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Books

1. 1.Y. Yamada, K. Kawamura, K. Ikehara, Y. Ogawa, R. Urgeles, D. Mosher, J. Chaytor, M. Strasser (eds.), 2012, Springer Book Series Advances in Natural and Technological Hazards Research, vol. 31, - Submarine Mass Movements and Their Consequences, 4th Edition, Springer,ISBN 978-94-007-2161-6, 756p.
   

2. 2.Kawamura, K., 2010, Current researches on submarine landsliding and related topics. Monthly Chikyu, 61, 182p.: 川村喜一郎，2010，海底地盤変動学のススメ．月刊地球号外，61，182p．
   

3. 3.Kawamura, K., 2009, Nankai accretionary prism by submarine canyon observation. In: Accretionary prisms and Megathrust Seismogenic Zones - Toward a better understanding of the Nankai earthquakes -, Kimura, G . and Kinoshita, M., (eds.), University of Tokyo Press, Tokyo, pp. 88-102. 川村喜一郎，2009，海底谷観察による南海付加体．付加体と巨大地震発生帯－南海地震の解明に向けて，木村　学・木下正高編，東京大学出版会，88-102（2-3章，分担執筆），ISBN 978-4-13-066709-8．
   

News

4. 4.藏永萌さんが「サイエンス誌に載った日本人研究者」に掲載．2018年4月10日（山口大学理学部）
   

5. 5.ドイツ調査船「R/V SONNE」によるSO251-2 EAGER-Japanへ学部４年生・望月健太が参加，2016年10月18日（火）（ブレーメン大学MARUM，ハンブルグ大学，山口大学理学部）
   

6. 6.国際海洋掘削計画の第３６２次「スマトラ地震発生帯掘削航海」に大学院生・藏永萌が参加，2016年8月6日（土）（山口大学，IODP，JAMSTEC，大学ジャーナル，J-DESC）．
   

7. 7.天草市立御所浦白亜紀資料館でジオパーク豆本の作成　2016年7月18日（Facebook）
   

8. 8.2015年度 第11回理学部講演会「最先端ちきゅうトップセミナー（研究航海中の探査船とネット生中継）」，熊谷英憲，吉本佳太，兵動正幸，2016年2月23日（火）16:00-17:00　第１３番教室（山口大学）．
   

9. 9.エネルギー維新ー山口から世界へー　読売新聞（山口限定）2015年7月30日（木）朝刊
   

10. 10. 山口大学広報誌　YU-Information　リケジョのススメ（藤井美南）　2015年3月31日
    

11. 11.国際海洋掘削計画の第３５４次「ベンガルファン掘削航海」に大学院生・中嶋新が参加　2015年1月23日（J-DESC，IODP）
    

12. 12.東北地方太平洋沖地震と津波による下北沖底層生態系への影響を報告　毎日新聞，日経産業新聞，海洋研究開発機構，山口大学　2014年12月17日（水）．
    

13. 13.IODP（国際深海科学掘削計画）キャンペーンin山口ー「ちきゅう」が解き明かす地球の姿　2013年12月23日（月）．秋吉台科学博物館・山口大学
    

14. 14.東日本大震災「海底地滑り」で津波巨大化　岩手県沖に未知の発生源か　産経新聞朝刊　2013年11月26日（月）
    

15. 15.山口・阿東　山口大チームが”土砂崩れ”現場調査　tysテレビ山口　スーパー編集局　2013年9月2日（月）
    

16. 16.日本海溝海底における震災４ヶ月後の環境撹乱状況ー原発事故に伴う放射性核種の挙動解析ー　2013年5月29日（水）　海洋研究開発機構ほか
    

Peer Review Papers

2018

17. 17.Nitta, S., Kasaya, T. and Kawamura, K., 2018, Active sediment creep deformation on a deep-sea terrace in the Japan Trench. Geological Magazine, submitted.
    

18. 18.Kawamura, K. and Ogawa, Y., 2018, Internal Structure, Active Tectonics, and Dynamic Topography of the Eastern Nankai Accretionary Prism Toe (Japan), and its Tsunamigenic Potential. Geological Magazine,in press.
    

19. 19.Kawamura, K., Motoyama, I. and Yoshimoto, K., 2018, Report: Radiolarians from dredged sedimentary rocks from off southeast Boso Peninsula.JAMSTEC-R，27, 77-86. 川村喜一郎・本山　功・吉本佳太，2018，報告：房総半島南東沖から採取されたドレッジ試料の放散虫化石年代．JAMSTEC-R，27, 77-86．
    

2017

20. 20.Kawamura, K., Kanamatsu, T. and Yamada, Y., 2017, Submarine slides and marine geohazards - the study results so far and current problems -. Journal of Geological Society of Japan, 123, 12, 999-1014, doi:10.5575/geosoc.2017.0031.　川村喜一郎・金松敏也・山田泰広，2017，海底地すべりと災害ーこれまでの研究成果と現状の問題点ー．地質学雑誌， 123, 12, 999-1014, doi:10.5575/geosoc.2017.0031．
    

21. 21.Fujii, M., Oguri, K., Arai, K., Kasaya, T. and Kawamura, K., 2017, Report: 210Pb and 137Cs profiles in surface sediments collected using a Remotely Operated Vehicle, off Sanriku, NE Japan. Journal of Geological Society of Japan, 123, 11, 983-988, doi:10.5575/geosoc.2017.0030.　藤井美南・小栗一将。新井和乃・笠谷貴史・川村喜一郎，2017，報告：無人探査機によって採取された三陸沖の表層堆積物の210Pbと137Csの鉛直分布．地質学雑誌，123, 11, 983-988, doi:10.5575/geosoc.2017.0030．
    

22. 22.Toki, T., Kawamura, K., Tsunogai, U. and Gamo, T., 2017, Microbial metabolism inferred from chemical and isotopic compositions of pore water around bananas discovered on the deep-sea floor in the Tenryu Submarine Canyon. JAMSTEC-R, 25, 1-12, doi: 10.5918/jamstecr.25.1.
    

