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Yoshiki SATO, GSJ, AIST


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* translated, [JE] in Japanese with English abstract, [JJ] in Japanese only

  • Articles (reviewed)
  1. Sato, Y., Mizuno, K. & Nakashima, R. (2021) Sedimentary environmental change after the Last Glacial Maximum in the Miyagawa Plain, southwestern coast of the Ise Bay, central Japan. Bulletin of the Geological Survey of Japan, 72, 65–80. LINK [JE]
  2. Sato, Y., Ono, E. & Fujiwara, O. (2021) Verification of the 1703 CE Genroku Kanto earthquake tsunami at Katakai Village, Kujukurihama Strand Plain, using the historical and geological records. The Quaternary Research (Daiyonki-Kenkyu), 60, 1-12.LINK [JE]
  3. Sato, Y., Takashimizu, Y. & Urabe, A. (2020) Diatom assemblages in the 2011 Tohoku-oki tsunami deposits and underlying soil in the Sendai Plain. Diatom, 36, 85-91.LINK [JE]
  4. Sato, Y., Mizuno, K., Nakashima, R. & Yamazaki, H. (2020) Middle Holocene palaeoseismic history of Kozu-Matsuda Fault Zone inferred from off-fault palaeoseismological evidences in Ashigara Plain, central Japan. Active Fault Research, 52, 9-24.LINK [JE]
  5. Sato,Y. & Ono, E. (2020) Paralia kawasumii sp. nov., a new fossil Paralia species with an elliptical valve from upper Holocene coastal sediments of the central Ise Plain, central Japan. Diatom Research, 35, 113-126.LINK
  6. Sugito, N., Sawa, H., Taniguchi, K., Sato, Y., Watanabe, M. & Suzuki, Y. (2019) Evolution of Riedel-shear pop-up structures during cumulative strike-slip faulting: A case study in the Misayama-Godo area, Fujimi Town, central Japan. Geomorphology, 327, 446-455.LINK
  7. Fujiwara, O., Aoshima, A., Irizuki, T., Ono, E., Obrochta, S.P., Sampei, Y., Sato, Y. & Takahashi, A. (2019) Tsunami deposits refine great earthquake rupture extent and recurrence over the past 1300 years along the Nankai and Tokai fault segments of the Nankai Trough, Japan. Quaternary Science Reviews, 227, 105999.LINK
  8. Nakazawa, T., Sakata, K., Sato, Y., Hoshizumi, H., Urabe, A. & Yoshimi, M. (2018) Stratigraphy and distribution pattern of volcanogenic sediments beneath downtown Mashiki, Kumamoto, SW Japan, seriously damaged by the 2016 Kumamoto Earthquake. The Journal of the Geological Society of Japan, 124, 347-359.LINK [JE]
  9. Cho, I., Urabe, A., Nakazawa, T., Sato, Y. & Sakata, K. (2018) Simple assessment of shallow velocity structures with small-scale microtremor arrays: interval-averaged S-wave velocities. Exploration Geophysics, 49, 922-927.LINK
  10. Sato, Y., Kodama, Y. & Kashima, K. (2018) Last ~1,300 years environmental change at Lake Koyama-ike inferred from diatom fossil assemblages and electric conductivity analyses, Tottori Prefecture, Japan. LAGUNA, 24, 27-37.PDF [1.6MB] [JE]
  11. Sato, Y., Ota, Y., Mizuno, K. & Ishiyama, T. (2018) Review on "3 ka seismic event" of Kozu-Matsuda Fault Zone inferred from CNS element and Pollen analyses in southern Ashigara Plain, central Japan. Annual Report on Active Fault and Plakeoearthquake Researches, 18, 57-72.PDF[3.0MB] [JE]
  12. Ono, E. & Sato, Y. (2018) Basic geological data for understanding the damage in Anotsu caused by the 1498 Meio Tokai Earthquake*. Disaster, Reconstruction and Documents*, 10, 38-43. [JJ]
  13. Sato, Y., Kashima, K. & Kodama, Y. (2017) Diatom assemblages of lake bed sediments in Lake Koyama-ike, Tottori Prefecture, western Japan. Diatom, 33, 27-32.LINK [JE]
  14. Sato, Y. & Fujiwara, O. (2017) Microfossil evidence for recurrent coseismic subsidence around Lake Hamana, near the Nankai-Suruga trough, central Japan. Quaternary International, 456, 39-52.LINK
  15. Sato, Y. & Ono, E. (2017) Late Holocene Geomorphological Development of Beach Ridge Ranges in the Central Part of Ise Plain, Central Japan. Geographical review of Japan series A, 90, 475-490. LINK[JE]
  16. Sato, Y., Miyachi, Y., Urabe, A., Komatasubara, J., Naya, T. (2017) Crevasse splay deposits of the 2015 Kanto-Tohoku Torrential Rain Disaster in the central part of the Kinu River, Kami-Misaka district, Joso City. The Quaternary Research (Daiyonki-Kenkyu), 56, 37-50. LINK [JE]
  17. Takashimizu, Y., Nishina, K., Kawakami, G., Sato, Y., Okamura, S., Nakanishi, R., Tamura, M., Hirose, W., Takahashi, R. & Ishimaru, S. (2017) Identification of a 17th-century tsunami deposit on the northern Hidaka coast, Hokkaido, northern Japan. The Quaternary Research (Daiyonki-Kenkyu), 56, 1-9.LINK[JE]
