Publications

 

Refereed Papers


To be published:

Sagiya, T. and A, Meneses-Gutierrez, Geodetic and geological deformation of the Island arc in northeast Japan revealed by the 2011 Tohoku earthquake (Mw9.0), Ann Rev. Earth Planet. Sci, accepted for publication.



  1. 1.Meneses-Gutierrez, A., P. Segall, and T. Sagiya, How steady is interseismic crustal deformation in Northeast Japan? Evidence from an integrated analysis of centennial geodetic data, J. Geophy. Res., doi:10.1029/2021JB023100, 2022.

  2. 2.Lizarazo, S. C., T. Sagiya, and H. Mora-Paez, Interplate coupling along the Caribbean coast of Colombia and its implications for seismic/tsunami hazards, J. South American Earth Sci., doi:10.1016/j.jsames.2021.103332, 2021.

  3. 3.Otsubo, M., I. Katayama, A. Miyakawa, and T. Sagiya, Inelastic behavior and mechanical strength of the shallow upper crust controlled by ;ayer-parallel slip in the high-strain zone of the Niigata region, Japan, Earth, Planets and Space, 72, 30, doi:10.1186/s40623-020-01154-w, 2020.

  4. 4.Fukahata, Y., A. Meneses-Gutierrez, and T. Sagiya, Detection of plastic strain using GNSS data of pre-a and post-seismic deformation of the 2011 Tohoku-oki earthquake, Earth, Planets and Space, 72, 18, doi:10.1186/s40623-020-1144-1, 2020.

  5. 5.Sagiya, T., and H. Mora, Interplate coupling along the Nazca subduction zone on the Pacific coast of Colombia deduced from GeoRED GPS observation data, The Geology of Colombia, Vol. 4 Quaternary (ed. Gómez, J. and A. O. Pinilla-Pachon, Servicio Geologico Colombiano, 615-661, doi:10.382685/pub.esp.38.2019.15, 2019.

  6. 6.鷺谷威・大坪誠, 日本列島の地殻ひずみ速度:測地学的データと地質・地形学的データの統一的理解、地学雑誌, 128, 689-705, doi:10.5026/jgeography.128.689, 2019.

  7. 7.Kumagai, K. and T. Sagiya, Topographic effects on crustal stress around the Atera Fault, central Japan, Earth, Planets and Space, 70:186, doi:10.1186/s40623-018-0961-y, 2018.

  8. 8.Zhang, X., and T. Sagiya, Intraplate strike-slip faulting, stress accumulation, and shear localization of a crust-upper mantle system with nonlinear viscoelastic material, J. Geophys. Res., doi:10.1029/2018JB016421, 2018.

  9. 9.Sagiya, T., N. Matta, and Y. Ohta, Triangulation scale error caused by the 1894 Shonai earthquake: a possible cause of erroneous interpretation of seismic potential along the Japan Trench, Earth Planets Space, 70:120, doi:10.1186/s40623-018-0890-9, 2018.

  10. 10.Meneses-Gutierrez, A., T. Sagiya, and S. Sekine, Crustal deformation process in the Mid-Niigata region of the Niigata-Kobe Tectonic Zone as observed by dense GPS network before, during and after the Tohoku-oki earthquake, J. Geophys. Res., doi:10.1029/2018JB015567, 2018.

  11. 11.Takada, Y., T. Sagiya, and T. Nishimura, Interseismic crustal deformation in and around the Atotsugawa fault system, central Japan, detected by InSAR and GNSS, Earth Planets Space, 70:32, doi:10.1186/s40623-018-0801-0, 2018.

  12. 12.Zhang, X., and T. Sagiya, Shear strain concentration mechanism in the lower crust below an intraplate strike-slip fault based on rheological laws of rocks, Earth Planets Space, 69, 82, doi:10.1186/s40623-017-0668-5, 2017.

  13. 13.Meneses-Gutierrez, A., and T. Sagiya, Persistent inelastic deformation in central Japan revealed by GPS observation before and after the Tohoku-oki earthquake, Earth Planets. Sci. Lett., 450, 366-371, doi:10.1016/j.epsl.2016.06.055, 2016.

  14. 14.Takada, Y., K. Katsumata, H. Katao, M. Kosuga, Y. Iio, T. Sagiya, and The Japanese University Group of the Joint Seismic Observations at the Niigata-Kobe Tectonic Zone, Stress accumulation process in and around the Atotsugawa fault, central Japan, estimated from focal mechanism analysis, Tectonophys, 682, 134-146, doi:10.1016/j.tecto.2016.05.013, 2016.

