東北大学 理学研究科 地学専攻

箕浦 研究室

 
 

<ISI登録誌>

  1. 1)Sakai, T., Minoura, K., Soma, M., Tani, Y., Tanaka, A., Nara, F., Itoh, N., and Kawai, T., 2005, Influence of climate fluctuation on clay formation in the Baikal drainage basin. Journal of Paleolimnology, vol 33, p. 105-121.

  2. 2)Minoura, K., Imamura, F., Kuran, U., Nakamura, T., Papadopoulos, G.A., Takahashi, T., and Yalciner, A.C., 2005, A tsunami generated by a possible submarine slide: Evidence for slope failure triggered by the North Anatolian fault movement. Natural Hazards, vol. 36, Number 3, p. 297-306.

  3. 3)Sugawara, D., Minoura, K., Imamura, F., Takahashi, T. and Shuto, N., 2005. A Huge Sand Dome Formed by the 1854 Earthquake Tsunami in Suruga Bay, Central Japan. Journal of Earthquake Technology, vol. 42 (4), p. 147-158.

  4. 4)Goto, K., Chavanich, S., Imamura, F., Kunthasap, P., Matsui, T., Minoura, K., Sugawara, D., and Yanagisawa, H., 2007, Distribution, origin and transport process of boulders deposited by the 2004 Indian Ocean tsunami at Pakarang Cape, Thailand. Sedimentary Geology, vol. 202, p. 821-837.

  5. 5)Hovsgol Drilling Project Group, 2007, Structure of bottom sediments in Lake Hovsgol: geological and climate control. Geology and Geophysics, vol. 48, p. 863-885.

  6. 6)Sugawara, D., Minoura, K., Nemoto, N., Tsukawaki, S., Goto, K., Imamura, F., 2009, Foraminiferal evidence of submarine sediment transport and deposition by backwash during the 2004 Indian Ocean tsunami. 2009, Island Arc, vol. 18, p. 513–525.

  7. 7)Goto K., Shinozaki T., Minoura K., Okada K., Sugarawa D. and Imamura F., 2009, Distribution of boulders at Miyara Bay of Ishigaki Island, Japan: A flow characteristic indicator of the tsunamis and storm waves. Island Arc. vol. 18,

  8. 8)Hovsgol Drilling Project Members, 2009, Sedimentary record from Lake Hovsgol, NW Mongolia: Results from the HDP-04 and HDP-06 drill cores. Quaternary International, vol. 205, p. 21–37.

  9. 9)Minoura, K. Sugawara, D., and Kawai, T.,2009-2010, Last-glacial to postglacial climate formation in the continental interior inferred from multi-proxy records of Lake Hovsgol, Mongolia. Climate of the Past.

  10. 10)Goto K., Shinozaki T., Minoura K., Okada K., Sugarawa D. and Imamura F., 2010, Distribution of boulders at Miyara Bay of Ishigaki Island, Japan: A flow characteristic indicator of the tsunamis and storm waves. Island Arc, vol. 19, 412-426.

  11. 11)Watanabe, T., Minoura, K,. Watanabe Nara, F., Shichi, K., Horiuchi, K., Kakegawa, T., and Kawai, T., 2012, Last glacial to post glacial climate changes in the continental Asia inferred from multi-proxy records (geochemistry, clay mineralogy and paleontology) of Lake Hovsgol, northwest Mongolia. Global and Planetary Change, vol. 88, p. 53-63.

  12. 12)Sugawara, D., Imamura, F., Goto, K., Matsumoto, H., and Minoura K., 2012, The 2011 Tohoku-oki Earthquake Tsunami: Similarities and Differences to the 869 Jogan Tsunami on the Sendai Plain. Pure Applied Geophisics. Vol. 169, 112-116.

  13. 13)Shinozaki, T., Uchida, M., Minoura, K., Kondo, M., Rella, S., and Shibata, S., 2012, Synchronized the East Asia Summer Monsoon variability in the North Pacific and Northern Hemisphere climate change since the last deglaciation. Climate of the Past. in press.

