CURRENT RESEARCH INTERRESTS:
*General Earth Sciences based on Grain Particles
*Sedimentary Processes of Detrital Grains
*Strata Formations of Holocene Sediments
*Event Sedimentations such as TSUNAMI, FLOOD, STORM, ERUPTION

MEMBERSHIP:
IAS (International Association of Sedimentologists), SEPM (Society for Sedimentary Geology), AGU (American Geophysical Union),Geological Society of Japan, Tokyo Geographical Society, Japanese Association for Quaternary Research, Sedimentological Society of Japan

INTERNATIONAL PUBLICATIONS:
1) Nanayama, F., Kanamatsu, T. and Fujiwara, Y., 1993, Sedimentary petrology and paleotectonic analysis of the arc-arc junction: the Paleocene Nakanogawa Group in the Hidaka Belt, central Hoikkaido, Japan. Palaeogeography, Palaeoclinatology, Palaeoecology, 105, 53-69.
2) Flood, R.D., Piper, D.J.W., Klaus, A., Burns, S.J., Busch, W.H., Cisowski, S.M., Cramp, A., Damuth, J.E., Goni, M.A., Haberle, S.G., Hall, F.R., Hinrichs, K., Hiscott, R.N, Kowsmann, R., Kronen, J.D., Long, D., Lopez, M., McDaniel, D.K., Manley, P.L., Maslin, M.A., Mikkelsen, N., Nanayama, F., Normark, W.R., Pirmez, C., Santos, J.R., Schneider, R.R., Showers, W.R., Soh, W., Thibal, J. (The ODP Leg 155 Shipboard Scientific Party), 1994, Late Pleistocene Climate and Sedimentation, Amazon Fan. EOS TRANSACTIONS AMERICAN GEOPHISICAL UNION, 75, 435-437.
3) Cramp, A., Maslin, M., Long, D. and the ODP Leg 155 Shipboard Scientific Party, 1995, The Amazon submarine fan: sedimentary processes and climate change: initial results from ODP Leg 155. Geoscientist, 5, 23-25.
4) Flood, R.D., Piper, D.J.W., Klaus, A., Burns, S.J., Busch, W.H., Cisowski, S.M., Cramp, A., Damuth, J.E., Goni, M.A., Haberle, S.G., Hall, F.R., Hinrichs, K., Hiscott, R.N, Kowsmann, R., Kronen, J.D., Long, D., Lopez, M., McDaniel, D.K., Manley, P.L., Maslin, M.A., Mikkelsen, N., Nanayama, F., Normark, W.R., Pirmez, C., Santos, J.R., Schneider, R.R., Showers, W.R., Soh, W., Thibal, J. (The ODP Leg 155 Shipboard Scientific Party ), 1995, Drilling the Fantastic Amazon Fan. Geotimes, 18-19.
5) Flood, R.D., Piper, D.J.W., Klaus, A., Burns, S.J., Busch, W.H., Cisowski, S.M., Cramp, A., Damuth, J.E., Goni, M.A., Haberle, S.G., Hall, F.R., Hinrichs, K., Hiscott, R.N, Kowsmann, R., Kronen, J.D., Long, D., Lopez, M., McDaniel, D.K., Manley, P.L., Maslin, M.A., Mikkelsen, N., Nanayama, F., Normark, W.R., Pirmez, C., Santos, J.R., Schneider, R.R., Showers, W.R., Soh, W., Thibal, J. (The ODP Leg 155 Shipboard Scientific Party ), 1995 , Proceeding of the Oceanic Drilling Program, Initial Reports (Leg 155), 155, College station Texas (Oceanic Drilling Program), 1233p.
6) Nanayama, F., 1997, An Electron Microprove Study of Detrital Grains from Amazon Deep-sea Fan. Proceeding of the Oceanic Drilling Program, Scientific Results (Leg 155), 155, College station Texas (Oceanic Drilling Program), 147-168.
7) Normark, W.R., Damuth, J.E., Cramp, A., Flood, R.D., Hiscott, R.N., Kowsmann, R.O., Lopez, M., Manley, P.L., Nanayama, F., Piper, D.J.W., Pirmez, C. and Schneider, R.,1997, Sedimentary facies and associated depositional elements of the Amazon Fan. Proceeding of the Oceanic Drilling Program, Scientific Results (Leg 155), 155, College station Texas (Oceanic Drilling Program), 147-168.