  18. Hori, K., Nagasawa, S., Sato, Y., Nakanishi, T., Hong, W. (2017) Response of A Coarse-Grained, Fluvial To Coastal Depositional System To Glacio-Eustatic Sea-Level Fluctuation Since the Last Glacial Maximum: An Example From the Tenryu River, Japan. Journal of Sedimentary Research, 87, 133-151.LINK
  19. Ono, E., Sato, Y., Yata, T. & Kaizu, H. (2016) Relationship between the Development of Salt Paddies in the Muya District, Tokushima Prefecture and the 1596 Earthquake*. Historical geography (Rekishi-Chirigaku) , 58, 24-34.PDF[2.4MB] [JJ]
  20. Sato, Y., Matsuoka, H., Okamura, M. & Kashima, K. (2016) Late Holocene environmental changes of coastal lagoon inferred from a fossil diatom analysis of sediment core from Lake Hamana, central Japan. Quaternary International, 397, 317-329. LINK
  21. Sato, Y., Fujiwara, O. & Ono, E. (2016) Late Holocene geomorphological development of beach ridges in western Hamamatsu strand plain, central Japan. The Quaternary Research (Daiyonki-Kenkyu), 55, 17-35. LINK[JE]
  22. Fujiwara, O., Kitamura, A., Sato, Y., Aoshima, A., Ono, E., Kobayashi, K., Ogura, K. & Tanigawa, K. (2015) Relative sea-level rise in the middle to late Yayoi Era observed in the Otagawa lowland, Pacific coast of central Japan. The Quaternary Research (Daiyonki-Kenkyu), 54, 11-20.LINK [JE]
  23. Fujiwara, O., Ono, E., Yata, T., Umitsu, M., Sato, Y. & Heyvaert, VMA (2013) Assessing the impact of 1498 Meio earthquake and tsunami along the Enshu-nada coast, central Japan using coastal geology. Quaternary International , 308, 4-12.LINK
  24. Sato, Y. & Ono, E. (2013) Late Holocene Geoenvironmental Changes around Lake Koyama- Tottori Plain, Western Japan. Geographical review of Japan series A, 86, 270-287.LINK [JE]
  25. Fujiwara, O., Sato, Y., Ono, E. & Umitsu, M. (2013) Researches on Tsunami Deposits Using Sediment Cores -3.4 ka Tsunami Deposit in the Rokken-gawa Lowland near Lake Hamana, Pacific Coast of Central Japan-. Journal of Geography (Chigaku Zasshi), 122, 308-322. LINK [JE]
  26. Takashimizu, Y., Urabe, A., Suzuki, K. & Sato, Y. (2012) Deposition by the 2011 Tohoku-oki tsunami on coastal lowland controlled by beach ridges near Sendai, Japan. Sedimentary Geology, 282, 124-141.LINK
  27. Sato, Y., Fujiwara, O., Ono, E. & Umitsu, M. (2011) Environmental Change in Coastal Lowlands around the Lake Hamana during the Middle to Late Holocene. Geographical review of Japan series A, 84, 258-273. LINK [JE]
  28. Suzuki, Y., Sugito, N., Kumamoto, T., Sawa, H., Watanabe, M., Matsuta, N., Hirouchi, D., Taniguchi, K., Tajikara, M., Ishiguro, S. & Sato, Y. (2010) Prediction of coseismic fault behavior based on slip-rate and slip distributions for the northern part of the Itoigawa-Shizuoka Tectonic Line active fault zone, central Japan. Active Fault Research, 33, 1-14.LINK [JE]
  29. Fujiwara, O., Ono, E., Yata, T., Umitsu, M., Sato, Y., Vannessa Heyvaert(2010)Geomorphic impact by the 1498 Meio earthquake along the Hamana River on the Enshu-nada coast, Central Japan: Evidence from the cored sediments. Historical earthquake* (Rekishi-Jishin), 25, 29-38.PDF[0.6MB] [JE]
  30. Doke, R., Sato, Y., Yasue, K., Hirouchi, D. (2008) Tectonic landform and slip rate of Atera fault zone in the Kashimo area, Gifu prefecture, central Japan. Active Fault Research, 29, 79-86.LINK [JE]
  31. Tajikara, M., Sugito, N., Sawa, H., Taniguchi, K., Hirouchi, D., Matsuta, M., Sato, Y., Ishiguro, S., Ando, T., Uchida, C., Sakaue, H., Kumamoto, T., Watanabe, M. & Suzuki, Y. (2007) Tectonic geomorphology of the northeastern margin of the Suwa Basin, along the middle part of the Itoigawa-Shizuoka Tectonic Line Active Fault System. Active Fault Research, 27, 147-168.LINK [JE]
  32. Sawa, H., Taniguchi, K., Hirouchi, D., Matsuta, N., Uchida, C., Sato, Y., Ishiguro, S., Tajikara, M., Sugito, N., Ando, T., Kumamoto, T., Sano, S., Nozawa, T., Sakaue, H., Watanabe, M. & Suzuki, Y. (2007) Reexamination of tectonic geomorphology of the southern part of the Matsumoto Basin and the southwestern margin of the Suwa Basin, along the middle part of the Itoigawa-Shizuoka Tectonic Line active fault system. Active Fault Research, 27, 169-190.LINK [JE]
  33. Fujiwara, O., Ono, E., Satake, K., Sawai, Y., Umitsu, M., Yata, T., Abe, K., Ikeda, T., Okamura, N., Sato, Y., Than Tin Aung, Uchida, J. (2007) Trace of the AD1707 Hoei earthquake from the coastal lowland, Shizuoka Prefecture, central Japan. Annual Report on Active Fault and Plakeoearthquake Researches, 7, 151-171.PDF[2.6MB] [JE]
  34. Sawa, H., Tajikara, M., Taniguchi, K., Hirouchi, D., Matsuta, N. Ando, T., Sato, Y., Ishiguro, S. Uchida, C., Sakaue, H., Kumamoto, T., Watanabe, M. & Suzuki, Y. (2006) Study of tectonic landforms and late Quaternary slip rates along the northern part of the Itoigawa-Shizuoka tectonic line, between Omachi city and Matsumoto city. Active Fault Research, 26, 121-136.LINK [JE]