2016

23. 23.Laberg, J.S., Strasser, M., Alves, T.M., Gao, S., Kawamura, K., Kopf, A. and Moore, G.F., 2016, Internal deformation of a muddy gravity flow and its interaction with the seafloor (site C0018 of IODP Expedition 333, Nankai Trough, SE Japan)., Landslides, 1-12. DOI:10.1007/s10346-016-0766-7.
    

24. 24.Kawamura, K., Oishi, M., Shishikura, M., Saito, S., Murayama, M. and Kanamatsu, T., 2016, Report: Geologic age and magnetic fabrics of deep-sea sediments in the Sagami Trough, central Japan. JAMSTEC-R,23, 12-26.
    

2015

25. 25.Kawamura, K., Kanamatsu, T., Oishi, M. and Yamano, M., Report: Physical and magnetic properties in piston core samples collected from the Japan Trench before the 2011 Tohoku earthquake. JAMSTEC-R, 20, 51-60, doi:10.5918/jamstecr.20.51.
    

26. 26.川村喜一郎，海底地すべりとメタンハイドレート：ノルウェーと日本の事情．地盤工学会誌，63, 685, 14-17．
    

2014

27. 27.Toyofuku, T., Duros, P., Fontanier, C., Mamo, B., Bichon, S., Buscail , R., Chabaud, G., Deflandre, B., Goubet, S., Grémare, A., Menniti, C., Fujii, M., Kawamura, K., Koho, K.A., Noda, A., Namegaya, N., Oguri, K., Radakovitch, O., Murayama, M., Jan de Nooijer, L., Kurasawa, A., Ohkawara, N., Okutani, T., Sakaguchi, A., Jorissen, F., Reichart, G.-J. and Kitazato, H., 2014, Unexpected biotic resilience on the Japanese seafloor caused by the 2011 Tōhoku-Oki tsunami. Scientific Reports, 4, 7517, doi:10.1038/srep07517.
    

28. 28.Miura, R., Hino, R., Kawamura, K., Kanamatsu, T. and Kaiho, Y., 2014, Accidental sediments trapped in ocean bottom seismometers during the 2011 Tohoku-Oki Earthquake. Island Arc, doi:10.1111/iar.12079.
    

29. 29.Kanamatsu,T., Kawamura, K., Strasser, M., Novak, B. and Kitamura, Y., 2014, Flow dynamics of Nankai Trough submarine landslide inferred from internal deformation using magnetic fabric. Geochemistry, Geophysics, Geosystems, 15, 10, 4079-4092, doi: 10.1002/2014GC005409.
    

30. 30.Kawamura, K., Laberg, J.S. and Kanamatsu, T., Potential tsunamigenic submarine landslides in active margins. Marine Geology,356, 44-49, DOI: 10.1016/j.margeo.2014.03.007.
    

31. 31.Novak, B., Housen, B., Kitamura, Y., Kanamatsu, T. and Kawamura, K., Magnetic fabric analyses as a method for determining sediment transport and deposition in deep-sea sediments. Marine Geology, 356, 19-30, DOI: 10.1016/j.margeo.2014.03.001.
    

32. 32.Kitahashi, T., Kawamura, K., Kojima, S. and Shimanaga, M., Bathymetric patterns of a and b diversity of harpacticoid copepods around the Ryukyu Trench and turnover diversity between trenches around Japan. Progress in Oceanography, 123, 54-63, doi 10.1016/j.pocean.2014.02.007.
    

33. 33.Kitamura, Y., Strasser, M., Novak., B., Kanamatsu, T., Kawamura, K. and Zhao, X., 2014, Characteristics of magnetic fabrics in mass transport deposits in the Nankai Trough trench slope, Japan. In: Krastel et al (Eds.), Submarine Mass Movements and Their Consequences. Advances in Natural and Technological Hazards Research 37. Springer International Publishing Swizerland, pp. 649-658. doi: 10.1007/978-3-319-00972-8_58
    

34. 34.Fink, H.G., Strasser, M., Römer, M., Kölling, M., Ikehara, K., Kanamatsu, T., Dinten, D., Kioka, A., Fujiwara, T., Kawamura, K., Kodaira, S., Wefer, G. and R/V Sonne SO219A Cruise Participants, 2014. Evidence for Mass Transport Deposits at the IODP JFAST-Site in the Japan Trench. In: Krastel et al (Eds.), Submarine Mass Movements and Their Consequences. Advances in Natural and Technological Hazards Research 37. Springer International Publishing Swizerland, pp. 33-43. doi: 10.1007/978-3-319-00972-8_4
    

2013

35. 35.Laberg, J.S., Kawamura, K., Amundsen, H., Beaten, N., Forwick, M., Rydningen, T.A. and Vorren, T.O., 2013, A submarine landslide complex affecting the Jan Mayen ridge, Norwegian-Greenland Sea: slide scar morphology and processes of sediment evacuation. Geo-Marine Letters, 34, 1, 51-58, DOI 10.1007/s00367-013-0345-z.
    

36. 36.Arai, K., Naruse, H., Miura, R., Kawamura, K., Hino, R., Ito, Y., Inazu, D., Yokokawa, M., Izumi, N., Murayama, M. and Kasaya, T., 2013, Tsunami-generated turbidity current of the 2011 Tohoku-Oki Earthquake. Geology, 41, 1195-1198, doi: 10.1130/G34777.1.
    

37. 37.Strasser, M., Kolling, M., Ferreira, S., Fink, H.G., Fujiwara, T., Henkel, S., Ikehara, K., Kanamatsu, T., Kawamura, K., Kodaira, S., Romer, M., Wefer, G.and R/V/ Sonne Cruise SO219A and JAMSTEC Cruise MR12-E01 scientists, 2013, A slump in the trench: Tracking the impact of the 2011 Tohoku-Oki earthquake. Geology,41, 935-938. doi: 10.1130/G34477.1
    

38. 38.Oguri, K., Kawamura, K., Sakaguchi, A., Toyofuku, T., Kasaya, T., Murayama, M., Fujikura, K., Glud, R.N. and Kitazato, H., 2013, Hadal Disturbance in the Japan Trench induced by the 2011 Tohoku-Oki Earthquake. Scientific Reports, 3, 1915, doi:10.1038/srep01915
    

39. 39.Tsuji, T., Kawamura, K., Kanamatsu, T., Kasaya, T., Fujikura, K., Ito, Y., Tsuru, T. and Kinoshita, M., 2013, Extension of continental crust by anelastic deformation during the 2011 Tohoku-oki earthquake: The role of extensional faulting in the generation of a great tsunami.Earth and Planetary Science Letters, 364, 44-58. http://dx.doi.org/10.1016/j.epsl2012.12.038.
    