  14. 14)Watanabe Nara, F., Watanabe, T., Kakegawa,T., Minoura,K., Imai,A., Nathalie Fagel, Horiuchi, K., Nakamura, T., and Kawai, T., 2012, Biological nitrate utilization in south Siberian lakes (Baikal and Hovsgol) over the last 33 kyr: the influence of climate changes on primary productivity. Earth and Planetary Science Letters. in press

  15. 15)Sugawara, D., Imamura, F., Goto, K., Matsumoto, H., and Minoura, K. (2012). The 2011 Tohoku-Oki Earthquake Tsunami: Similarities and Differences to the 869 Jogan Tsunami on the Sendai Plain. Pure Appl. Geophys., Published online: 24 January 2012, 1-10. doi:10.1007/s00024-012-0460-1

  16. 16)Minoura, K., Akaki, K., Nemoto, N. Tsukawaki, S., and Nakamura, T. (2012). Origin of Deep Water in the Japan Sea over the last 145kyr., Palaeogeography, Palaeoclimatology, Palaeoecology, 339-341, 25-38

  17. 17)Sugawara, D., Imamura, F., Goto, K., Matsumoto, H., and Minoura K. (2012). Assessing the magnitude of the 869 Jogan tsunami using sedimentary deposits: prediction and consequence of the 2011 Tohoku-oki tsunami., Sedimentary Geology, 282, 14-26

  18. 18)Papadopoulos, G., Minoura, K., Imamura, F., Kuran, U., Yalçiner, A., Fokaefs, A., and Takahashi, T. (2012). Geological evidence of tsunamis and earthquakes at the Eastern Hellenic Arc: correlation with historical seismicity in the eastern Mediterranean Sea., Research in Geophysics, 2 (2), 90-99. doi:10.4081/rg.2012.e12

  19. 19)Minoura, K., Hirano, S., and Yamada, T., 2013, Identification and possible recurrence of an oversized  tsunami on the Pacific coast of northern Japan. Nat Hazards, Published online: 25 March 2013, DOI10.1007/s11069-013-0640-z.

 

<ISI以外の査読付き論文>

  1. 1)菅原大助・箕浦幸治・今村文彦・廣田剛志・菅原正宏・大窪磁生(2004),津波堆積物の形成に関する水理学的実験—特に浮遊砂の卓越する条件での水槽実験.地質学論集,第58号,p. 153-162.

  2. 2)後藤和久,今村文彦,松井孝典,箕浦幸治 2006,2004年インド洋大津波によって運搬されたタイ・パカラン岬の津波石. 地質学雑誌,2006,第112巻,第8号,口絵XV-XVI.

  3. 3)Sugawara, D., Minoura, K., and Imamura, F., 2009, Tsunamis and tsunami sedimentology. In Shiki et al. (eds.) Tsunamiites - Features and Implication, Elsevier Science, Amsterdam, 9-49

  4. 4)Goto K., Imamura F, Keerthi N, Kunthasap P, Matsui T, Minoura K, Ruangrassamee A, Sugawara D, and Supharatid S., 2009, Distribution and Significance of the 2004 Indian Ocean Tsunami Deposits: Initial Results from Thailand and Sri Lanka. In Shiki et al. (eds.) Tsunamiites - Features and Implication, Elsevier. 105-122.

  5. 5)Yamazaki, T., Shiki, T,. Minoura, K., and Tsuji,Y., 2009, Biblography of tsunamite. In Shiki et al. (eds.) Tsunamiites - Features and Implication, Elsevier. 383-403.

  6. 6)菅原大助・今村文彦・松本秀明・後藤和久・箕浦幸治,2010,過去の津波像の定量的復元—貞観津波の痕跡調査と古地形の推定について,津波工学研究報告,vol. 27, p.103-132.