  35. Matsuta, N., Sawa, H., Ando, T., Hirouchi, D., Tajikara, M., Taniguchi, K., Sato, Y., Ishiguro, S., Uchida, C., Sano, S., Nozawa, T., Sakaue, H., Kumamoto, T., Watanabe, M. & Suzuki, Y. (2006) The vertical slip-rate and geomorphological mapping between Tsugaike and Lake Kizaki along the northern Itoigawa-Shizuoka tectonic line active fault system. Active Fault Research, 26, 105-120.LINK [JE]

  • Articles(not reviewed)
  1. Fujiwara, O., Ono, E., Yata, T., Umitsum, M., Okamura, Y., Satake, K., Sato, Y., Sawai, Y., Than Tin Aungn (2009) Uplift events in the Enshunada coast caused by the 1707 Hōei earthquake identified from historical and geological records*. Chikyu monthly (Gekkan Chikyu), 31, 203-210. [JJ]

  • Reports
  1. Sato, Y., Mizuno, K. & Nakashima, R. (2021) Late Quaternary subsurface geology and tephra layers in the Ashigara Plain and western Oiso Hill. Seamless Geoinformation of Coastal Zone "Coastal Zone of Sagami Bay", S-7. 52p. Report[9.0MB] [JE]
  2. Mizuno, K., Ozaki, M. & Sato, Y. (2021) 1:50,000 Quaternary geological map of the Oiso Hills and surrounding area, and its explanatory notes. Seamless Geoinformation of Coastal Zone "Coastal Zone of Sagami Bay", S-7. 52p. Map[68.2MB], Report[10.8MB] [JE]
  3. Sato, Y., Mizuno, K., Kubo, S. & Nakashima, R. (2021) Quaternary subsurface geology and distribution of buried Late Pleistocene terraces in the lower Sagami Plain. Seamless Geoinformation of Coastal Zone "Coastal Zone of Sagami Bay", S-7. 52p. Report[6.1MB] [JE]
  4. Sato, Y. (2020) Preliminary report of coring survey of Quaternary sediments in the lower reach of Kushida River, Mie Prefecture, central Japan . GSJ Interim Report No.81, Annual Report of Investigations on Geology and Active Faults in the Coastal Zone of Japan (FY2019), 59-65.PDF[1.9MB] [JE]
  5. Sato, Y., Okitsu, M. & Tanaka, N. (2020) Preliminary report of radiocarbon ages and pollen fossil analysis of Quaternary sediments in southern part of Suzuka City, Mie Prefecture, central Japan. GSJ Interim Report No.81, Annual Report of Investigations on Geology and Active Faults in the Coastal Zone of Japan (FY2019), 51-58.PDF[1.5MB] [JE]
  6. Amano, A., Tamura, T., Sato, Y., Ogami, T., Sato, T. (2020) Lithofacies and stratigraphy of boring cores collected in Ise Bay. GSJ Interim Report No.81, Annual Report of Investigations on Geology and Active Faults in the Coastal Zone of Japan (FY2019), 25-33.PDF[1.4MB] [JE]
  7. Sato, Y., Mizuno, K. & Nakashima, R. (2019) Preliminary report of coring survey on Quaternary sediments in southern part of Suzuka City, Mie Prefecture, central Japan. GSJ Interim Report No.79, Annual Report of Investigations on Geology and Active Faults in the Coastal Zone of Japan (FY2018), 95-106. PDF[1.5MB] [JE]
  8. Sato, Y., Mizuno, K. & Nakashima, R. (2018) Preliminary report about coring survey of Chuseki-so in the Lower Miyakawa Plain, southwestern coast of the Ise Bay, central Japan. GSJ Interim Report No.76, Annual Report of Investigations on Geology and Active Faults in the Coastal Zone of Japan (FY2017), 19-28.PDF[1.5MB] [JE]
  9. Sato, Y. & Mizuno(2018) Preliminary report of geomorphological and geological survey on Quaternary sediments in southern part of Suzuka City, Mie Prefecture, central Japan. GSJ Interim Report No.76, Annual Report of Investigations on Geology and Active Faults in the Coastal Zone of Japan (FY2017), 11-18.PDF [1.5MB] [JE]
  10. Hirouchi, D., Matsuta, N., Sato, Y., Sakamoto, E., Hori, K., Kawakami, G., Yonehara, K. (2017) Crustal movement patterns of the Nankai Trough mega-earthquakes from the perspective of beach ridges and sedimentary environments in the coastal plain of the Enshu-nada Coast*. Annual Report Of The Disaster Prevention Research Center, 13, 41-47. [JJ]
  11. Sato, Y., Mizuno, K., Kubo, S., Hosoya, T., Morita, S., Kaga, T. (2017) Preliminary reports on coring survey in Ashigara and Lower Sagami-gawa Plains, central Japan . GSJ Interim Report No.74, Annual Report of Investigations on Geology and Active Faults in the Coastal Zone of Japan (FY2016), 97-110. PDF [3.5MB] [JE]
  12. Sato, Y., Sakamoto, E., Matsuta, N. & Hirouchi, D. (2016) "Marine sediments" and its depositional ages found in the interridges marshes of the Kikugawa lowland, eastern Enshu-nada Coast, Japan*. Annual Report Of The Disaster Prevention Research Center, 12, 43-47. [JJ]