8) Nanayama, F., Shigeno, K., Satake, K. Shimokawa, K., Koitabashi, S., Miyasaka, S. and Ishii, M., 2000, Sedimentary differences between the 1993 Hokkaido-nansei-oki tsunami and the 1959 Miyakojima typhoon at Taisei, southwestern Hokkaido, northern Japan. Sedimentary Geology, 135, 255-264.
9) Atwater, B.F., Yamaguchi, D., Bondevik, S., Barnhardt, W.A., Amidon, L.J., Benson, B.E., Skjerdal, G., Shulene, J., and Nanayama, F., 2001, Tides and trees in remaking of a landscape destroyed by the 1964 Alaska earthquake. Geo. Soc. Amer. Bull., 113, 1193-1204.
10) Sugiyama, Y., Yokota, H., Nanayama, F. and Miura, K., 2002，Study of the Uemachi fault system in the Osaka Metropolitan area by combination survey of high-resolution seismic reflection and all-core boring. Annali Geofisca, Istituto Nazionale di Geofisica e Vulcanologiai, 19-26.
11) Nanayama, F., Satake, K., Furukawa, R., Shimokawa, K., Shigeno, K., Atwater, B.F., 2003, Unusually large earthquakes inferred from tsunami deposits along the Kuril Trench. Nature, 424, 660 - 663.
12) Sugiyama, Y., Mizuno, K., Nanayama, F., Sugai, T., Yokota, H., Hosoya, T., Miura, K., Takemura, K. and Kitada, N., 2003, October, Study of blind thrust faults underlying Tokyo and Osaka urban areas using a combination of high-resolution seismic reflection profiling and continuous coring. Annals of Geophysics, 46, 1071-1085.
13) Tanioka, Y., Nishimura, Y., Hirakawa, K., Imamura, F., Abe, I., Abe, Y., Shindou, K., Matsutomi, H., Takahashi, T., Imai, K., Harada, K., Namegawa, Y., Hasegawa, Y., Hayashi, Y., Nanayama, F., Kamataki, T., Kawata, Y., Fukasawa, Y., Koshimura, S., Hada, Y., Azumai, Y., Hirata, K., Tamikawa, A., Yoshikawa, A., Shiga, T., and Masaka, S., Tsunami run-up heights of the 2003 Tokachi-oki earthquake. Earth Planet Space, 56, 359-365.
14) Atwater, B.F., Furukawa, R., Hemphill-Haley, E., Ikeda, Y., Kashima, K., Kawase, K., Kelsey., H.M., Moore, A.L.,　Nanayama, F., Nishimura, Y., Odagiri, S., Ota, Y., Park, S.C., Satake, K., Sawai, Y., and Shimokawa, K., 2004, April, Seventeenth-century uplift in eastern Hokkaido, Japan. The Holocene, 14, 487-501.
15) Yasuhara, M., Irizuki, T., Yoshikawa, S., Nanayama, F. and Mitamura, M., 2004, Holocene ostracode paleobiogeography in Osaka Bay, southwestern Japan. Marine Micropaleontology, 53, 11-36.
16) Satake, K., Nanayama, F., Yamaki, S., Tanioka, Y. and Hirata, K., 2005, Earthquakes and Tsunamis along the Kuril trench in the 17th through 21st Centuries. In Satake, K. ed., Tsunami research: Case studies and recent developments, Springer, 157-170.
17) Tanioka, Y., Nishimura, Y., Hirakawa, K., Imamura, F., Abe, I., Abe, Y., Shindou, K., Matsutomi, H., Takahashi, T., Imai, K., Fujima, K., Harada, K., Namegaya, Y., Hasegawa, Y., Hayashi, Y., Yoshikawa, A., Siga, T., Kamikawa, A., Kobayash, M., Masaka, S., Kamataki, T., Nanayama, F., Satake, K., Kawata, Y., Fukasawa, Y., Koshimura, S., Hada, Y., Azumai, Y. and Hirata, K., 2005, Field survey of the 2003 Tokachi-oki earthquake tsunami and simulation at the Ootsu harbor located at the Pacific coast of Hokkaido, Japan. In Satake, K. ed., Tsunami research: Case studies and recent developments, Springer, 135-156.