  15. 15.Perez, N. M., L. Somoza, P. A. Hernandez, L. G, de Vallejo, R. Leon, T. Sagiya, A. Biain, F. J. Gonzalez, T. Medialdea, J. Barrancos, J. Ibanez, H. Sumino, K. Nogami, and C. Romero, Reply to comment from Blanco et al. (2015) on “Evidence from acoustic imaging for submarine volcanic activity in 2012 off the west coast of El Hierro (Canary Islands, Spain)” by Perez et al., Bulletin of Volcanology, 77, doi:10.1007/s00445-015-0948-5, 2015.

  16. 16.Sagiya, T., Paradoxical vertical crustal movement along the Pacific coast of Northeast Japan, Int. Assoc. Geodesy Symposia, doi:10.1007/1345_2015_189, 2015. (GENAH2014SagiyaRev1.pdf)

  17. 17.Perez, N. M., L. Somoza, P. A. Hernandez, L. G, de Vallejo, R. Leon, T. Sagiya, A. Biain, F. J. Gonzalez, T. Medialdea, J. Barrancos, J. Ibanez, H. Sumino, K. Nogami, and C. Romero, Evidence from acoustic imaging for submarine volcanic activity in 2012 off the west coast of El Hierro (Canary Islands, Spain), Bulletin of Volcanology, 76, 882, doi:10.1007/s00445-014-0882-y, 2014.

  18. 18.Hanifa, N. R., T. Sagiya, F. Kimata, J. Effendi, H. Z. Abidin, and I. Meilano , Interplate coupling model off the southwestern coast of Java, Indonesia, based on continuous GPS data in 2008-2010, Earth Planet. Sci. Lett., 401, 159-171, 2014.

  19. 19.Nishimura, T., M. Sato, and T. Sagiya, Global Positioning System (GPS) and GPS/Acoustic observations: Insight into slip along the subduction zones around Japan, Annu. Rev. Earth Planet. Sci, doi:10.1146/annurev-earth-060313-054614, 2014.

  20. 20.Gunawan, E., T. Sagiya, T. Ito, F. Kimata, T. Tabei, Y. Ohta, I. Meilano, H. Z. Abidin, Agustan, I. Nurdin, D. Sugiyanto, A comprehensive model of postseismic deformation of the 2004 Sumatra-Andaman earthquake deduced from GPS observations in northern Sumatra, J. Asian Earth Sci., 88, 218-229, 2014.

  21. 21.Duong, N. A., T. Sagiya, F. Kimata, T. D. To, V. Q. Hai, D. C. Cong, N. Z. Binh, N. D. Xuyen, Contemporary horizontal crustal movement estimation for northwestern Vietnam inferred from repeated GPS measurements, Earth Planets Space, 65, 1399-1410, 2013.

  22. 22.Hirai, T., and T. Sagiya, Biased geodetic inference on asperity distribution on a subducted plate interface: a quantitative study, Earth Planets Space, 65, 311-321, 2013.

  23. 23.鷺谷威, 地震の予知・予測とその不確実性, オペレーションズ・リサーチ, 57, 545-550, 2012. (in Japanese)

  24. 24.Ito, T., K. Ozawa, T. Watanabe, and T. Sagiya, Slip distribution of the 2011 off the Pacific COast of Tohoku Earthquake inferred from geodetic data, Earth Planets Space, 63, 627-630, 2011.

  25. 25.Sagiya, T., H. Kanamori, Y. Yagi, J. Mori, and M. Yamada, Rebuilding seismology, Nature, 473, 146-148, 2011.

  26. 26.Ohzono, M., T. Sagiya, L. Hirahara, M. Hashimoto, A. Takeuchi, Y. Hoso, Y. Wada, K. Onoue, F. Ohya, and R. Doke, Strain accumulation process around the Atotsugawa fault system in the Niigata-Kobe Tectonic Zone, central Japan, Geophys. J. Int., 184, 977-990, 2011.

  27. 27.Murase, M., T. Ito, Y. Hayashi, T. Sagiya, F. Kimata, and H. Watanabe, Spatio-temporal distribution of magma intrusions inducing repeated earthquake swarms off the east coast of the Izu peninsula, central Japan, for 1973-1998, J. Volcano. Geotherm. Res., 193, 25-36, 2010.

  28. 28.Ito, T., M. Okubo, and T. Sagiya, High resolution mapping of the Earth tide response based on GPS data in Japan, J. Geodynamics, doi:10.1016/j.jpg/2009.09.012, 2009.