  13. Sato, Y. & Kubo, S. (2016) Preliminary report of Quaternary subsurface geology in Lower Sagami Plain, central Japan. GSJ Interim Report No.71, Annual Report of Investigations on Geology and Active Faults in the Coastal Zone of Japan (FY2016), 139-152.PDF[2.4MB] [JE]
  14. Sato, Y., Mizuno, K., Hosoya, T., Ueki, T., Morita, S. & Yamazaki, H. (2015) Coring survey and diatom fossil analyses of alluvium in Ashigara Plain, central Japan. GSJ Interim Report No.68, Annual Report of Investigations on Geology and Active Faults in the Coastal Zone of Japan (FY2014), 83-105.PDF [5.2MB] [JE]
  15. Sato, Y., Iida, A., Ikeda, K., Yasue, K. & Hirouchi, D. (2015) Reconstruction of late Holocene coastal vegetation change in an interridges marshes in the southern Otagawa Lowland inferred from plant opal analysis*. Annual Report Of The Disaster Prevention Research Center, 11, 35-41. [JJ]
  16. Hirouchi, D., Sato, Y., Matsuta, N., Hori, K., Shimizu, R., Endo, Y., Nishikawa, Y. & YAN, Y.C. (2015) Late Holocene sedimentary environmental changes in interridges marshes in the Ohtagawa Lowland, Shizuoka Prefecture, Japan*. Annual Report Of The Disaster Prevention Research Center, 10, 43-46. [JJ]

  • Books
  1. Sato, Y. & Ono, E. (2019) 1 Geo-environmental change around the Iba archaeological site inferred from diatom analysis after the maximum Holocene Transgression*. In:Hamamatsu Manicipal Board of Education ed., Reports of the 19th & 20th excavation survey of the Kajiko archaeological site -paleo-environment-*., Life Co. Ltd., Tokyo, 1-17.LINK
  2. Ono, E., Sato, Y. (2018) Chapter III Results of analyses on the EKK1 core from Site 148 of the Kamikoiwa, Edogawa-ku, Tokyo*. In: Taisei Engineering CO. Ltd. ed., Edogawa Ward Archaeological Survey Report No. 5 "Kami-Koiwa Site, Site 148" Report on the Archaeological Survey associated with the houses for sale*. Noto Printing Co. Ltd., Kanazawa, 49-52.
  3. Sato, Y. (2012) RPart 2, Chapter 14, Reconstruction of geo-environmental change inferred from diatom analysis in alluvial lowlands around the Lake Hamana, Japan*. In: Umitsu, M. ed. Geo-environment of Alluvial and Coastal Lowlands. LINK, Kokon-Shoin Publishers, Tokyo, 119-131.

  • Others
  1. Sato, Y. (2021) Book review: Kano, Y., Sugimori, R., Ebara, M. & Satake, K.(2021) Earthquakes and Volcanic Eruptions in Japanese History: Lessons from the Past for the Future. The Quaternary Research (Daiyonki-Kenkyu), 60, 71.
  2. Sato, Y. & Nanayama, F. (2020) Book review: Umitsu, M. (2019) Alluvial and coastal plains: Geo-environment and natsural hazard risk. GSJ Chishitsu News, 9, 81-82.LINK
  3. Fujiwara, O., Miyachi, Y., Sakaguchi, K. & Sato, Y. (2018) Event Report: The 26th GSJ symposium Science of Mt. Fuji at 5,000 m -Exploring the Geology and Nature of the northern Suruga Bay-*. GSJ Chishitsu News, 7, 14-15.LINK
  4. Fujiwara, O., Miyachi, Y., Sakaguchi, K. & Sato, Y. (2017) Event Report: The 25th GSJ symposium Science of Mt. Fuji at 5,000 m -Exploring the Geology and Nature of the northern Suruga Bay-*. GSJ Chishitsu News, 6, 400-401.LINK
  5. Komatsubara, J., Noda, A., Tanabe, S., Sato, Y., Miyakawa, A., Hosoi, J., Kinoshita, S., Saito, M., Takahashi, S., Miyachi, Y. & Tkahashi, M. (2016) Event Report: Science session in the 2016 AIST Public Open Day "Let's study about geology with analog models!". GSJ Chishitsu News, 5, 389-398.LINK
  6. Sato, Y., Miyachi, Y., Tanabe, S., Komatsubara, J. & Naya, T. (2016) Investigation of flood sediments caused by the 2015 Kanto-Tohoku torrential rains in Joso City, Ibaraki Prefecture, Japan. GSJ Chishitsu News, 5, 1-6.LINK

  • Presentation
    2021
  1. Sato, Y., Ono, E. & Koiwa, N. (2021.9, in preparation) Reconstruction of Late Holocene sedimental environments in Naha Lowland, Okinawa Pref., southwestern Japan. Annual Meeting of the Association of Japanese Geographers, Autumn 2021, Onlilne.
  2. Sato, Y., Hongo, M., Mizuno, K. & Nakashima, R. (2021.9) Stratigraphic correlation of Quaternary marine deposits beneath the Tokushima Plain inferred from electric conductivity and fossil pollen analyses of the Bando observation well core, western Japan. The 128th Annual Meeting of the Geological Society of Japan, Online.
  3. Sato, Y., Ono, E., Koiwa, N. & Takahashi, M. (2021.8) Depositional process of incised valley fill deposits in central part of the Aomori Plain, northeastern Japan. JAQUA meetings and symposia 2021, Online.
  4. Nakatani, K., Nishiyama, K., Nakao, K., Sato, Y., Haneda, Y., Suzuki, Y., Mizuno, K. & Nakashima, R. (2021.8) Straphigraphic examination of the Quaternary sediment core drilled in Nakatokushima-cho, Tokushima City, West Japan. JAQUA meetings and symposia 2021, Online.