  7. 7)菅原大助・今村文彦・松本秀明・後藤和久・箕浦幸治, 2011,地質学的データを用いた西暦869 年貞観地震津波の復元について. 自然災害科学. 29巻4号.501−516

  8. 8)Shinozaki, T., Uchida, M., Minoura, K., Kondo, M., Rella, S., and Shibata, S. (2012). Synchronized the East Asia Summer Monsoon variability in the North Pacific and Northern Hemisphere climate change since the last deglaciation., Climate of the Past. Discuss, 7, 2159-2192

  9. 9)Sugawara, D., Imamura, F., Goto, K., Matsumoto, H., and Minoura, K. (2012). Reconstruction of the AD 869 Jogan earthquake induced tsunami by using the geological data., Jour. Nat. Dis. Sci., 24 (4), 501-516.

  10. 10)根本直樹・箕浦幸治(2012)射流による人工浜堤の破壊—青森県東岸における東北地方太平洋沖地震による津波の例.地球科学,66巻,p.209〜210.

  11. 11)後藤和久・箕浦幸治, 2012, 2011年東北地方太平洋沖地震津波の反省に立った津波堆積学の今後のあり方. 堆積学研究 第71巻 第2号, 105-117.

  12. 12)箕浦幸治,2013,古地震の復元.応用地質,第53巻、第6号、313-319.


<査読なし論文>

  1. 1)箕浦幸治,2006,シベリアの気候と水域生産.日本BICER協議会年報,2007年度,p.39−47.

  2. 2)箕浦幸治・赤木啓祐・中村俊夫,2007,大和堆KT05-9 P-2による最終氷期—後氷期日本海古環境変動の復元.日本BICER協議会年報,2006年度,p.45−53.

  3. 3)箕浦幸治,2011,津波の水理堆積学的考察.岩波科学, 第81巻10号, 1077-1082.


<プロシーディング・紀要報告など>

  1. 1)Minoura, K., Sugawara, D., Hosseini, S. H. R., and Takayama, K., 2010, Studies on sediment liquefaction by underwater shock waves on the hypothesis of meteorite impact. Science Report of the Tohoku University, 2nd series (Geology), vol. 64, no.1. 1-10.


<総説類>

  1. 1)箕浦幸治, 2011,古津波の研究.学士会会報,890号, 16—23.

  2. 2)箕浦幸治, 2011, 津波の水理堆積学的考察, 科学(岩波書店), 第81巻,第10号,45-60.

  3. 3)箕浦幸治, 2012, 歴史への衝撃−津波災害は歴史を変えた. 静岡県宅健協会,平成24年度講演会資料.14 p.


<著書>

  1. 1)Shiki, T., Tsuji, Y., Yamazaki, T., and Minoura, K., Tsunamiites - Features and Implication. 2009,Elsevier Science, Amsterdam, 411 p.(エルゼビア出版物編集委員会査読付き)

  2. 2)箕浦幸治, 2009, バイカル湖—地球を映す時間と空間の鏡.立川武蔵・安田善憲(監修)朝倉世界地理講座第2巻,岡 洋樹・境田清隆・佐々木史郎(編)「東北アジア」,42—54.

  3. 3)箕浦幸治,2010,地球環境と生物の進化.新装版 地球惑星科学13,平朝彦・阿部 豊,川上紳一・清川昌一・有馬 真・田近英一・箕浦幸治(編)「地球進化論」,367-446.岩波書店.

  4. 4)箕浦幸治・池田安隆,2011,現代地球科学シリーズ 第9巻,地球のテクトニクスI「堆積学・変動地形学」.218p.共立出版.

  5. 5)箕浦幸治,津波災害—歴史への衝撃.2012, 東北大学病理学教室同窓会会報.第43巻,3−20.

  6. 6)箕浦幸治・菅原大助, 2013, 津波災害史観. 今を生きる, 第5巻「自然と科学」, 吉野博・日野正輝 (編),東北大学出版会, 3-18.

 

<調査報告書>

  1. 1)箕浦幸治(2007)貞観地震による津波災害の定量的評価.科学研究費補助金(基盤B)研究成果報告書.p.136.

 















 

業績一覧(2004年以降の論文)