  29. 29.鷺谷威, GPS観測による日本列島の地震テクトニクス, 地震2, 61, S479-S484, 2009. (in Japanese with English abstract)

  30. 30.Hanifa, N. R., M. Irwan, T. Sagiya, F. Kimata., and H. Z. Abidin, Numerical modelling of the 2006 Java Tsunami earthquake, Advances in Geosciences, 13, 231-248.

  31. 31.Hashimoto, C., A. Noda, T. Sagiya, and M. Matsu’ura, Interplate seismogenic zones along the Kuril-Japan trench inferred from GPS data inversion, Nature Geoscience, 2, 141-144, 2009.

  32. 32.Effendi Daud, M., T. Sagiya, F. Kimata, and T. Kato, Long-baseline quasi-real time kinematic GPS data analysis for early tsunami warning, Earth Planets Space, 60, 1191-1195, 2008.

  33. 33.Iinuma, T., Y. Ohta, S. Miura, K. Tachibana, T. Matsushima, H. Takahashi, T. Sagiya, T. Ito, S. Miyazaki, R. Doke, A. Takeuchi, K. Miyao, A. Hirao, T. Maeda, T. Yamaguchi, M. Takada, M. Iwakuni, T. Ochi, I. Meilano, A. Hasegawa, Postseismic slip associated with the 2007 Chuetsu-oki, Niigata, Japan, Earthquake (M6.8 on 16 July 2007) as inferred from GPS data, Earth Planets Space, 60, 1087-1091, 2008

  34. 34.Ohta, Y., S. Miura, T. Iinuma, K. Tachibana, T. Matsushima, H. Takahashi, T. Sagiya, T. Ito, S. Miyazaki, R. Doke, A. Takeuchi, K. Miyao, A. Hirao, T. Maeda, T. Yamaguchi, M. Takada, M. Iwakuni, T. Ochi, I. Meilano, A. Hasegawa, Coseismic and postseismic deformation related to the 2007 Chuetsu-oki, Niigata Earthquake, Earth Planets Space, 60, 1081-1086, 2008.

  35. 35.Nishimura, T., T. Sagiya, and R. S. Stein, Crustal block kinematics and seismic potential of the northernmost Philippine Sea plate and Izu microplatem central Japan, inferred from GPS and leveling data, J. Geophys. Res., 112, B05414, doi:10.1029/2005JB004102, 2007.

  36. 36.Hirahara, K., M. Ohzono, T. Sagiya, Y. Hoso, Y. Yada, and M. Ando, Dense GPS array observations across the Atotsugawa Fault system in central Japan, Geodynamics of Atotsugawa Fault System, Terrapub, 25-44, 2007.

  37. 37.太田雄策・鷺谷威・木股文昭, PPPキネマティックGPSの長期安定性評価, 測地学会誌, 52, 309-318, 2007. (in Japanese with English abstract)

  38. 38.Ohta Y, I. Meilano, T. Sagiya, F. Kimata, K. Hirahara, Large surface wave of the 2004 Sumatra-Andaman earthquake captured by the very long baseline kinematic analysis of 1-Hz GPS data, Earth Planets Space, refereed, 58, 53-157, 2006.

  39. 39.Ohzono, M., T. Tabei, K. Doi, K. Shibuya, and T. Sagiya, Crustal movement of Antarctica and Showa Station, based on GPS measurements, Earth Planets Space, 58, 794-804, 2006.

  40. 40.鷺谷威・大園真子・西脇周平・太田雄策・佐々木雅子・山室友生・木股文昭, 2004年新潟県中越地震の震源域南部周辺における余効変動, 地震, 58, 359-369, 2005. (in Japanese with English abstract)

  41. 41.Iio, Y., T. Sagiya, N. Umino, T. Nishimura, K. Takahashi, and T. Homma, A comprehensive model of the deformation in the Nagamachi-Rifu Fault Zone, Earth Planets Space, 56, 1339-1345, 2004.

  42. 42.Sagiya T., T. Nishimura, and Y. Iio, Heterogeneous crustal deformation along the Central-Northern Itoigawa-Shizuoka Tectonic Line Fault System, central Japan, Earth Planets Space, 56, 1247-1252, 2004.

  43. 43.Iio, Y., T. Sagiya, and Y. Kobayashi, What controls the occurrence of shallow intraplate earthquakes? Earth Planets Space, 56, 1077-1086, 2004.