  5. Sato, Y., Mizuno, K., Haneda, Y., Nakatani, K. & Nakashima, R. (2021.5) Identification of middle to late Pleistocene marine sediments inferred from electric conductivity analysis of the Bando observation well core in Tokushima Plain, western Japan. JpGU 2021, Online.
  6. Komatsubara, T., Hongo, M. & Sato, Y. (2021.5) Middle Pleistocene terraces in the Chita Peninsula, near Nagoya, central Japan. JpGU 2021, Online.
    7. 2020
  7. Nakano, T., Matsuta, N., Hori, K., Hirouchi, D., Sugito, N., Sato, Y. & Ishiyama, T. (2020.7) GPR survey for estimating the internal structure of the beach levee formed in the coastal lowland of Enshunada Sea. JpGU 2020, Online.
  8. Sato, Y. & Urabe, A. (2020.7)Grain Size Composition of Crevasse Spray Sediments in the middle part of Kinu River. JpGU 2020, Online.
  9. Sato, Y. & Kubo, S. (2020.7) Distribution map of subsurface Late Pleistocene fluvial terraces in the lower Sagami Plain, central Japan. JpGU 2020, Online.
  10. Amano, A., Tamura, T., Sato, Y., Ogami, T. & Sato, T. (2020.7) Sedimentary environmental changes in the Pleistocene to Holocene based on boring cores in Ise Bay, Central Japan. JpGU 2020, Online.
  11. Sato, Y.(2020.3) Infilling process of Chuseki-so in Miyakawa Plain, Mie Prefecture, central Japan. Annual Meeting of the Association of Japanese Geographers, Spring 2020, Setagaya, Tokyo.
    12. 2019
  12. Sato, Y. & Ono, E. (2019.9) Late Holocene environmental changes in the Iba archaeological sites and origin of the Iba Omizo Channel, Hamamatsu City, central Japan. Annual Meeting of the Association of Japanese Geographers, Autumn 2019, Niigata.
  13. Sato, Y.(2019.5)Subsurface distribution of marine deposits during the MIS 5e and vertical displacement inferred from microfossil evidences and borehole logs in northern Ise Plain, central Japan. JpGU 2019, Chiba.
    14. 2018
  14. Sato, Y., Mizuno, K. & Nakashima, R. (2018.12) Stratigraphy of alluvium and its basal distribution in lower reaches of Miyakawa River, Mie Prefecture, central Japan. The 125th Annual Meeting (2018Sapporo-Tsukuba), Tsukuba.
  15. Sato, Y., Toizumi, T., Koiwa, N., Ono, E. (2018.8) Geo-environmental changes since the middle Holocene at the mouth of Lake Ogawara, Aomori Prefecture, Japan*. JAQUA meetings and symposia 2018, Hachioji.
  16. Sato, Y., Ota, Y., Mizuno, K., Ishiyama, T. (2018.5) Review on ca. 3 ka Event of Kozu-Matsuda Fault Zone inferred from CNS elemental and Pollen analyses in southern Ashigara Plain, central Japan. JpGU 2018, Chiba.
  17. Sato, Y., Mizuno, K. (2018.5) Characteristics of last 13 ka accumulation curves of incised valley fill related to relative sea level change in the southern Ashigara Plain, central Japan. JpGU 2018, Chiba.
  18. Sato, Y., Sato, S., Kamakura, S., Sawai, Y., Shirota, K. & Konno, S. (2018.5) Plagiogramma tsawwassen found in the Lake Namako-ike, Kami-koshikijima, Kagoshima Prefecture, Japan. The 39th Japanese Society of Diatomology Annual Meeting, Niigata.
  19. Sato, Y.(2018.3) Morphological characteristics of Paralia elliptica M. Garcia from the Holocene of the central Ise Plain. Micropaleontological Reference Center Meeting, Tsukuba.
  20. Hirouchi, D., Matsuta, N., Ishiyama, T., Sugito, N., Takeshita, Y., Mizutani, K., Yasue, K., Fujita, N., Sawa, H., Doke, R., Sato, Y., Tsutsumi, H., Echigo, T., Ikeda, K., Suzuki, Y., Kamishiro fault seismic survey crew (2018.3) Faulting event of the Northern middle part of Kamishiro fault, ISTL active fault zone, central Japan. Annual Meeting of the Association of Japanese Geographers, Spring 2018, Koganei.
  21. Ono, E., Sato, Y., Yata, T.(2018.3) Tsunami Damages Caused by the AD1707 Genroku Kanto Earthquake in Katakai Village, Kujukurihama Strand Plain, Central Japan. Annual Meeting of the Association of Japanese Geographers, Spring 2018, Koganei.
    22. 2017
  22. Cho, I., Nakazawa, T., Sato, Y., Sakata, K. & Urabe, A. (2017.11) Relation between the topographic features and the ground characteristics by microtremor surveys at Mashiki town, Kumamoto. The 45th Ground Vibration Symposium, Minato, Tokyo.
  23. Sato, Y.(2017.9)Crevasse-splay deposits of Kinu River in Ishige, Joso City Ibaraki Prefecture, Japan. Annual Meeting of the Association of Japanese Geographers, Autumn 2017, Tsu.
  24. Nakazawa, T., Sakata, K., Sato, Y., Hoshizumi, H., Yomishi, M. & Urabe, A. (2017.9)Stratigraphy and distribution pattern of volcanogenic sediments beneath downtown Mashiki, Kumamoto, SW Japan, seriously damaged by the 2016 Kumamoto Earthquake. The 124th Annual Meeting of the Geological Society of Japan, Matsuyama.