40. 40.Kitahashi, T., Kawamura, K., Kojima, S., Shimanaga, M., 2013, Assemblages gradually change from bathyal to hadal depth: A case study on harpacticoid copepods around the Kuril Trench (north-west Pacific Ocean). Deep-Sea Research Part I, 74, 39-47. doi: 10.1016/j.dsr.2012.12.010.
    

2012

41. 41.Sato, H., Hayashi, K., Ogawa, Y. and Kawamura, K., 2012, Geochemistry of deep sea sediments at cold seep sites in the Nankai Trough: Insights into the effect of anaerobic oxidation of methane. Marine Geology,323-325, 47-55. http://dx.doi.org/10.1016/j.margeo.2012.07.013
    

42. 42.Kawamura, K., Sasaki, T., Kanamatsu, T., Sakaguchi, A. and Ogawa, Y., 2012, Large submarine landslides in the Japan Trench: A new scenario for additional tsunami generation, Geophysical Research Letters,vol.39,L05308,5PP, doi:10.1029/2011GL050661.
    

43. 43.Kawamura, K., Sakaguchi, A., Strasser, M., Anma, R., Ikeda, H., 2012, Detailed observation of topography and geologic architecture of a submarine landslide scar in a toe of an accretionary prism. In: Springer Book Series Advances in Natural and Technological Hazards Research, vol. 31, - Submarine Mass Movements and Their Consequences, 4th Edition, Y Yamada, K Kawamura, K Ikehara, Y Ogawa, R. Urgeles, D Mosher, J Chaytor, M Strasser (eds.), Springer, pp 301-309. doi 10.1007/978-94-007-2162-3_27.
    

44. 44.Yamada, Y., Kawamura, K., Ikehara, K., Ogawa, Y., Urgeles, R., Mosher, D., Chaytor, J., Strasser, M., 2012, Submarine Mass Movements and Their Consequences. In: Springer Book Series Advances in Natural and Technological Hazards Research, vol. 31, - Submarine Mass Movements and Their Consequences, 4th Edition, Y Yamada, K Kawamura, K Ikehara, Y Ogawa, R. Urgeles, D Mosher, J Chaytor, M Strasser (eds.), Springer, pp 1-14. doi 10.1007/978-94-007-2162-3_1.
    

2011

45. 45.Kitahashi, T., Kawamura, K., Veit-Köhler, G., Danovaro, R., Tietjen, J., Kojima, S., Shimanaga, M., 2011, Assemblages of Harpacticoida (Crustacea: Copepoda) from the Ryukyu and Kuril Trenches, north-west Pacific Ocean. Journal of the Marine Biological Association of the United Kingdom, 1-12. doi:10.1017/S0025315411001536
    

46. 46.Kawamura, K. and Kanamatsu, T., Anisotropy of magnetic susceptibility of sand layers and detrital carbonate layers in deep-sea sediments from the Labrador Sea, North Atlantic. IODP Expedition 303 Data Report, doi:10.2204/iodp.proc.303306.215.2011.
    

47. 47.(PICTORIAL Article) Kawamura, K., 2011, Anatomy of a Pliocene-Pleistocene submarine landslide using aerial photography. The Journal of the Geological Society of Japan, 117, 2, III-IV.
    

48. 48.Anma, R., Ogawa, Y., Moore, G.F., Kawamura, K., Sasaki, T., Kawakami, S., Dilek,Y., Michiguchi, Y., Endo, R., Akaiwa, S. Hirano, S. and YK99-09, YK00-08, YK05-08 & YK06-02 Shipboard Science Parties,2011 Structural profile and development of accretionary complex in the Nankai trough, Southwest Japan: results of submersible studies.In: Accretionary Prisms and Convergent Margin Tectonics in the Northwest Pacific Basin: submersible studies and recent advances (Part of Series of Modern Approaches in Solid Earth Sciences),Ogawa, Y., Anma, R., Dilek, Y. et al.(eds.), Springer, Volume 8, pp. 169-196. DOI: 10.1007/978-90-481-8885-7_8
    

49. 49.Hayman, N.W., Burmeister, K., Kawamura, K., Anma, R., Yamada, Y., 2011, Out-of-plane deformation in the Tenryu Canyon region of the Nankai accretionary prism, In: Accretionary Prisms and Convergent Margin Tectonics in the Northwest Pacific Basin: submersible studies and recent advances (Part of Series of Modern Approaches in Solid Earth Sciences),Ogawa, Y., Anma, R., Dilek, Y. et al.(eds.), Springer, Volume 8, pp. 197-214. DOI: 10.1007/978-90-481-8885-7_9
    

50. 50.Kawamura, K., Ogawa, Y., Hara, H., Anma, R., Dilek, Y., Kawakami, S., Chiyonobu, S., Mukoyoshi, H., and Hirano, S., 2011, Rapid exhumation of subducted sediments from the seismogenic zone along an out-of-sequence thrust in an active accretionary prism, Nankai Trough (Japan), In: Accretionary Prisms and Convergent Margin Tectonics in the Northwest Pacific Basin: submersible studies and recent advances (Part of Series of Modern Approaches in Solid Earth Sciences),Ogawa, Y., Anma, R., Dilek, Y. et al.(eds.), Springer, Volume 8, pp. 215-228. DOI: 10.1007/978-90-481-8885-7_10
    

