加納靖之・榎原雅治, 2025, 日向灘を震央とする可能性のある近世の地震, 地震, 78, 147-165	doi:10.4294/zisin.2025-1S	査読有	謝辞有
362	西野 藍,  宮下 卓也,  安田 誠宏,  志村 智也,  森 信人, 2025, メソ気象予報モデルデータ解析と数値実験による九州西岸における気象津波発生要因の解明,  土木学会論文集, 81 巻, 17 号	link	査読有
363	石瀬素子・大邑潤三・飯野真帆・加納靖之・長嶋史明・吾妻崇・松島信一, 2025, 1894年庄内地震の被害記録のデジタルデータ化と被害分布に関する検討, 歴史地震, 40, 33−43	link	査読有	謝辞有
364	石本正芳, 2025, 国土地理院における衛星SARを用いた地殻・地盤変動の監視, 地震ジャーナル, 79, 78-82,  79,  78-82	doi:10.60191/eqj.2025.79_78
365	浅野公之, 2025, 内陸地震の地震ハザード評価のための震源像の理解,  日本地震学会広報誌なゐふる,  140,  4-5	link
366	浅野陽一, 2025, 南海トラフ周辺における最近の傾斜変動（2024年11月〜2025年4月）,  地震予知連絡会会報,  114,  295-311	link
367	浅野陽一, 2025, 日本周辺における浅部超低周波地震活動（2024年11月〜2025年4月）,  地震予知連絡会会報,  114,  5-9	link
368	浅野陽一, 2026, 日本周辺における浅部超低周波地震活動（2025年5月〜2025年10月）, 地震予知連絡会会報, 115, 5-9	link
369	村田泰輔, 2025, 考古・地質・歴史資料による地形発達と地質表層部−深層部応答にみる災害発生メカニズム分析と歴史災害痕跡データベースの拡充構築、考古学ジャーナル、818、pp.35-44	link		謝辞有
370	村田泰輔, 2025, 奈良盆地北部における地震痕跡の分析による歴史地震像の再構築 −平城宮・京跡発掘調査成果を中心とした検討−、季刊考古学（173）、6、pp.35-38	link	査読有	謝辞有
371	太田雄策  , 2025, ソフトバンク独自基準点データを用いた超高密度地殻変動観測,  地震ジャーナル,  80,  57-61	link
372	大場武,  谷口無我,  伊藤昌稚,  角皆潤, 2026, えびの高原硫黄山における火山ガスの化学組成及び安定同位体比,  地學雑誌		査読有
373	大西正光, 2025, 現場で活きる人文学の可能性―桜島防災を事例として―. 山泰幸・向井佑介(編）東アジア災害人文学への招待,  臨川書店
374	大内智博, 2026, CdTe二次元ピクセル検出器を用いた高温高圧下における差応力および歪の高時間分解能測定─時間依存性のレオロジー物性測定に向けた技術開発─,  地学雑誌,  135,  85-98,	doi:10.5026/jgeography.135.85	査読有
375	大本航,  杉山高志,  北原壮一郎,  山下裕亮,  矢守克也, 2025, 令和6年8月8日の日向灘の地震発生後の避難行動と南海トラフ地震臨時情報（巨大地震注意）をめぐる対応の分析 −宮崎県宮崎市・青島地区における事例調査−, 自然災害科学,  44(3),  289-300	link	査読有
376	大友章司・木村玲欧・中澤幸介, 2025, リスク・リテラシーおよび地震への認識や心理属性が防災行動に及ぼす影響,  月刊地球,  Vol.47,  No.6（2025年6月号）,  pp.289-298	link		謝辞有
377	谷口 無我,  大場 武, 2026, , 防災科学技術研究所研究資料, 523, 98-101			謝辞有
378	谷口無我,  大場武, 2026, 火山性流体の化学分析に基づく火山活動評価 −霧島山(えびの高原硫黄山)の熱水観測の例−, 防災科学技術研究所研究報告