  44. 44.Ohta, Y., F. Kimata, and T. Sagiya, Reexamiation of the interplate coupling in the Tokai region, central Japan, based on the GPS data in 1997-2002, Geophys. Res. Lett., 31, L24604, doi:10.1029/2004GL021404, 2004.

  45. 45.Sagiya, T., A decade of GEONET: 1994-2003 - The continuous GPS observation in Japan and its impact on earthquake studies -, Earth Planets Space, 56, xxix-xli, 2004.

  46. 46.Iio, Y., T. Sagiya, and Y. Kobayashi, Origin of the concentrated deformation zone in the Japanese Islands and stress accumulation process of intraplate earthquakes, Earth Planets Space, 56, 831-842, 2004.

  47. 47.Sagiya, T., Interplate coupling in the Kanto District, central Japan, and the Boso Silent earthquake in May 1996, PAGEOPH, 161, 11-12, 2601-2616, 2004.

  48. 48.Nishimura, T., T. Hirasawa, S. Miyazaki, T. Sagiya, T. Tada, S. Miura, and K. Tanaka, Temporal change of interplate coupling in northeastern Japan during 1995-2002 estimated from continuous GPS observations, Geophys. J. Int., 157, 901-916, 2004.

  49. 49.西村卓也, 鷺谷威, 三浦哲, GPS連続観測による長町-利府断層帯およびその周辺(東北地方中部)の地殻変動, 地震, 56, 497-510, 2004. (in Japanese with English abstract)

  50. 50.Irwan, M., F. Kimata, K. Hirahara, T. Sagiya, and A. Yamagiwa, Measureing ground deformations with 1-Hz GPS data: the 2003 Tokachi-oki earthquake (preliminary report), Earth Planets Space, 56, 389-393, 2004.

  51. 51.Takahashi, H., S. Nakao, N. Okazaki, J. Koyama, T. Sagiya, T. Ito, F. Ohya, K. Sato, Y. Fujita, M. Hashimoto, Y. Hoso, T. Kato, T. Iinuma, J. Fukuda, T. Matsushima, Y. Kohno, and M. Kasahara, GPS observation of the first month of postseismic crustal deformation associated with the 2003 Tokachi-oki earthquake (MJMA8.0), off southeastern Hokkaido, Japan, Earth Planets Space, 56, 377-382, 2004.

  52. 52.Sato, T., K. Imanishi, N. Kato, and T. Sagiya, Detection of a slow slip event from small singal in GPS data, Geophys. Res. Lett., 31, L0506, doi:10.1029/2004GL019514, 2004.

  53. 53.佐藤魂夫・今西和俊・加藤尚之・鷺谷威1968年十勝沖地震の北側アスペリティ近傍に発生した地震(2001年8月14日, Mw6.4)の余効すべり,東京大学地震研究所彙報,78,227-243,2003. (in Japanese with English abstract)

  54. 54.高田圭太・中田高・野原壮・原口強・池田安隆・伊藤潔・今泉俊文・大槻憲四郎・鷺谷威・堤浩之、震源断層となりうる活断層とリニア面との検討ー中国地方を事例としてー, 活断層研究, 23, 77-91, 2003. (in Japanese)

  55. 55.鷺谷威1918年大町地震の震源断層モデル―水準測量データの再検討と関連データの総合的解釈に基づく新たなモデル―,地震,56. 199-211,2003. (in Japanese with English abstract)

  56. 56.Wang, K., R. Wells, S. Mazzotti, R. D. Hyndman, and T. Sagiya, A revised dislocation model of interseismic deformation of the Cascadia subduction zone, J. Geophys. Res., 108, 10.1029/2001JB001227, 2003.

  57. 57.Iio, Y., T. Sagiya, Y. Kobayashi, and I. Shiozaki, Water-weakened lower crust and its role in the concentrated deformation in the Japanese islands, Earth Planet. Sci. Lett., 203. 245-253, 2002.

  58. 58.Ozawa, S., M. Murakami, M. Kaidzu, T. Tada, T. Sagiya, H. Yarai, and T. Nishimura, Detection and monitoring of ongoing aseismic slip in the Tokai region, central Japan, Science, 298, 1009-1012, 2002.

  59. 59.Toda, S., R. Stein and T. Sagiya, Evidence from the AD 2000 Izu islands earthquake swarm that stressing rate governs seismicity, Nature, 419, 58-61, 2002.

  60. 60.Sagiya, T., T. Nishimura, Y. Iio, and T. Tada, Crustal deformation around the northern and central Itoigawa-Shizuoka Tectonic Line, Earth. Planets, and Space, 54,1059-1063, 2002.