51. 51.Anma, R., Ogawa, Y., Kawamura, K., Moore, G., Sasaki, T., Kawakami, S., Hirano, S., Ota, T., Endo, R., Michiguchi, Y. and YK05-08 Leg 2 Shipboard Science Party, 2011, Structure, texture, and physical properties of accretionary prism sediments and fluid flow near the splay fault zone in the Nankai Trough, off Kii Peninsuka, Journal of Geological Society of Japan, 116, 12, 637-660 (Japanese with English abstract).安間了，小川勇二郎，川村喜一郎，Gregory Moore，佐々木智之，川上俊介，平野聡，太田哲平，遠藤良太，道口陽子，YK05-08 Leg 2乗船研究者，2011，潮岬海底谷に露出する南海トラフ分岐断層付近の付加体堆積物の構造・組織・物性と流体移動，地質学雑誌，116，12，637-660．
    

52. 52.Kawamura, K., 2011, A new insight of 3-D microfabric analysis of unconsolidated marine soil: examples from North Atlantic 300-meter long cores. In: Geomechanics and Geotechnics: From Micro to Macro, Jiang, M., Liu, F. and Bolton, M. (eds.), Taylor and Francis Group, London, 247-252.ISBN 9780415612951
    

2010

53. 53.Itoh, M., Kawamura, K., Kitahashi, T., Kojima, S., Katagiri, H., Shimanaga, M., 2010, Bathymetric patterns of meiofaunal standing stocks associated with the Kuril and Ryukyu trenches, western North Pacific Ocean. Deep-Sea Research Part I, 58, 86-97.

    

    doi:10.1016/j.dsr.2010.12.004.
    

54. 54.Kawamura, K., 2010, Compaction Processes of Deep-Sea Sediments deduced from the study of cores collected from the Labrador Sea in the Northwestern Atlantic. Soils and Foundations, 50, 5, 623-632.
    

55. 55.Kawamura, K., 2010, Geologic structures in the west wall of the Kushiro Submarine Canyon revealed using the manned-submersible SHINKAI6500. Bulletin of the Geological Survey of Japan, Bulletin of Geological Survey of Japan, 61, 3/4, 137-145 (Japanese with English abstract).： 川村喜一郎，2010，有人潜水船しんかい６５００によって明らかになった釧路海底谷西壁に見られる地質構造．地質調査研究報告，61，3/4，137-145．
    

56. 56.Motoyama, I., Kamikuri, S., TuZino, T., Kawamura, K., Miwa, T., 2010, Radiolarians from rock samples recovered from the Kushiro submarine canyon. Bulletin of Geological Survey of Japan, 61, 3/4, 87-103 (Japanese with English abstract).：本山功・上栗伸一・辻野匠・川村喜一郎・三輪哲也，2010，釧路海底谷から採取された岩石試料の放散虫化石年代．地質調査研究報告，61，3/4，87-103．
    

57. 57.Kawamura, K., Kanamatsu,T., Kinoshita, M., Saito, S., Shibata, T., Fujino, K., Misawa, A., Burmeister, K.C., 2010, Redistribution of sediments by submarine landslides on the eastern Nankai Accretionary Prism. D.C. In: Mosher, D.C., Shipp, C., Moscardelli, L., Chaytor, J., Baxter, C., Lee, H. and Urgeles, R. (eds). Submarine Mass Movements and Their Consequences IV; Advances in Natural and Technological Hazards Research, Vol 28, DOI 10.1007/978-90-481-3071-9, Springer, The Netherlands, pp. 313-322.
    

2009

58. 58.Kawamura, K., Ogawa, Y., Anma, R., Yokoyama, S., Kawakami, S., Dilek, Y., Moore, G.F., Hirano, S., Yamaguchi, A., Sasaki, T. and YK05-08 Leg 2 and YK06-02 Shipboard Scientific Parties, 2009, Structural architecture and active deformation of the Nankai Accretionary Prism, Japan: submersible survey results from the Tenryu Submarine Canyon. Geological Society of America Bulletin, 121, 11-12, 1629-1646; doi:10.1130/B26219.1.
    

2008

59. 59.Kinoshita, M., Kanamatsu, T., Kawamura, K., Shibata, T., Hamamoto, H., Fujino, K., 2008, Heat flow distribution on the floor of Nankai Trough off Kumano and implication for geothermal regime of subducting sediments. JAMSTEC Report of Research and Development, 8, 13-28.
    

60. 60.(PICTORIAL Article) Kawamura, K., Hamamoto, H., Yamano, M., Goto,T., Baba, K. and KR08-10 Shipboard Scientists, 2008, Uplift of the Miyako Knoll in a landward slope of the Japan Trench, off Miyako, NE Japan. The Journal of the Geological Society of Japan, 114, 12, IX-X.
    

61. 61.Kawamura, K., Oyagi, N. and Fujita, M., 2008, Topographic analysis of hummocks using digital image processing -an example from the Tsukaharano plateau, the northern part of the Fukui prefecture-, Journal of the Japan Landslide Society, 45, 4 (186), 36-39 (Japanese with English abstract).: 川村喜一郎・大八木規夫・藤田勝代，2008，ディジタル画像処理による流れ山の地形解析－福井県北部塚原野台地の例－．日本地すべり学会誌，45，4（186），36-39.
    

62. 62.Kawamura, K. and Kawamura N., 2008, Progressive change of microfabrics by compaction in superficial layers of ocean bottom sediments: examples from the Okinawa Trough -, The Journal of the Geological Society of Japan, 114, 3, 97-108 (Japanese with English abstract): 川村喜一郎　川村紀子、2008、海底極表層部での圧密に伴う微細組織の変化：沖縄トラフにおける例，地質学雑誌、114, 3, 97-108.
    

63. 63.Kawamura, N., Kawamura, K. and Ishikawa, N., 2008, Distributions of sedimentary grain inferred from rock magnetic and geochemical analyses in the deep-sea sediments: a case study of the Ryukyu Trench, Earth, Planets and Space, 60, 3, 179-189.
    

64. 64.(PICTORIAL Article) Kawamura, K., Uesugi, K., Shimanaga, M., Kawamura, N., Ito, M., 2008, Microfabric analysis of the surficial layer of deep sea sediments by micro X-ray CT: an example from the Nansei-shoto (Ryukyu) Trench, The Journal of the Geological Society of Japan, 114, 2, III-IV.
    