379	知北和久,  後藤章夫,  岡田純,  大八木英夫,  網田和宏, 2025, 火山性湖沼の分水界漏出からみた水循環系：レビューと解釈,  陸水物理学会誌,  7,  3-13	doi:10.34502/physhydro.7.1_3	査読有
380	長尾優樹・岡田里奈・梅田 浩司・小林祐登・鎌滝孝信, 2025, 1804年象潟地震に伴う津波堆積物. 地質学雑誌,  131(1),  155-164	link	査読有
381	塚田尚幸・橋本雄一, 2025, 平成30年北海道胆振東部地震の復旧工事におけるワンストップ窓口の役割―札幌市里塚地区の事例―, 地理学論集, 100(1), 3-12	link	査読有	謝辞有
382	鶴岡弘, 2026, MQTT対応WINによるリアルタイム表示システムの開発,  東京大学地震研究所技術研究報告,  No31,  p1-12	link
383	堤　浩之, 2025, 1:25, 000活断層図　能登半島北部の活断層「宇出津」解説書,  国土地理院技術資料D1-No.1141	link
384	田中昌之, 2025, 中規模繰り返し相似地震の発生状況と発生確率,  地震予知連絡会会報,  114,  476-481	link
385	田力正好, 2025, 1:25, 000活断層図 身延断層及び糸魚川−静岡構造線断層帯「身延」解説書,  国土地理院技術資料D1-No.1137	link
386	渡辺満久・岩佐佳哉・中田　高・山中　蛍, 2025, 1:25, 000活断層図　能登半島北部の活断層「穴水」解説書,  国土地理院技術資料D1-No.1143	link
387	渡邉俊一, 2026, 海底地殻変動観測における新しい海底局アレイ引継ぎ戦略,  海洋情報部研究報告,  64, 49-61	link	査読有
388	東京大学地震研究所・北海道大学大学院理学研究院・東北大学大学院理学研究科・千葉大学大学院理学研究院・東京海洋大学学術研究院海洋資源エネルギー学部門・東海大学海洋学部・京都大学防災研究所・鹿児島大学大学院理工学研究科・海洋研究開発機構, 2025, 海底地震計を用いた令和6年能登半島地震の海域余震観測、地震予知連絡会会報第114巻、6-4、2025年9月	https://cais.gsi.go.jp/YOCHIREN/report/kaihou114/06_04.pdf		謝辞有
389	藤江剛,  白石和也,  中村恭之,  新井隆太, 2025, プレート沈み込み巨大地震発生帯における地下構造研究の現状,  物理探査,  78,  62-77	doi:10.3124/segj.78.sp62	査読有
390	藤村遼太郎・岡田知己・内田晴海・Martha SAVAGE・田上綾香, 2026, 岩手県北部の周波数依存性を考慮したS波スプリッティング解析, 東北地域災害科学研究, 印刷中	link
391	道家涼介・黒澤英樹・下山みを, 2025, 神奈川県東部ヒンジライン周辺における地下構造の重力異常データによる検討,  活断層研究,  63,  19-27	link	査読有
392	内山琴絵・廣内大助・杉浦　功・田中　格・熊谷力也・神田孝文・榊原保志, 2025, トイレを中心とした避難所環境改善と地域防災活動への展開 −信州大学教育学部附属松本小学校を事例に−,  信州大学教育学部研究論集,  19,  14-33	doi:10.50928/0002002713	査読有
393	内村優太,  北村昌卓,  平井敬, 2026, 1944年12月10日の滋賀県北部の地震(M5.3)における観測震度の再評価,  減災復興学研究,  Vol. 3	link		謝辞有
394	内田晴海・岡田知己・藤村遼太郎・田上綾香, 2026, Epidemic-Type Aftershock Sequenceモデルを用いた新潟県中越地方の地震活動の時空間解析, 東北地域災害科学研究, 印刷中	link
395	南雅晃・対馬弘晃・林豊・中田健嗣, 2025, 2024年能登半島地震に伴う津波の現地調査報告,  気象研究所技術報告,  88,  1-64	doi:10.11483/mritechrepo.88