18) Yasuhara, M., Yoshikawa, S. and Nanayama, F., 2005, Reconstruction of the Holocene seismic history of a seabed fault using relative sea-level curves reconstructed by ostracode assemblages: Case study on the Median Tectonic Line in Iyo-nada Bay, western Japan. Palaeogeography, Palaeoclinatology, Palaeoecology, 222, 285-312.
19) Nanayama, F. and Shigeno, K., 2006, Inflow and outflow facies from the 1993 tsunami in southwest Hokkaido. Sedimentary Geology, 187, 139-158.
20) Stein, R., Kanamatsu, T., Alvarez-Zarikian, C., Higgins, S.M., Channell, J.E.T., Aboudeshish, E., Ohno, M., Acton, G.D., Akimoto, K., Bailey, I., Bjorklund, K.R., Evans, H., Nielsen, S.H.H., Fang, N., Ferretti,P., Gruetzner, J., Guyodo, Y.J.B., Hagino, K., Harris, R., Hatakeda, K., Hefter, J., Judge, S.A.,  Kulhanek, D.K., Nanayama, F., Rashid, H., Sierro Sanchez, F.J., Voelker, A., and Zhai, Q., 2006 March, North Atlantic Paleoceanography: The Last Five Million Years. EOS TRANSACTIONS, AMERICAN GEOPHISICAL UNION, 87, 129-133.
21) Harris, R.N. and the IODP Expedition 306 Scientists, 2006 March, IODP Expedition 306 Installs Borehole Observatory to Reconstruct Bottom Water Temperature Changes Through Time, Norwegian Sea. Scientific Drilling, no. 2, 28-31.
22) Channell, J.E.T., Sato, T., Kanamatsu, T., Stein, R., Malone, M., Zarikian, C.A., and IODP Expediton 303/306 Scientists, Futoshi Nanayama, 2006, IODP Expedition 303 and 306 monitor Miocene-Quaternary climate in the North Atlantic. Scientific Drilling, no. 2, 410-31.
23) Nanayama, F., Furukawa, R., Shigeno, K., Makino, A., Soeda, Y. and Igarashi, Y., 2007, Nine unusually large tsunami deposits from the past 4000 years at Kiritappu marsh along the southern Kuril Trench. Sedimentary Geology, 200, 275-294.
24) Tamura, T., Nanayama, F., Saito, Y., Furakami, F., Nakashima, R., Watanabe, K., 2007, Intra-shoreface erosion in response to rapid sea-level fall: depositional record of a tectonically-uplifted strand plain, Pacific coast of Japan. Sedimentology, 54, 1149-1162.
25) Tamura, T., Murakami, F., Nanayama, F., Watanabe, K. F., Saito, Y., 2008, Ground-penetrating radar profiles of Holocene raised-beach deposits in the Kujukuri strand plain, Pacific coast of eastern Japan. Marine Geology, 248, 11-27.
26) Shiki, T., Tachibana, T., Fujiwara, O., Goto, K., Nanayama, F. and T. Yamazaki., 2008, Characteristic features of Tsunamites. In Shiki, T. ed., Tsunamiites - Features and Implications, Series title: Developments in Sedimentology, Elsevier Science BV, 319-340.
27) Nanayama, F., 2008, Sedimentary characteristics and depositional processes of onshore tsunami deposits: An example of sedimentation associated with the July 12, 1993 Hokkaido-Nansei-oki earthquake tsunami. In Shiki, T. ed., Tsunamiites - Features and Implications, Series title: Developments in Sedimentology, Elsevier Science BV, 63-80.
28) Nanayama, F., Inokuma, S., Furukawa, R., Shigeno, K., Kitazawa, T. and Nakagawa, M., 2008, Stratigraphy of large tsunami traces in Nemuro coastal area along the Kuril subduction zone. In Wallendorf, L. et al. ed., Solutions to Coastal Disasters 2008 tsunamis (Proceedings of sessions of the conference), Published by the American Society of Civil Engineers, ISBN 978-0-7844-0978-7, 224-234.