  61. 61.鷺谷威・西村卓也・畑中雄樹・福山英一・W. L. Ellsworth,2000年鳥取県西部地震に伴う地殻変動と断層モデル,地震,54, 523-534,2002. (in Japanese with English abstract)

  62. 62.Yagi, Y., M. Kikuchi, and T. Sagiya, Co-seismic slip, post-seismic slip, and aftershocks associated with two large earthquakes in 1996 in Hyuga-nada, Japan, Earth, Planets, and Space, 53, 793-803, 2001.

  63. 63.Nishimura, T., S. Ozawa, M. Murakami, T. Sagiya, T. Tada, M. Kaidzu, and M. Ukawa, Crustal deformation caused by magma migration in the northern Izu Islands, Japan, Geophys. Res. Lett., 28, 3745-3748, 2001.

  64. 64.Nishimura, T., S. Fujiwara, M. Murakami, M. Tobita, H. Nakagawa, T. Sagiya, and T. Tada, The M6.1 earthquake triggered by volcanic inflation of Iwate volcano, northern Japan, observed by satellite radar interferometry, Geophys. Res. Lett., 28, 635-638, 2001.

  65. 65.Sagiya, T., S. Miyazaki, and T. Tada, Continuous GPS Array and Present-day Crustal Deformation of Japan, PAGEOPH, 157, 2303-2322, 2000.

  66. 66.鷺谷威, 地殻活動予測シミュレーションと地殻変動データ同化,東京大学地震研究所彙報,75, 145-158,2000. (in Japanese with English abstract)

  67. 67.広瀬一聖・川崎一朗・岡田義光・鷺谷威・田村良明,1989年12月東京湾サイレント・アースクェイクの可能性,地震,53,11-23, 2000. (in Japanese with English abstract)

  68. 68.Mazzotti, S., P. Henry, X. Le Pichon, and T. Sagiya, Strain partitioning in the zone of transition from Nankai subduction to Izu-Bonin collision (Central Japan): implications for an extensional tear within the subducting slab, Earth Planet. Sci. Lett., 172, 1-10, 1999.

  69. 69.Yagi, Y., M. Kikuchi, S. Yoshida, and T. Sagiya, Comparison of the coseismic rupture with the aftershock distribution in the Hyuga-nada earthquakes of 1996, Geophys. Res. Lett., 26, 3161-3164, 1999.

  70. 70.Sagiya, T., Interplate coupling in the Tokai District, Central Japan, deduced from continuous GPS data, Geophys. Res. Lett., 26, 2315-2318, 1999.

  71. 71.鷺谷威, 1948年福井地震(M=7.1)に伴う地殻変動と震源断層モデル, 地震, 52, 111-120, 1999. (in Japanese with English abstract)

  72. 72.Sagiya, T. and W. Thatcher, Coseismic slip resolution along a plate boundary megathrust: The Nankai Trough, southwest Japan, J. Geophys. Res., 104, 1111-1129, 1999.

  73. 73.鷺谷威, GPS連続データから推定されるフィリピン海プレート北端部におけるプレート間相互作用とテクトニクス, 東京大学地震研究所彙報, 73, 275-290, 1998. (in Japanese with English abstract)

  74. 74.Yoshida, S., K. Koketsu, B. Shibazaki, T. Sagiya, T. Kato, and Y. Yoshida, Joint inversion of near- and far-field waveforms and geodetic data for the rupture process of the 1995 Kobe earthquake, J. Phys. Earth, 44, 437-454, 1996

  75. 75.Hashimoto, M., T. Sagiya, H. Tsuji, Y. Hatanaka, and T. Tada, Coseismic displacements of the 1995 Hyogo-ken Nanbu Earthquake, J. Phys. Earth, 44, 255-279, 1996.

  76. 76.Kawasaki, I., Y. Asai, Y. Tamura, T. Sagiya, N. Mikami, Y. Okada, M. Sakata, and M. Kasahara, The 1992 Sanriku-Oki, Japan, ultra-slow earthquake, J. Phys. Earth, 43, 105-116, 1995.

  77. 77.Tsuji, H., Y. Hatanaka, T. Sagiya, and M. Hashimoto, Coseismic crustal deformation from the 1994 Hokkaido-Toho-Oki earthquake monitored by a nationwide continuous GPS array in Japan, Geophys. Res. Lett., 22, 1669-1672, 1995.