65. 65.(PICTORIAL Article) Kawamura, K., Ogawa, Y., Kitahara, T., Endo, R., Anma, R., Oyagi, N., 2008, Active basal slip zones and their creep structures in the Jin'nosuke-dani landslide, Hakusan volcano, Central Japan. Island Arc, 17, 2, 183-184. doi:10.1111/j.1440-1738.2008.00613.x.
    

2007

66. 66.Kawamura, K., Ogawa, Y., Oyagi, N., Kitahara, T. and Anma, R., 2007, Structural and fabric analyses of a long-term basal slip zone within Jin'nosuke-dani landslide, central Japan: a natural analogue for the development of decollements. Landslides, 4, 4, 371-380. doi:10.1007/s10346-007-0094-z.
    

67. 67.(PICTORIAL Article) Kawamura, K., KR97-09 Leg 2 and KR03-07 Shipboard Scientific Parties (2007), Occurence of young basaltic rocks on the oceanward slope of the Japan Trench, off Miyako, NE Japan: discovery by KAIKO 10K#56. The Journal of the Geological Society of Japan, 113, 5, VII-VIII.
    

68. 68.Kawamura, K., Ikehara, K. and Fujioka, K., 2007, Abrupt change of sedimentary environment in ca. 7300 years ago recorded in the piston cores from the central Okinawa Trough floor. The Journal of Geological Society of Japan, 113, 5, 184-192 (Japanese with English abstract). 川村喜一郎　池原研　藤岡換太郎、2007，中部沖縄トラフ底で採取されたピストンコアに記録された約7300年前の堆積環境の急激な変化．地質学雑誌，113，5，184-192．
    

Before 2006

69. 69.Kawamura, K. and Kawamura, N., 2006, Evolution of clay microstructures of superficial deep-sea muds during burial compaction: Examples from the Ryukyu trench. In: Geomechanics and Geotechnics of Particulate Media. M. Hyodo, H. Murata and Y. Nakata (eds.), Taylor and Francis Group, London, 3-8.ISBN9780415410977
    

70. 70.Kawamura, K., Hosono, T., Allawati, H.M., Ogawa, Y. and Taniguchi H., 2005, Origin of layering in cumulate gabbros in the Oman ophiolite: insights from magnetic susceptibility measurements in the Wadi Sadm area. Island Arc, 14, 4 , 564-570.DOI: 10.1111/j.1440-1738.2005.00484.x
    

71. 71.Kawamura, K. and Ogawa, Y., 2004, Progressive change of pelagic clay microstructure during burial process: examples from piston cores and ODP cores. Marine Geology, 207, 1-4, 131-144.doi:10.1016/j.margeo.2004.03.016
    

72. 72.Kawamura, K., Oyagi, N. and Kitahara, T., 2004, Microfabric and anisotropy of magnetic susceptibility of slip surface clay. Journal of the Japan Landslide Society, 40, 6, 505-508 (Japanese with English abstract): 川村　喜一郎・大八木　規夫・北原　哲郎（2004）, すべり面粘土の帯磁率異方性と微細組織. 日本地すべり学会誌, 40, 43-46.
    

73. 73.Kawamura, K., Ikehara, K., Kanamatsu, T. and Fujioka, K., 2002, Paleocurrent analysis using anisotropy of magnetic susceptibility of turbidites collected from the Parece Vela Basin. The Journal of Gelogical Society of Japan, 108, 4, 207-218. (Japanese with English abstract): 川村　喜一郎・池原　研・金松　敏也・藤岡　換太郎（2002）、パレスベラ海盆から採取されたタービダイトの帯磁率異方性による古流向解析,地質学雑誌,108,4,207-218.
    

74. 74.Kawamura, K. and Ogawa, Y., 2002, Progressive microfabric changes in unconsolidated pelagic and hemipelagic sediments down to 180 mbsf, northwest Pacific, ODP Leg 185, Site 1149. ODP Leg 185, Hole 1149,Proceedings of the Ocean Drilling Program, Scientific Results,185, 1-29.
    

75. 75.Hirano, N., Kawamura, K., Hattori, M., Saito, K. and Ogawa, Y., 2001, A new type of intra-plate volcanism; young alkali-basalts discovered from the subducting Pacific Plate, northern Japan Trench. Geophysical Research Letters, 28, 14, 2719-2722.doi:10.1029/2000GL012426
    

76. 76.Hirano, S., Ogawa, Y. and Kawamura, K., 2001, Deformation of Unlithified Sediments in an Early Stage of the Compaction Process Deduced from Microtextures and Magnetic Fabrics: ODP Leg 174B, Hole 1074A,Proceedings of the Ocean Drilling Program, Scientific Results,174B, Chapter 1-13.
    

Papers / Reports (without review or with small review)

77. 77.Wefer, G., Strasser, M. , Besuden, E., Büttner, H., Diekamp, V., Dinten, D., dos Santos Ferreira, C., Fink, H., Franke, P., Fujiwara, T., Geprägs, P., Ikehara, K., Ishitsuka, K., Kanamatsu, T., Kawamura, K., Kimura, T., Kioka, A., Kitada, K., Klar, S., Kölling, M., Kopiske, E., Mai, H. A., Marcon, Y., Meinecke, G., Meyer, P., Osada, Y., Podszun, L., Ratmeyer, V., Renken, J., Römer, M., Sato, T., Schmidt, W., Seiter, C., Wangenheim, L., Zarrouk, M. Report and preliminary results of R/V SONNE Cruise SO219A, Tohoku-Oki Earthquake – Japan Trench, Yokohama – Yokohama, 08.03.2012 – 06.04.2012. Berichte, MARUM – Zentrum für Marine Umweltwissenschaften, Fachbereich Geowissenschaften, Universität Bremen, No. 301, 83 pages. Bremen, 2014. ISSN 2195-9633.
    

78. 78.Tsuji, T., Ito, Y., Kawamura, K., Kanamatsu, T., Kasaya, T., Kinoshita, M. and YK11-04E and YK11-06E Shipboard Scientists, 2012,Seismogenic fault of the 2011 Great East Japan Earthquake: Insight from seismic data and seafloor observations. Proceedings of the International Symposium on Engineering Lessons Learned from the 2011 Great East Japan Earthquake, March 1-4, Tokyo, Japan, pp. 281-288.
    