  25. Sato, Y., Mizuno, K., Kubo, S., Hosoya, T., Morita, S. & Kaga, T. (2017.9) Altitude distribution of Pleistocene buried terraces in lower Sagami Plain, Japan. The 124th Annual Meeting of the Geological Society of Japan, Matsuyama.
  26. Sato, Y., Mizuno, K., Kubo, S., Hosoya, T., Morita, S. & Kaga, T. (2017.8) Quaternary subsurface geology and its age in the southwestern Sagami Plain. JAQUA meetings and symposia 2017, Fukuoka.
  27. Mizuno, K., Momohara, A., Hongo, M. & Sato, Y.(2017.8) Identification of the MIS11 sediments in the middle Pleistocene in western Japan. JAQUA meetings and symposia 2017, Fukuoka.
  28. Nakazawa, T., Sakata, K., Cho, I., Sato, Y., Urabe, A., Hoshizumi, H. & Yoshimi, M. (2017.5) Subsurface geology beneath downtown Mashiki seriously damaged by the 2016 Kumamoto Earthquake. JpGU 2017, Chiba.
  29. Hirouchi, D., Matsuta, N., Yasue, K., Takeshita, Y., Doke, R., Sato, Y., Ishimura, D., Ishiyama, T., Sugito, N., Shiono, T., Taniguchi, K., Sawa, H., Watanabe, M., Suzuki, Y. & Kamishiro fault seismic survey crew (2017.3) Faulting event of the Northern part of Kamishiro fault, ISTL active fault zone, central Japan.Annual Meeting of the Association of Japanese Geographers, Spring 2017, Tsukuba.
  30. Sato, Y., Konno, S. & Shirota, K. (2017.1) Morphological characteristics of diatom species belonging to Plagiogrammaceae talen from Lake Hamana and Lake Namako-ike, Japan. The 166th Regular Meeting of the Palaeontological Society of Japan, Shinjuku, Tokyo.
    31. 2016
  31. Cho, I., Sato, Y., Nakazawa, T. & Urabe, A. (2016.10) Relation between the topographic features and the ground characteristics by microtremor surveys at Mashiki town, Kumamoto. The 135th SEGJ Conference, Muroran.
  32. Cho, I., Urabe, A., Nakazawa, T. & Sato, Y.(2016.10) Shallow S wave velocity structure at Mashiki town Kumamoto, obtained by microtremor survey. Fall Meeting of the Seismological Society of Japan, Nagoya.
  33. Mizuno, K., Sato, Y. & Tamura, I. (2016.9) Some widespread guessed to have erupted from south Kyushu in the Early to early Middle Pleistocene. JAQUA meetings and symposia 2016, Chiba.
  34. Sato, Y., Mizuno, K. & Yamazaki, H. (2016.9) Middle to late Holocene submergence events inferred from diatom fossil assemblages in southern Ashigara Plain. The 123th Annual Meeting of the Geological Society of Japan, Setagaya, Tokyo.
  35. Nakazawa, T., Urabe, A., Cho, I. & Sato, Y. (2016.9) Distribution of house damage caused by the 2016 Kumamoto Earthquake and related subsurface S wave velocity structures in Mashiki Town and the adjacent area, Kumamoto Prefecture, SW Japan. The 123th Annual Meeting of the Geological Society of Japan, Setagaya, Tokyo.
  36. Sato, Y., Miyachi, Y., Tanabe, S., Komatsubara, J., Naya, T. (2016.5) Crevasse splay deposits of the 2015 Kanto–Tohoku Torrential Rain Disaster in Kami Misaka, Joso City, Ibaraki, Japan. JpGU 2016, Chiba.
  37. Nakazawa, T., Urabe, A. & Sato, Y. (2016.5) Distribution patterns of house damages in the central part of Mashiki Town caused by the 2016 Kumamoto Earthquake: Geological and geomorphological implications. JpGU 2016, Chiba.
  38. Sato, Y. & Ono, E. (2016.3) Reactive Sea level change from ca. 4 ka to 2 ka in central part of Ise Plain. Annual Meeting of the Association of Japanese Geographers, Spring 2016, Shinjuku, Tokyo.
    39. 2015
  39. Sato, Y., Shirota, K., Konno, S. & Katsuki, K. (2015.11) Morphological characteristics of Plagiogrammaceae taken from lagoon sediments along the Enshunada and Okhotsk Coasts*. The 35th workshop of the Japanese Society of Diatomology*, Nikko.
  40. Sato, Y., Mizuno, K., Hosoya, T., Ueki, T., Morita, S., Yamazaki, H. (2015.8) Holocene environmental changes in Ashigara Plain suggesting subsidence events of Kodu Matsuda fault. JAQUA meetings and symposia 2015, Shinjuku, Tokyo.
  41. Sato, Y., Matsuoka, H., Okamura, M. & Kashima, K.(2015.8) Late Holocene changes in a lacustrine environment inferred from a fossil diatom analysis of a lakebed sediment core from Lake Hamana, central Japan. 19th INQUA Congress, Nagoya.
  42. Sato, Y., Fujiwara, O., Ono, E. (2015.7) Middle to Late Holocene environmental changes in the incised valleys around Lake Hamana suggesting the great earthquakes along Nankai Trough. 19th INQUA Congress, Nagoya.
  43. Iida, A. & Sato, Y. (2015.3) Late Holocene vegetation change in a swale of Otagawa lowland inferred from plant opal analysis -Concerning with the crustal alteration which had an influence on Ota-gawa lowland-. Annual Meeting of the Association of Japanese Geographers, Spring 2015, Setagaya, Tokyo.