  78. 78.Yoshioka, S., T. Yabuki, T. Sagiya, T. Tada, and M. Matsu'ura, Interplate coupling in the Kanto district, central Japan, deduced from geodetic data inversion and its tectonic implications, Tectonophys., 229, 181-200, 1994.

  79. 79.Yoshioka, S., T. Yabuki, T. Sagiya, T. Tada, and M. Matsu'ura, Interplate coupling and relative plate motions in the Tokai district, central Japan, deduced from geodetic data inversion using ABIC, Geophys. J. Int., 113, 607-621, 1993.

  80. 80.Ozawa, S., M. Hashimoto, T. Sagiya, and T. Tada, Coseismic deformation of Okushiri Island associated with the 1993 Southwest Off Hokkaido Earthquake detected by GPS survey, Proc. of the CRCM'93, Kobe, December 6-11, 1993, 147-156, 1993.

  81. 81.Hashimoto, M., T. Sagiya, S. Ozawa, and T. Tada, Fault models for the crustal movements associated with the 1993 Off Kushiro Earthquake and the Southwest Off Hokkaido Earthquake and their tectonic significance, Proc. of the CRCM’93, Kobe, December 6-11, 1993, 57-64, 1993.

  82. 82.Sagiya, T. and T. Tada, Postseismic crustal movements of Shikoku Island, Japan, Proc. of the CRCM'93, Kobe, December 6-11, 1993, 37-41, 1993.


Other Papers

  1. 83.末次大輔・寿楽浩太・金嶋聰・鷺谷威, 日本の原子力発電と地球科学ー9年間の「原発セッション」における議論を踏まえて, 科学, 91, 1082-1091, 2021.

  2. 84.鷺谷威, 測地データに基づく地震予測の可能性と課題, 科学, 86, 942-944, 2016.

  3. 85.鷺谷威, 地震学への提言ー臨時委員会における議論の総括ー, 「地震学の今を問う」(日本地震学会モノグラフ1号), 121-124, 2012.

  4. 86.大石真紀子・鷺谷威, 2004年スマトラーアンダマン地震震源域における応力場の時空間変化, 月刊地球, 31, 165-171, 2009.

  5. 87.鷺谷威, 「ひずみ集中帯」とは何か, 科学, 77, 1200-1205, 2007.

  6. 88.鷺谷威、中部・東北日本におけるプレート内歪み集中帯ーその構造、変形と地学的意義ー、月刊地球, 29, 376-382, 2007.

  7. 89.鷺谷威, 糸魚川ー静岡構造線と歪み集中帯ー測地データから見る松代群発地震の背景ー, 月刊地球, 28, 838-844, 2006.

  8. 90.鷺谷威, 中越地震と歪み集中帯, 月刊地球, 号外53, 82-89, 2006.

  9. 91.飯尾能久・鷺谷威・小林洋二, 何が陸域の大地震の発生をコントロールしているか?, 月刊地球, 号外50, 221-227, 2005.

  10. 92.鷺谷威, 糸魚川ー静岡構造線断層帯北部における変形過程の有限要素モデル,月刊地球,号外50,116-122,2005.

  11. 93.西村卓也・鷺谷威・三浦哲, GPS連続観測による長町ー利府断層帯の地殻変動、月刊地球, 号外50, 75-82, 2005.

  12. 94.鷺谷威, 1944年東南海地震前後の地殻変動再考,月刊地球,26,746-753,2004.

  13. 95.鷺谷威, 測地学的歪み速度と地質学的歪み速度の矛盾は解消可能か?, 月刊地球, 号外46, 183-189, 2004.

  14. 96.鷺谷威・井上政明, 測地測量データで見る中部日本の地殻変動, 月刊地球, 25, 918-928, 2003.

  15. 97.鷺谷威, 地殻活動予測のための地殻変動データ同化, 月刊地球, 25, 687-693, 2003.

  16. 98.鷺谷威, GPSによるゆっくり地震の解析, 科学, 73, 1006-1011, 2003.

  17. 99.佐藤魂夫・今西和俊・加藤尚之・鷺谷威, 青森県東方沖の地震空白域内に発生した地震(2001年8月14日, M6.2)の破壊過程と地殻変動, 東北地域災害科学研究, 39, 13-19, 2003.

  18. 100.鷺谷威・西村卓也・村上亮・今給黎哲郎・赤坂望, 地殻活動観測データ総合解析システムの開発, 国土地理院時報, 101, 33-43, 2003.