79. 79.Expedition 333 Scientists, 2011 (including Kiichiro Kawamura). NanTroSEIZE Stage 2: subduction inputs 2 and heat flow. IODP Prel. Rept., 333. doi:10.2204/iodp.pr.333.2011
    

80. 80.Kawamura, K., 2010, Current researches on submarine landsliding and related topics. Monthly Chikyu, 61, 5-12.: 川村喜一郎，2010，総論：海底地盤変動学のススメ．月刊地球号外，61，5-12．
    

81. 81.Kawamura, K., 2010, How did submarine landslides occur on the Nankai accretionary prism? Monthly Chikyu, 61, 37-42.: 川村喜一郎，2010，南海付加体の海底地すべりはどのようにして生じているのか？．月刊地球号外，61，37-42．
    

82. 82.Yamada, Y., Hino, R., Kobayashi, R., Shishikura, M., Kawamura, K., Sakaguchi, A., 2010, Building a scientific understanding of geohazards - Exploration into catastrophic earthquakes. Monthly Chikyu, 32, 2, 77-85.：山田泰広・日野亮太・小林励司・宍倉正展・川村喜一郎・坂口有人，2010，ジオハザードの科学的な理解ー人類の脅威となる巨大地震の探査に向けてー．月刊地球，32，2，77-85．
    

83. 83.Kawamura, K., Yamada, Y., Ikehara K., Yamamoto, Y., Kanamatsu, T., Sakaguchi,A., 2009, White paper for Geohazard (Submarine landslides and mass movements) at INVEST09 from Japanese research group.
    

84. 84.Kawamura, N., Kawamura, K. and Ishikawa, N., 2007, Progressive change of constituent ferromagnetic minerals in superficial sediments from the Ryukyu Trench during burial diagenesis. Journal of the Sedimentological Society of Japan, 64, 163-164. 川村紀子・川村喜一郎・石川尚人, 琉球海溝の堆積物中に含まれる強磁性鉱物の表層および埋没後の変化，2007，堆積学研究，64，163-164．
    

85. 85.Channell, J.E.T., Sato, T., Kanamatsu, T., Stein, R., Malone, M., Alvarez-Zarikian, C., and IODP Expeditions 303 and 306 Scientists, IODP Expeditions 303 and 306 monitor Miocene-Quaternary climate in the North Atlantic. Proc. IODP, Exp. Repts, 303/306, 2006.
    

86. 86.
    Channell, J.E.T., Sato, T., Kanamatsu, T., Stein, R., Malone, M., Alvarez-Zarikian, C., and IODP Expeditions 303 and 306 Scientists, IODP Expeditions 303 and 306 monitor Miocene-Quaternary climate in the North Atlantic. Scientific Drilling, No. 2, pp. 4-10. doi:10.2204/iodp.sd.2.01.Sept., 2006.
    

87. 87.小川勇二郎・川村喜一郎・大八木規夫・北原哲朗・安間了，2006，地すべり岩体のbasal slip zoneの組織学的運動学的研究：甚之助谷地すべりといくつかの付加体のデコルマンゾーンとの比較研究．平成18年度砂防地すべり技術研究成果報告会発表論文集，財団法人砂防・地すべり技術センター，45-56．
    

88. 88.川村喜一郎（2006），潜水調査船によって初めて明らかにされた現世付加体の詳細な地質構造．平成18年度特別講演およびシンポジウム予稿集：テーマ「付加体における応用地質学的問題」，応用地質学会．
    

89. 89.Shipboard Scientific Party (2005), North Atlantic Climate: Ice sheet-ocean atmosphere interactions on millennial timescales during the late Neogene-Quaternary using a paleointensity-assisted chronology for the North Atlantic. Integrated Ocean Drilling Program Expedition 303 Preliminary Report, 303. doi:10:2204/iodp.pr.303.2005.
    

90. 90.Kawamura, K., Ikehara, K. and Fujioka, K., (2003), Sedimentological and Rockmagnetic study of deep-sea sediments collected during the Okinawa trough cruise KR01-09. JAMSTEC Deep Sea Research, 22, 31-42. (Japanese with English abstract): 川村　喜一郎・池原　研・藤岡　換太郎（2003）、KR01－09沖縄トラフ航海で採取された海底堆積物の堆積学的・岩石磁気学的研究,JAMSTEC深海研究, ,22,31-42.
    

91. 91.Kawamura, K., Ikehara, K., Kanamatsu, T and Fujioka, K, 2002, Changing processes of physical properties and microfabrics of marine sediments due to compaction. Proceedings of symposium concerning with advanced study and actuality of clay subgrade. Japanese Geotechnical Society, 123-130 (Japanese with English abstract).: 川村　喜一郎・池原　研・金松　敏也・藤岡　換太郎 （2002）, 海成自然堆積土の圧密による微細構造と物性の変化～フィリピン海の遠洋性粘土の例～, 粘土地盤における最新の研究と実際-微視的構造の観察から超軟弱埋立て地盤対策技術まで-に関するシンポジウム発表論文集, 地盤工学会, 123-130.
    

92. 92.Kanamatsu, T., Ikehara, K., Kawamura, K. and Fujioka, K., (2001), Rock-magnetostratigraphy on cores obtained from the West Philippine Basin: Implication for a change of sedimentary environment. JAMSTEC Deep-Sea Research, 18, 95-101 (Japanese with English abstract).: 金松　敏也・池原　研・川村　喜一郎・藤岡　換太郎（2001）、堆積物の磁気的特性からみた西フィリピン海盆における環境変動の記録,JAMSTEC深海研究,18,95-101.
    

93. 93.Hattori, M., Tsuru, T., Matsuyama, T., Kono, F. and Kawamura, K., (2000), Feature of occurrence and measurement of seismic wave velocities of alkali basalts collected from the bottom of the outer wall of the Japan Trench off Miyako, Sanriku by ROV "Kaiko", Cruise KR97-09, LEG1, 1997. JAMSTEC Deep-Sea Research, 16, 47-55 (Japanese with English abstract).:服部　陸男・鶴　哲郎・松山　隆・河野　文夫・川村　喜一郎（2000）、「かいこう」の1997年第56潜航で三陸沖日本海溝海側斜面基部から採集された玄武岩の産状と地震波速度,JAMSTEC深海研究－2.地質学.地球化学.地球物理学.潜航調査編－,16,47-55.
    