  44. Ono, E., Sato, Y., Yamada, Y., Mizuse, M. & Kawamata, D. (2015.3) Sedimentary facies and radiocarbon age of the superficial layer in northwestern Echigo Plain, central Japan. Annual Meeting of the Association of Japanese Geographers, Spring 2015, Setagaya, Tokyo.
    45. 2014
  45. Sato, Y., Ono, E. & Kawasumi, T. (2014.11) Reconstruction of paleoenvironmental change since the middle Holocene in the central Ise Plain based on diatom analysis*. The 34th workshop of the Japanese Society of Diatomology*, Kusatsu.
  46. Sato, Y., Fujiwara, O., Ono, E. (2014.9) Late Holocene geomorphological development of coastal barriers in the western Hamamatsu Strand Plain, central Japan. JAQUA meetings and symposia 2014, Kashiwa.
  47. Sato, Y., Yasue, K. & Sugai, T. (2014.9) Reconstruction of Holocene and Late Pleistocene paleo environment in Okute Basin, Gifu Pref., central Japan. JAQUA meetings and symposia 2014, Kashiwa.
  48. Hirouchi, D>, Yasue, K., Doke, R., Sato, Y., Sugito, N. & Matsuta, N. (2014.9) Late Pleistocene and Holocene Faulting of the Central Part of the Atera Fault Zone in the Futawatari area, Eastern part of Gifu Prefecture, Central Japan. The 121th Annual Meeting of the Geological Society of Japan, Kagoshima.
  49. Sato, Y., Matsuoka, H., Okamura, M. & Kashima, K. (2014.4) Late Holocene change in lacustrine environment inferred from diatom fossil analysis of lake bed core. JpGU 2014, Yokohama.
  50. Ikuta, M., Sato, Y., Niwa, M., Kamataki, T., Kurosawa, H., Takatori, R. (2014.4) Subsidence and a change of depositional environment by the 1662 Hyuganada earthquake in southern Miyazaki Plain. JpGU 2014, Yokohama.
    51. 2013
  51. Fujiwara, O., Sato, Y., Ono, E. & Ichikawa, K. (2013.10) Tsunami deposits formed in the last 4000 years on the western Hamamatsu plain, Shizuoka Prefecture. 2013 Fall Meeting of the Seismological Society of Japan, Yokohama.
  52. Fujiwara, O., Aoshima, A>, Kitamura, A., Sato, Y., Ono, E., Tanigawa, K. & Shinohara, K. (2013.9) Tsunami deposits between the 4th and 15th century around the Motojima Ruins, Iwata City, Shizuoka Prefecture. The 30th workshop of the Society of historical Earthquake Studies, Akita.
  53. Sato, Y., Fujiwara, O., Ono, E., Yata, T. & Umitsu, M. (2013.9) Historical tsunami deposits along the former Hamana River on the western coast of the Lake Hamana, central Japan. The 30th workshop of the Society of historical Earthquake Studies, Akita.
  54. Aoshima, A., Fujiwara, O., Kitamura, A., Sato, Y., Suzuki, K., Mori, K., Sugiyama, T. (2013.9) Rock type and mineral compositions of the tsunami deposit from the Otagawa lowland,western Shizuoka Prefecture. The 120th Annual Meeting of the Geological Society of Japan, Sendai.
  55. Fujiwara, O., Sato, Y., Ono, E., Ichikawa, K. (2013.8) Tsunami deposits over the last 4000 years in Hamamatsu Plain, Central Japan. JAQUA meetings and symposia 2013, Hirosaki.
  56. Sato, Y., Fujiwara, O., Ono, E. (2013.5) Late Holocene environmental changes of the inter ridge marshes in the western Hamamatsu strand plain, JpGU 2013, Chiba.
    57. 2012
  57. Sato, Y., Kashima, K. (2012.11) Late Holocene sedimentary environmental changes in the Higashi-Kandagawa lowland, Shizuoka Prefecture, Japan, inferred from diatom assemblages*. The 32th workshop of the Japanese Society of Diatomology*, Yokaichi.
  58. Fujiwara, O., Sato, Y.(2012.10)Tsunami deposits from the Takatsuka ike, western Hamamatsu plain, Shizuoka Prefecture. 2012 Fall Meeting of the Seismological Society of Japan, Hakodate.
  59. Sato, Y., Fujiwara, O., Ono, E., Yata, T., Umitsu, M. (2012.5) Two historical tsunami deposits recognized in the core sediments along the Hamana River on the Enshu nada coast, Central. JpGU 2012, Chiba.
  60. Fujiwara, O., Aoshima, A., Kitamura, A., Sato, Y., Ono, E., Tanigawa, K., Shinohara, K. (2012.5) Two historical tsunami deposits from the Otagawa lowland, western Shizuoka Prefecture, Pacific coast of central Japan. JpGU 2012, Chiba.
  61. Aoshima, A., Fujiwara, O., Kitamura, A., Sato, Y., Ono, E., Tanigawa, K., Ishigami, A., Shimotani, G., Higaki, S., Suzuki, H., Higaki, H.(2012.5)Rock type and mineral compositions of the tsunami deposit from the Otagawa lowland, western Shizuoka Prefecture. JpGU 2012, Chiba.
  62. Sato, Y., Fujiwara, O., Aoshima, A., Kitamura, A., Ono, E. & Tanigawa, K. (2012.5) Daitom fossil assemblages of a Tsunami deposit found at the Ota gawa lowland, western Shizuoka Pref., central Japan, JpGU 2012, Chiba.
  63. Takashimizu, Y., Magai, J., Urabe, A., Sato, Y., Okamura, S., Nishimura, Y. & Suzuki, K. (2012.5) Coastal lowland deposition by tsunami over a coastal sand dune: Examples from historical and present tsunami deposits on. JpGU 2012, Chiba.