29) Furukawa, R., Nanayama, F. and Yoshimoto, M., 2008, Volcanic debris-avalanche as a cause of historic tsunami: The AD 1640 eruption of the Hokkaido-Komagatake volcano, northern Japan. In Wallendorf, L. et al. ed., Solutions to Coastal Disasters 2008 tsunamis (Proceedings of sessions of the conference). Published by the American Society of Civil Engineers, ISBN 978-0-7844-0978-7, 235-237.
30) Ohno, M., Murakami, F., Komatsu, F., Guyodo, Y., Kanamatsu, T., Acton, G., Evans, H. F. and Nanayama, F., 2008, Paleomagenetic directions of the Gauss-Matuyama polarity transition recorded in drift sediments (IODP Site U1314) in the North Atlantic. Earth, Planets and Space , 60, 13-16.
31) Satake, K., Nanayama, F. and Yamaki, S., 2008, Fault models of unusual tsunami in the 17th century along the Kuril trench. Earth Planets and Space , 60, 925-935.
32) Tamura, T., Horaguchi, K., Saito, Y., Nguyen Van Lap, Tateishi, M., Ta Thi Kim Oahn, Nanayama, F. and Watanabe, K., 2010, Geomorphology and sediment of monsoon-influenced mesotidal beach, Mekong River delta. Geomorphology, 116, 11-23.
33)Nanayama, F., Shigeno, K., Shitaoka, Y. and Furukawa, R., 2011, Geological study of Unusual Tsunami Deposits in the Kuril Subduction Zone for Mitigation of Tsunami Disasters. The Tsunami Threat - Research and Technology, ISBN 978-953-307-552-5, INTECH, 283-298.

OTHER PUBLICATIONS LIMITTED IN ENGLISH:
1) Yasuhara, M., Irizuki, T., Yoshikawa, S. and Nanayama, F., 2002, Vertical changes of Holocene ostracode faunas and depositional environments in the Kitan Strait area, Southwestern Japan. Paleontological Research, 6, 85-99．
2) Yasuhara, M., Irizuki, T., Yoshikawa, S. and Nanayama, F., 2002, Analyses of depositional enviroments in a drilling core from the East Coast of Osaka Bay,southwestern Japan,based on Holocene ostracode Faunas. Geol. Soc. Japan. 108, 633-643．
3) Nanayama, F., Satake, K. and Shimokawa, K., 1998, Sedimentary characteristics of modern tsunami and storm deposits: examples from 1993 Southwestern Hokkaido earthquake tsunami and 1959 Miyakojima typhoon. Proceedings of the second joint meeting of the UJNR. Panel on Earthquake Research, 313-326.
4) Amidon, L.J., Atwater, B.F., Barnhardt, W.A., Benson, B.E., Bondevik, S., Nanayama, F., Shulene, J., Skjerdal, G. and Yamaguchi, D., 1998, Tides and trees in remaking of a landscape destroyed by the 1964 Alaska earthquake. Proceedings of the second joint meeting of the UJNR. Panel on Earthquake Research, 328-351.
5) Nanayama, F., Satake, K., Shimokawa, K. and Shigeno, K., 1999, Sedimentary characteristics of modern tsunami deposits examples from 1993 Southwestern Hokkaido earthquake tsunami. Proceedings of an international workshop on sediment transport and storage in coastal sea-ocean system, 399-403.
6) Nanayama, F., Satake, K., Shimokawa, K. and Shigeno, K., 1999, Sedimentary characteristics of modern tsunami and storm deposits: examples from 1993 Hokkaido Nansei-oki earthquake tsunami and 1959 Miyakojima typhoon. Proceedings of an international workshop on sediment transport and storage in coastal sea-ocean system, 404-408.
7) Nanayama, F., Kinoshita, H., Tsukuda, E., Mizuno, K., Niimi, K., Ishii, H., Kitada, N., Saito, R., Inoue, N. and Takemura, K., 2000, Paleoseismological study of the Tomogashima-suido fault, Median Tectonic Line active fault system (MTL) during Holocene, at the eastern side of Kitan straits, central Japan. Proceedings of the Hokudan International Symposium and School on Active Faulting, 325-328.