94. 94.Kawamura, K., Ogawa, Y. and Kawakami, S., 2000. consolidation process of shallow burial sediments- Change process of microfabric of deep-sea sediment down to 30 cm depth-. Monthly Chikyu, 256, 725-728 (Japanese with English abstract).: 川村　喜一郎・小川　勇二郎・川上　俊介（2000）、極表層堆積物の圧密過程－埋没深度30cmまでの深海堆積物の微細組織の変化過程－,月刊地球,256,725-728.
    

95. 95.Ogawa, Y., Iwase, R., Kanazawa, T., Kaneko, H., Kawakami, S.,Kawamura, K., Koyama, S., Kobayashi, H., Maki, Y., Sakai, S., Takagi, Y., Asada, M., (1999), Preliminary reprt of "Shinkai 2000" Sagami Bay Mission, NT98-10Leg 1- Dive 1047 - 1051. JAMSTEC Deep-Sea Research, 15, 135-143 (Japanese with English abstract).: 小川　勇二郎・岩瀬　良一・金沢　敏彦・金子　浩幸・川上　俊介・川村　喜一郎・小山　純弘・小林　英城・牧　陽之助・酒井　慎一・高木　善弘・浅田　美穂（1999）、NT98-12 Leg 1による相模湾「しんかい2000」潜航調査報告（概報）－－第1047－1051潜航－－,JAMSTEC深海研究（2.地質学.地球化学.地球物理学.潜航調査編）, 15,135-143.
    

96. 96.Kawamura, K., Ikehara, K., Kanamatsu, T., Fujioka, K. and Matsuoka, H., (1999), Paleocurrent analysis by anisotropy of magnetic susceptibility and physical properties of turbidites collected from the Parece Vela Basin. JAMSTEC Deep-Sea Research, 15, 73-82 (Japanese with English abstract).: 川村　喜一郎・池原　研・金松　敏也・藤岡　換太郎・松岡　裕美（1999）、パレスベラ海盆から採取されたタービダイトの物性と帯磁率異方性による古流向解析,JAMSTEC深海研究（2.地質学.地球化学.地球物理学.潜航調査編）, 15,73-82.
    

97. 97.Fujioka, K., Kanamatsu, T., Okino, K., Hilde, T.W.C., Honza, E., Ishii, T., Ikehara, K., Matsuoka, H., Hisada, K., Ohara, Y., Tsuchihashi, M., Haraguchi, S., Kato, K., Kawamura, K., Kaneko, G., Takasugi, H., Takahashi, M., Kodera, T. and Motoo, T. (1999), Morphology of Mariana Trench and Central Basin Fault - Preliminary results of KR9801 cruise -,JAMSTEC Journal of Deep Sea Research, 14,163-192 (Japanese with English abstract).
    

98. 98.Kawamura, K., Ogawa, Y., Fujikura, K., Hattori, M., Machiyama, H., Yamamoto, T., Iwai, M. and Hirono, T., (1999), What did "KAIKO" watch? - Detail topography and geologic structures at the mouth of Tenryu canyon. JAMSTEC Deep-Sea Research, 14, 279-388 (Japanese with English abstract).: 川村　喜一郎・小川　勇二郎・藤倉　克則・服部　陸男・町山　栄章・山本　智子・岩井　雅夫・広野　哲朗（1999）、「かいこう」が見た天竜海底谷出口付近の南海付加体最前縁部の地形及び地質構造,JAMSTEC深海研究, 14,379-388.
    

99. 99.Kawamura, K., Ogawa, Y. and Kawata, T., (1999), Observation of freeze-dried and embedded deep-sea muds from Sagami Bay by SEM-EDS. JAMSTEC Deep-Sea Research, 14, 329-344 (Japanese with English abstract).: 川村　喜一郎・小川　勇二郎・川田　多加美（1999）、包理法及び凍結乾燥法に基づく相模湾表層堆積物のSEM,EDSによる観察,JAMSTEC深海研究, 14,329-344.
    

100. 100.Kanamatsu, T., Fujioka, K., Ikehara, K., Matsuoka, H., Kawamura, K., Tsuchihashi, M., Kato, K., Kaneko, G., Takasugi, H., Kodera, T., Motoo, T., (1999), Lithology and Chronology of pelagic sediments obtained in Western Philippine Basin during KR98-01. JAMSTEC Deep-Sea Research, 14, 205-211 (Japanese with English abstract).: 金松　敏也・藤岡　換太郎・池原　研・松岡　裕美・川村　喜一郎・土橋　正也・加藤　和浩・金子　吾朗・高杉　秀美・小寺　透・本尾　朝光（1999）、KR98-01によって西フィリピン海で採取された遠洋性堆積物の岩相.年代,JAMSTEC深海研究, 14,205-211.
     

101. 101.Ikehara, K., Kanamatsu, T., Fujioka, K., Matsuoka, H., Kawamura, K., Tsuchihashi, M., Kato, K., Takasugi, H. and Kaneko, G., (1999), Thick turbidites collected from the Parece Vela Basin deep-sea floor. JAMSTEC Deep-Sea Research, 14, 193-204 (Japanese with English abstract).: 池原　研・金松　敏也・藤岡　換太郎・松岡　裕美・川村　喜一郎・土橋　正也・加藤　和浩・高杉　秀美・金子　吾郎（1999）、パレスベラ海盆中央部の深海底から採取された厚層タービダイト,JAMSTEC深海研究, 14,193-204.
     

102. 102.Hirano, S., Ogawa, Y., Fujioka, K. and Kawamura, K., (1999), Temporal changes of cracks in the oceanward slope of northern Japan Trench off Sanriku: Six-year observation by submersible. JAMSTEC Deep-Sea Research, 14, 445-454 (Japanese with English abstract).: 平野　聡・小川　勇二郎・藤岡　換太郎・川村　喜一郎（1999）、三陸沖日本海溝海側斜面に発達する割れ目の変遷：「しんかい6500」および「かいこう」による観察,JAMSTEC深海研究, 14,445-454.
     