396	南沢 修・秦 康範, 2025, 火山の状況に関する解説情報（臨時）に対する焼岳火山防災協議会の対応 , 地域安全学会梗概集, No.56	link
397	楠美 紀公・前田 拓人・平野 史朗 , 2026, 東北地方日本海東縁の地震におけるS波エンベロープ拡大現象,  東北地域災害科学研究,  印刷中	link
398	板場智史・落　唯史・矢部　優・松本則夫・北川有一・木村尚紀・木村武志・松澤孝紀・汐見勝彦, 2026, 東海・紀伊半島・四国における短期的スロースリップイベント（2025年5月〜2025年10月）, 地震予知連絡会報, 115, 167-207	link
399	尾形良彦, 2025, 地震予測の統計地震学の進歩と課題：阪神・淡路大震災から30年,  地震予知連絡会会報,  113 (11-9) 480-489	link
400	尾形良彦, 2025, 統計地震学の現場から: ETASモデルで地震活動を読み解く (招待論文),  月刊統計 2025年12月号,  36-43	link	査読有
401	富岡拓央,  渡邉俊一,  吉田茂, 2026, 海底地殻変動観測におけるGNSSアンテナ・トランスデューサ間ローカルタイ（ATDオフセット）計測手法,  海洋情報部研究報告,  64, 62-72	link	査読有
402	富田史章, 2025, ベイズ推定によるすべりインバージョン研究の高度化, 地震2, 78, 31–51	doi:10.4294/zisin.2024-23	査読有
403	富田雄飛, 2026, 3次元インバージョン解析による地下比抵抗構造モデル推定に基づいた阿蘇火山中岳における浅部構造の時間変化推定,  令和7年度京都大学大学院理学研究科地球惑星科学専攻修士論文
404	武村俊介, 岡田悠太郎, 野田朱美, 馬場慧, 2025, 南海トラフ沿いで発生する浅部スロー地震の特徴, 地震 第2輯, 78,  167-186	doi:10.4294/zisin.2024-20	査読有
405	文部科学省研究開発局・国立研究開発法人産業技術総合研究所, 2025, 長大な活断層帯で発生する地震の評価手法の高度化に関する調査研究　令和６年度成果報告書, 1-113	link
406	片岡俊一, 2026, 八戸市低地部2箇所の地震基盤までの地下構造推定,  東北地域災害科学研究,  印刷中	link
407	片桐昭彦, 2025, 『常光寺王代記并年代記』の康安元年地震記事, 災害・復興と資料, 17, 1-8		査読有	謝辞有
408	片桐昭彦, 2026, 安永八年十一月佐渡の「登龍」は地震津波か, 新潟史学, 90, 49-56		査読有	謝辞有
409	北原糸子・大邑潤三, 2025, 高野山金剛峯寺霊牌堂の関東大震災死亡者タイル版霊名簿について, 自費出版, 118p
410	北出明嗣,  金子柊,  吉野千恵,  服部克巳,  佐伯奎吾, 2026, AHIデータを用いた火山溶岩活動検知：2018年新燃岳の溶岩噴出活動の予察的結果,  Journal of Atmospheric Electricity,  Vol.45,  54-63	doi:10.1541/jae.45.54	査読有
411	北川有一・松本則夫・佐藤　努・板場智史・落　唯史・木口　努・矢部　優, 2025, 近畿地域の地下水位・歪観測結果（2024年11月〜2025年4月）, 地震予知連絡会報, 114, 322-325	link
412	北川有一・松本則夫・佐藤　努・板場智史・落　唯史・矢部　優, 2026, 近畿地域の地下水位・歪観測結果（2025年5月〜2025年10月）, 地震予知連絡会報, 115, 325-327	link
413	北川有一・松本則夫・板場智史・落　唯史・佐藤　努・矢部　優, 2026, 東海・関東・伊豆地域における地下水等観測結果(2025年5月〜2025年10月)(72), 地震予知連絡会報, 115, 208-214	link
414	北川有一・板場智史・松本則夫・落　唯史・木口　努・矢部　優, 2025, 紀伊半島〜四国の歪・傾斜・地下水観測結果（2024年11月〜2025年4月）, 地震予知連絡会報, 114, 312-321	link