8) Nanayama, F., Satake, K., Shimokawa, K., Hirota, I., Makino, A., Shigeno, K., Furukawa, R., 2000, Sedimentological study of postulated tsunami deposits along the Kuril subduction zone, eastern Hokkaido, northern Japan: preliminary study around the Kiritappu marsh. Proceedings of the Hokudan International Symposium and School on Active Faulting, 325-328．
9) Okamura, Y., Satake, K., Takeuchi, A., Gamo, T., Kato, C., Sasayama, Y., Nanayama, F., Ikehara, K and Kodera, T., 2002, Tectonic, geochemical and biological studies in the eastern margin of the Japan Sea : preliminary results of Yokosuka / Shinkai 6500 YK01-06 Cruise-. JAMSTEC Jour.Deep Sea Res., 20, 77-114.
10) Matsumoto, T., Tappin, D.R., Anton, L., Hosoya, S., Imamura, M., Kenet, W., Lus, W., Matsuyama, M., Misawa, M., Mosusu, N., Nanayama, F., Satake, K., Sioni, S., Sugano, M., Terada, I and Tsuji, Y., 2002，Detailed sedimentary structure off Sissano Lagoon, northern coast of Papua New Guinea : Preliminary result of the SOS-4 Cruise by R/V NATSUSHIMA. JAMSTEC Jour. Deep Sea Res., 21, 27-74.
11) Nanayama, F., Mizuno, K. and Komatsubara, T., April 1999, Sedimentary systems and earthquake events? confined by active faults: a case of the western Biwako fault system in the Hira-Adogawa region, Shiga prefecture, central Japan. GSJ Interim Report，no. EQ/99/2 (Proceeding of the Paleoseismology Workshop), 79-81.
12) Nanayama, F., Shimokawa, K., Satake, K. and Shigeno, K., April 1999, Sedimentary characteristics of recent tsunami deposits from the 1993 Hokkaido nansei-oki tsunami, northern Japan. GSJ Interim Report，no. EQ/99/2 (Proceeding of the Paleoseismology Workshop), 82.
13) The ODP Leg 155 Shipboard Scientific Party, 1995, Proceeding of the Oceanic Drilling Program, Initial Reports (Leg 155), 155, College station Texas (Oceanic Drilling Program), 1233 p.
14) SOS-4 Cruise Scientific Party, 2001, Preliminary Report of SOS-4 Cruise (NT01-01) off Vanimo - Aitape Northern Coast of Papua New Guinea, JAMSTEC, 328p.
15) Shinkai 6500/Yokosuka YK01-06 Cruise Shipboard Scientific Party, 2001, Shinkai 6500/Yokosuka YK01-06 Cruise Onboard Report. Tectonics, Cold Seepage and Biology of Japan Trench, Kuril Trench and Japan Sea, JAMSTEC, 40p.
16) The IODP Exp. 306 Shipboard Scientific Party, Expedition 306 Preliminary Report, College station Texas (Integrated Oceanic Drilling Program), http://iodp.tamu.edu/publications/PR/306PR/306PR.html
17) The IODP Exp. 306 Shipboard Scientific Party, 2006, The Proceedings of the Integrated Ocean Drilling Program, Expeditions 303 and 306, North Atlantic Climate, College station Texas (Integrated Oceanic Drilling Program), http://iodp.tamu.edu/publications/exp303_306/30306title.htm.
18) Stein, R., Gruotzner, J., Hefter, J., Kanamatsu, T., Carlos A. Alvarez Zarikian and the IODP Expedition 306 Scientists, Nanayama, F., 2006 January, IODP Expedition 306: Quaternary and Late Neogene North Atlantic Paleoceanography. Proceeding of National IODP/ODP and ICDP Meeting, 10-14.
19)Ishikawa, S., Kashima, K. and Nanayama, F., 2011, Diatom Assemblages Changes and their Relations to Tsunami Events at Lake Harutori, Eastern Hokkaido, Japan. Transactions, Japanese Geomorphological Union, 32, 226-229.

*****

#AIST's web site→