103. 103.Kawamura, K., Ikehara, K., Kanamatsu, T., Fujioka, K. and Ogawa, Y. (1999), Compaction process of pelagic clay collected from Parece Vela Rift,Land-Sea Link in Asia - Prof. Kenneth O. Emery Commemorative International Workshop -, Proceedings of an international workshop on sediment transport and storage in coastal sea-ocean system, Tsukuba, Japan, March 15-19, 1999, 441-446.
     

104. 104.Ogawa, Y., Fujiwara, Y., Hunt, J.C., Iwase, R., Kaneko, H., Kawamura, K., Kitazato, H., Kobayashi, H., Koizumi, K., Kubota, S., Nishida, S., Otsuka, I., Shimanaga, M., Takagi, Y., Tsuchida, S., Tsuchiya, M., Uematsu, M., Yamamoto, T., Hashimoto, J., Segawa, Y., (1997), Preliminary report of dive survey of "Shinkai2000", Sagami Bay, May 1997. JAMSTEC Deep-Sea Research, 13, 353-373 (Japanese with English abstract).: 小川　勇二郎・藤原　義弘・HUNT James C.・岩瀬　良一・金子　浩幸・川村　喜一郎・北里　洋・小林　英城・小泉　金一郎・久保田　信・西田　周平・大塚　攻・嶋永　元裕・高木　善弘・土田　真二・土屋　正史・植松　勝之・山本　智子・橋本　惇・瀬川　爾朗（1997）, 1997年5月相模湾「しんかい2000」潜航調査報告（概報）－第939-945潜航－,JAMSTEC深海研究, 13,353-373.
     

105. 105.田代　正之・川村　喜一郎，1996，秩父帯南帯（三宝山帯）の解釈－高知物部.佐川地域と紀州清水町付近を例として－,高知大学学術研究報告，自然科学,44,11-25.
     

106. 106.Kawamura, K. et al.(1985), Thermal ability of vacuum bottle. Research Report of Junior Science Class, Meguro School Board, 67-68 (In Japanese). : 川村喜一郎・中野敬哉・内川努・三浦晃、1985、ポットの保温力.東京都目黒教育委員会、67-68.
     

Others

107. 107.川村喜一郎・金折裕司・坂口有人・仁田　彩・藤井美南・山口大学-日本地質学会西日本支部合同調査団，2014，2013年（平成25年）山口・島根豪雨災害の概要と調査報告．地質災害の報告．
     

108. 108.川村喜一郎，2010，ニュージーランドのウェリントン断層．日本地質学会コラム．
     

109. 109.川村喜一郎・中島礼・川上俊介・太田亨・松田達生，2009，選挙舞台裏，すべて見せます！ー選挙管理委員が見た代議員選挙ー．日本地質学会地質マンガ．
     

110. 110.川村喜一郎，2009，山手線と山の手台地．日本地質学会コラム
     

111. 111.川村喜一郎，2009，IGCP-511　海底地すべり会議に参加して．日本地質学会コラム
     

112. 112.川村喜一郎，2009，赤崩と大井川ー池田宏氏による井川ジオツアーの報告．日本地質学会コラム．
     

113. 113.川村喜一郎，2009，日本から見ると1日過去の「みらい」から．South Pacific Ocean Research Activity 2009 SORA report．
     

114. 114.川村喜一郎，濱元栄起，山野誠，後藤忠徳，馬場聖至，原田誠，川田佳史，桜井紀旭，羽入朋子，南澤智美，畠山映，富樫尚孝，宗輝，KR08-10乗船研究者，2008，海洋研究開発機構，深海調査研究船「かいれい」KR08-10日本海溝航海．日本地質学会コラム．
     

115. 115.川村喜一郎・南澤智美，2008，三陸津波の痕跡と防災～田老の防潮堤を見学して～．日本地質学会コラム
     

116. 116.川村喜一郎・小川勇二郎，2008，ロンドン地質学会「Gravitational Collapse at Continental Margins」に参加して．日本地質学会コラム
     

117. 117.川村喜一郎，もう一つの東京の石の博物館　-清澄庭園と六義園に見られる．地質学会ニュース誌2008年5月号，TOPIC，p.11．
     

118. 118.Kawamura, K., Yamada, Y. and Miyakawa, A., 2008, IODP Geohazard Workshop and Field excursion to Mt. St. Helens. Geological Society of Japan News (Cover photos), vol. 11, No. 2, February.: 川村喜一郎・山田泰広，宮川歩夢，2008，IODPジオハザードワークショップとセントヘレンズ山巡検．地質学会News（表紙写真），vol. 11，No. 2，2月号．
     

119. 119.Kawamura, K. and Kawamura, N., 2007, Field excursion at Island of Hawaii in 2nd post-cruise meeting of the IODP Exp.303&306. Geological Society of Japan News (Cover photos), vol. 10, No. 9, September.: 川村喜一郎・川村紀子，2007，IODP Exp.303&306の2nd post-cruise meetingのハワイ島巡検．地質学会News（表紙写真），vol. 10，No. 9，9月号．
     

120. 120.川村喜一郎，2007，シンポジウム　海底地すべり．日本地質学会コラム，研究最前線．
     

121. 121.川村喜一郎，2007，南海付加体の実体に迫る：そのミクロ構造とマクロ構造．日本地質学会コラム，研究最前線．
     

Dissertations

122. 122.Doctor thesis, Kawamura, K., 2005, Systematic development processes of microfabrics in deep-sea sediments - sedimentation, compaction and deformation -. Doctoral Program in Earth Evolution Sciences, University of Tsukuba.
     

123. 123.Master thesis, Kawamura, K., 1999, Compaction process of pelagic clay. Doctral Program in Geoscience, University of Tsukuba.
     

124. 124.Bachelor thesis, Kawamura, K., 1995, Geologic structure of Cretaceous-Jurassic sedimentary rocks in Arida area, Wakayama Prefecture. Department of Geology, Kochi University.