  19. 101.小沢慎三郎・村上亮・海津優・多田堯・鷺谷威・畑中雄樹・矢来博司・西村卓也, 東海地方における非地震性滑りの検出とその現状, 月刊地球, 25, 70-74, 2003.

  20. 102.鷺谷威, 日本列島周辺で発生した大地震の静的断層モデルー多田堯先生の業績と1918年大町地震の断層モデルー, 月刊地球, 25, 51-58, 2003.

  21. 103.橋本学・鷺谷威, 日本列島の地殻変動と地震・火山・テクトニクスー多田堯先生を偲ぶー, 月刊地球, 25, 3-14, 2003.

  22. 104.鷺谷威, GPSで見た2000年鳥取県西部地震,月刊地球,号外38, 194-202, 2002.

  23. 105.Sagiya, T., Searching for silent earthquake with geodetic data, Bull. Geogr. Surv. Inst., 48, 25-38, 2002.

  24. 106.鷺谷威・呉智深・寺川寿子・伊神正貫・本間高弘・安藤知明,DFEMによる地殻変動解析,国土地理院時報,97, 53-61, 2002.

  25. 107.鷺谷威,南関東地域の地殻変動に関する諸問題,月刊地球,号外34,144-154,2001.

  26. 108.鷺谷威, 東海地方におけるプレート境界の動態と東海地震, 月刊地球, 号外33, 120-125, 2001.

  27. 109.鷺谷威, 東海地方周辺のGPS観測-最近の成果-, 月刊地球, 号外33, 68-77, 2001.

  28. 110.飯尾能久・ 鷺谷威, 日本列島のモデリング, 月刊地球, 23, 360-365, 2001.

  29. 111.鷺谷威・西村卓也・三浦哲・飯尾能久・多田堯, 稠密GPS観測アレイによる断層深部すべり過程の解明, 月刊地球, 23, 321-327, 2001.

  30. 112.飯尾能久・小林洋二・鷺谷威・塩崎一郎,下部地殻の水が島弧地殻の変形を規定する,月刊地球,22, 37-44, 2000.

  31. 113.鷺谷威・宮崎真一・多田堯, GPSで見た日本列島の変形, 月刊地球, 21, 236-243, 1999.

  32. 114.鷺谷威, 四国における地殻変動サイクルとプレート間相互作用, 月刊地球, 号外24, 26-33, 1999.

  33. 115.鷺谷威, GPSによる東海地方のプレート間カップリングと東海地震, 月刊地球, 20, 615-620, 1998.

  34. 116.鷺谷威・多田堯, 日本海東縁部の地殻変動とテクトニクス, 月刊地球, 20, 515-521, 1998.

  35. 117.吉田明夫・松村正三・野口伸一・鷺谷威, 加藤尚之, プレート沈み込み境界巨大地震の震源域とその周辺における応力の蓄積・解放過程の解明に関する研究-東海地震の予知精度の向上に向けて-, 月刊地球, 号外20, 62-65, 1998.

  36. 118.Miyazaki, S., Y. Hatanaka, T. Sagiya, and T. Tada, The nationwide GPS array as an earth observation system, Bull. Geogr. Surv. Inst., 44, 11-22, 1998.

  37. 119.Sagiya, T., Crustal movements as earthquake precursors -Leveling anomaly before the 1944 Tonankai Earthquake revisited-, Bull. Geogr. Surv. Inst., 44, 23-36, 1998.

  38. 120.鷺谷威, 南関東・東海地域におけるGPS連続観測(1994年~1996年), 国土地理院時報, 88, 10-18, 1998.

  39. 121.多田堯・鷺谷威・宮崎真一, GPSでみた変動する日本列島, 科学, 67, 917-927, 1997.

  40. 122.Sagiya, T., A. Yoshimura, E.Iwata, K. Abe, I. Kimura, K. Uemura, and T. Tada, Establishment of permanent GPS observation network and crustal deformation monitoring in the southern Kanto and Tokai areas, Bull. Geogr. Surv. Inst., 41, 105-118, 1995

  41. 123.鷺谷威・多田堯, 南海トラフ沿岸地域の地殻上下変動とプレート間相互作用, 月刊地球, 16, 361-367, 1994.


Books

  1. 124.鳥海光弘,入舩徹男,岩森光,ウォリス・サイモン,小平秀一,小宮剛,阪口秀,鷺谷威,末次大輔,中川貴司,宮本英昭(編) , 図説地球科学の事典 , 朝倉書店, 2018

  2. 125.鷺谷威(分担執筆),いま活断層が危ない 中部の内陸直下型地震(安藤雅孝・田所敬一・林能成・木村玲欧編著),中日新聞社,2006.