  64. Hirouchi, D., Ishiyama, T., Suzuki, T., Imaizumi, T., Sato, Y., Maruyama, A., Hosoya, T., Hashimoto, T.(2012.5) Late Pleistocene uplift rate across the eastern margin fault zone of the Takada heiya based on borehole drillings. JpGU 2012, Chiba.
    65. 2011
  65. Sato, Y. & Ono, E. (2011.9)Late Holocene paleoenvironmental change and wetland archeological sites setting along the San'in Kaigan, west Japan. Annual Meeting of the Association of Japanese Geographers, Autumn 2011, Oita.
  66. Sato, Y., Fujiwara, O., Ono, E., Umitsu, M. & Kashima, K. (2011.5) Late Holocene environmental change in alluvial lowlands around the Lake Hamana, central Japan. JpGU 2011, Chiba.
  67. Sato, Y. & Ono, E. (2011.3) Environmental history of an alluvial lowland around the Lake Koyama ike since the highest sea level stage of the Jomon transgression. Annual Meeting of the Association of Japanese Geographers, Spring 2011, Chiyoda, Tokyo.
    68. 2010
  68. Sato, Y., Ishikawa, S., Shiomi, R., GO Arum, Umitsu, M. & Kashima, K. (2010.10) Environmental change of an alluvial lowland at the western coast of the Lake Hamana during the middle to late Holocene. Annual Meeting of the Association of Japanese Geographers, Autumn 2010, Nagoya.
  69. Sugito, N., Sawa, H., Taniguchi, K., Sato, Y., Nakamura, Y. & Research Group for ISTL Tectonic Londforms(2010.10) Formation and evolution of tectonic bulges related to strike slip faulting at Misayama Godo, Fujimi Town, in the central to southern part of the ISTL active fault zone, central Japan . Annual Meeting of the Association of Japanese Geographers, Autumn 2010, Nagoya.
  70. Sato, Y., Fujiwara, O., Ono, E., Umitsu, M. (2010.5) Late Holocene environmental changes in the Rokken gawa lowland near Lake Hamana, Pacific coast of central Japan. JpGU 2010, Chiba.
  71. Fujiwara, O., Sato, Y., Ono, E., Umitsu, M. (2010.5) 3.4 ka tsunami deposit in the Rokken gawa lowland near Lake Hamana, Pacific coast of central Japan. JpGU 2010, Chiba.
    72. 2009
  72. Matasuta, N., Tajikara, M., Hirouchi, D., Sawa, H., Sugito, N., Taniguchi, K., Ishiguro, S., Nakamura, Y., Sato, Y., Watanabe, M., Suzuki, Y. & Research Group for ISTL Tectonic Londforms (2009.5)Tectonic landforms and late Quaternary slip rates by LiDAR along the middle part of the ISTL active fault zone in Hakushu area. JpGU 2009, Chiba.
  73. Sugito, N., Sawa, H., Taniguchi, K., Sato, Y., Nakamura, Y. & Research Group for ISTL Tectonic Londforms (2009.5)Fault related geomorphic history at Misayama godo, Fujimi Town, in the central to southern part of the ISTL active fault zone. JpGU 2009, Chiba.
  74. Fujiwara, O., Ono, E., Yata, T., Umitsu, M., Okamura, Y., Satake, K., Sato, Y., Sawai, Y., Than Tin Aungn, Kumagai, H.(2009.5) Estimating amount of uplift during the AD1707 Hoei earthquake from historical and geological evidences in eastern Enshu-nada coast. JpGU 2009, Chiba.
    75. 2008
  75. Sato, Y., Doke, R., Hanyu, T., Yasue, K. & Hirouchi, D.(2008.9) New outcrop and Tectonic relief in the central part of Atera fault zone, left bank of Kashimo River, central Japan. The 115th Annual Meeting of the Geological Society of Japan, Akita.
  76. Sugito, N., Matsuta, N., Sawa, H., Taniguchi, K., Tajikara, M., Hirouchi, D., Ishiguro, S., Sato, Y., Watanabe, M., Suzuki, Y. & Research Group for ISTL Tectonic Londforms (2008.5) Subsurface fault geometry from Chino to Hakushu in the ISTL active fault system, based on detailed analysis of tectonic landforms. JpGU 2008, Chiba.
  77. Matsuta, N., Sawa, H., Sugito, N., Tajikara, M., Taniguchi, K., Hirouchi, D., Ishiguro, S., Sato, Y., Watanabe, M., Suzuki, Y. & Research Group for ISTL Tectonic Londforms (2008.5) Study of tectonic landforms and late Quaternary slip rates along the middle part of the ISTL active fault system. JpGU 2008, Chiba.
    78. 2007
  78. Hirouchi, D., Yasue, K., Doke, R., Sato, Y., Taniguchi, K., Sugito, N., Uchida, C., Hiramatsu, T., Kitagawa, S., Sakamoto, T., Nishimura, Y. & Kurahashi, S. (2007.10) Paleoseismicity of the Middle part of Atera fault beit, central Japan. 2017 Fall Meeting of the Seismological Society of Japan, Sendai.
  79. Doke, R., Sato, Y., Yasue, K. & Hirouchi, D. (2007.9) Tectonic landform and outcrops of Atera fault zone on the left bank of the Kashimo river, Nakatsugawa City, Gifu Prefecture, central Japan. The 114th Annual Meeting of the Geological Society of Japan, Sapporo.
    80. 2005
  80. Hirouchi, D., Yasue, K., Doke, R., Maekawa, T., Sato, Y., Kurahashi, S. & Hiramatsu, T. (2005.10)Fault geometry and activity of the central part of the Atera Fault System. 2015 Fall Meeting of the Seismological Society of Japan, Sappro.