415	北川有一・板場智史・松本則夫・落　唯史・矢部　優, 2026, 紀伊半島〜四国の歪・傾斜・地下水観測結果（2025年5月〜2025年10月）, 地震予知連絡会報, 115, 315-324	link
416	北川有一・木口　努・今西和俊・松本則夫, 2025, 岐阜県東部・長野県西部における地殻活動観測結果 (2024年11月〜2025年4月), 地震予知連絡会報, 114, 200-201	link
417	北川有一・木口　努・今西和俊・松本則夫, 2026, 岐阜県東部・長野県西部における地殻活動観測結果 (2025年5月〜2025年10月), 地震予知連絡会報, 115, 220-221	link
418	北川有一・木口　努・松本則夫・板場智史・落　唯史・佐藤　努・矢部　優, 2025, 東海・関東・伊豆地域における地下水等観測結果(2024年11月〜2025年4月)(71), 地震予知連絡会報, 114, 188-192	link
419	堀健彦・片桐昭彦, 2025, 「西川筋道上山付近絵図（断簡）」試論―地震によって引き起こされた液状化・噴砂との関係に注目して, 災害・復興と資料, 17, 35-48		査読有	謝辞有
420	木村武志, 2025, 西南日本における短期的スロースリップイベント (2024年11月〜2025年4月),  地震予知連絡会会報,  114,  344-349	link
421	木村武志, 2026, 西南日本における短期的スロースリップイベント (2025年5月〜2025年10月) , 地震予知連絡会会報,  115, 351-356	link
422	矢田俊文, 2025, 新潟県西蒲原郡の地図と潟―20世紀初頭―, 災害・復興と資料, 17, 49-55		査読有	謝辞有
423	矢部　優・板場智史・落　唯史・松本則夫・北川有一・木口　努・木村尚紀・木村武志・松澤孝紀・汐見勝彦, 2025, 東海・紀伊半島・四国における短期的スロースリップイベント（2024年11月〜2025年4月）, 地震予知連絡会報, 114, 137-187	link
424	柳井七海,  福島栄寿,  北村昌卓,  平井敬, 2025, 戦時下の新聞は昭和東南海地震をいかに伝えたか,  歴史地震,  Vol. 40,  pp. 65–79	link	査読有	謝辞有
425	利根川貴志・新井隆太・白石和也・悪原岳, 2025, 南海トラフにおける浅部スロー地震域の地震学的構造　地震　第2輯　78,  187–198	doi:10.4294/zisin.2024-19	査読有
426	林宏一,  鈴木徹,  稲崎富士,  小西千里,  鈴木晴彦,  松山尚典, 2025, 深層ニューラルネットワークを用いた物理探査結果の空間的補間,  物理探査,  78,  16-32	doi:10.3124/segj.78.sp16	査読有
427	鈴木康弘・後藤秀昭・松多信尚・渡辺満久, 2025, 1:25, 000活断層図　能登半島北部の活断層「富来」解説書,  国土地理院技術資料D1-No.1145	link
428	鈴木康弘・後藤秀昭・松多信尚・渡辺満久, 2025, 1:25, 000活断層図「富来」. 国土地理院技術資料,  D1-No.1133
429	鈴木真奈美・岡田知己・2011 年東北地方太平洋沖地震合同余震観測グループ, 2026, 東北地方米沢-喜多方地域における S 波反射面の空間分布, 東北地域災害科学研究, 印刷中	link
430	廣瀬仁, 2025, スロースリップイベント, 　(6.3.2節), 平田直・森田裕一・岩崎貴哉・古村孝志・石山達也・佐藤比呂志・小原一成・西山昭仁・佐竹健治 (編),  地震の大事典,  朝倉書店	link
431	楮原京子, 2025, 1:25, 000活断層図　花輪東断層帯とその周辺「花輪」解説書,  国土地理院技術資料D1-No.1134	link
432	澤崎郁・浅野陽一・八木原寛・平野舟一郎, 2026, 令和7年トカラ列島近海の地震活動における高周波エネルギー輻射量,  地震予知連絡会会報,  115, 426-429	link