  3. 126.鷺谷威(分担執筆),プレート間カップリング,CD-ROMテキスト「測地学」(日本測地学会編),日本測地学会,2004.

  4. 127.鷺谷威(分担執筆),明治期以降の歪み集中帯,日本海東縁部の活断層と地震テクトニクス,東京大学出版会,133-150, 2002.

  5. 128.Sagiya, T., Modeling and Simulation of Crustal Activity, in “New Frontiers of Science and Technology” (ed. by L. Esaki), University Academic Press, 395-400, 2000.


Miscellaneous Articles

  1. 129.鷺谷威, 書評 石橋克彦:「リニア新幹線と南海トラフ巨大地震『超高域大震災』にどう備えるか」, 地学雑誌, 130(6), N53-N54, 2021.

  2. 130.鷺谷威, M9地震の可能性に気付けなかった意外な要因ー1894年庄内地震により生じた三角測量のスケール誤差, 地震ジャーナル, 72, 26-33, 2021.

  3. 131.鷺谷威, 南海トラフ地震の実像 1944年昭和東南海地震と1946年昭和南海地震, 28, 34-39, 2019.

  4. 132.鷺谷威, 予想される巨大地震に対して、今からどのような対策を立てるべきか, 教育展望, 64-8, 11-15, 2018.

  5. 133.鷺谷威, 大震法の見直しをめぐって, 消防防災の科学, 128, 4-5, 2017.

  6. 134.鷺谷威, 島弧の地殻変動と活断層地震のメカニズム, 土と岩, 65, 14-21, 2017.

  7. 135.鷺谷威, 1944年東南海地震発生時の掛川異常隆起は本当か?, 地震ジャーナル, 62, 13-25, 2016.

  8. 136.鷺谷威, 南海トラフ地震ーその実像と予測に関する諸問題, 学士会会報, 921, 91-96, 2016.

  9. 137.鷺谷威, 2011年東北地方太平洋沖地震ー3.11から1年で何が分かったのかー, 日本地球惑星科学連合ニュースレター, 8, 1-3, 2012.

  10. 138.鷺谷威, なぜM9地震は予見できなかったのか, 名古屋大学理学部・大学院理学研究科広報誌, 22, 6-9, 2012.

  11. 139.鷺谷威, 東日本大震災と南海トラフの巨大地震, 土と岩, 60, 14-22, 2012.

  12. 140.鷺谷威, 東北地方太平洋沖地震ー何が起きたのか、何を考えたのか, 日本の科学者, 46, 1350-1346, 2011.

  13. 141.鷺谷威, 日本が研究をリードー揺れない地震,別冊日経サイエンス「地球大異変:巨大地震や超大型台風の脅威」,36-38,2006.

  14. 142.鷺谷威GPS連続観測で見る日本列島の変形,サイスモ,2005年6月号,10-11,2005.

  15. 143.鷺谷威,地殻変動研究の最近の動向,学術月報,58, 196-200,2005.

  16. 144.鷺谷威 東海地震と関連?日本で観測進む,日経サイエンス,2004年6月号,35-37,2004.

  17. 145.サーベリ, P.,揺れない地震の脅威(監修:鷺谷威),日経サイエンス,2004年6月号,28-34,2004.

  18. 146.鷺谷威,菊地先生から学んだこと,月刊地球,号外45,72-73,2004.

  19. 147.鷺谷威GPSでみた次の関東地震,地震ジャーナル,36, 14-21,2003.

  20. 148.鷺谷威(分担執筆)、The地震展ー関東大震災80年ー(島崎邦彦・武村雅之・大迫正弘・読売新聞東京本社文化事業部編)、読売新聞東京本社、34-38, 66-69, 94, 2003.

  21. 149.鷺谷威, 日本列島をリアルタイムでGPS連続観測,AERA MOOK「地震がわかる。」, 朝日新聞社, 70-72, 2002.

  22. 150.鷺谷威,日本地震調査研究体制と最近の動向,建設関連業月報,2001年12月号, 38-40, 2001.

  23. 151.鷺谷威,東海地震・南海地震・東南海地震,建設関連業月報,2001年12月号, 27-32, 2001.

  24. 152.鷺谷威,神戸-新潟構造帯:日本列島を貫く歪の集中帯,サイスモ,2001年5月号, 2001.

  25. 153.鷺谷威,東海地方における最近の地殻変動の状況,日本地震学会ニュースレター,2000.



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