論文等の一覧 Bibliography

研究プロジェクトに戻る Back to Researches

海野研の目次に戻る Index

金沢大学岩石学・火山学グループ KU Petrology & Volcanology Group

金沢大学地球学科 KU Department of Earth Sciences


102. 海野 進・田中宏幸・László Oláh・Dezső Varga・森下知晃・平松良宏・草野有紀, 2023. 日本、オマーン、ハンガリー国際共同研究「オマーンオフィオライトのミュオグラフィー観測計画」. J-DESCニュースレター, 16, 30 - 31. J-DESC日本地球掘削科学コンソーシアム (Published 2023.5)

101. 海野 進, 2022. 小笠原諸島の地質とその学術的価値. 都市公園, 237, 38 - 39. 公益財団法人東京都公園協会 (Published 2022.12)

100. 海野 進・草野有紀・宮下純夫・足立佳子,2022. 海洋地殻の構造と進化:高速拡大海嶺系.月刊地球号外,72, 40 - 47 (発行2022/3/15).

99. 海野 進・デーモンティーグル・スティーブンドント・グレッグムーア・ブノアイルドフォンス,2022. ハワイ沖海洋地殻掘削調査:マントル掘削パイロットホールプロジェクト.月刊地球号外,72, 22 - 29 (発行2022/3/15).

98. Ishizuka, O., Tani, K., Taylor, R.N., Umino, S., Sakamoto, I., Yokoyama, Y., shimoda, G., Harigane, Y., Ohara, Y., Conway, C., Perez, A., and Sekimoto, S., 2022. Origin and age of magmatism in the northern Philippine Sea basins. Geochem. Geophys. Geosyst., 23, e2021GC010242, doi: 10.1029/2021GC010242 (Online published 2022.3.15)

97. 海野 進・草野有紀, 2021. ハワイ沖上部地殻掘削から海洋プレートの形成過程に迫る. 地学雑誌, 130, 599 – 614, doi:10.5026/jgeography.130.599 (Published 2021.8.25)

96. Umino, S., Moore, G.F., Boston,B., Coggon,R., Crispini, L., D’Hondt,S., Garcia, M.O., Hanyu, T., Klein, F., Seama, N., Teagle, D.A.H., Tominagana, M., Yamashita, M., Harrism, M., Ildefonse, B., Katayama, I., Kusano, Y., Suzuki, Y., rembath-Reichert, E., Yamada, Y., Abe, N., Xiao, N., and Inagaki, F., 2021. Workshop Report: Exploring Deep Oceanic Crust off Hawaiʻi. Scientific Drilling, 29, 69 – 82, doi.org/10.5194/sd-29-69-2021 (Online published 2021.4.26)

95. Valetich, M.J., Le Losq, C., Arculus, R., Umino, S., and Mavrogenes, J., 2021. Compositions and classification of fractionated boninite-series melts from the Izu-Bonin-Mariana Arc: A machine learning approach. Journal of Petrology, 62, 1 – 20, doi: 10.1093/petrology/egab013 (2021.4.28, Online published 2021.2.5)

94. Ishizuka, O., Taylor, R.N., Umino, S., and Kanayama, K., 2020. Geochemical evolution of arc and slab following subduction initiation: a record from the Bonin Islands, Japan. Journal of Petrology, 61, doi.org/10.1093/petrology/egaa050. (Online published 2020.5.6)

93. Kelemen, P.B., Matter, J.M., Teagle, D.A.H., Coggon, J.A., and the Oman Drilling Project Science Team, 2020. Proceedings of the Oman Drilling Project: College Station, TX (International Ocean Discovery Program), doi.org/10.1093/petrology/egaa050. (Online published 2020.4.24)

92. Umino, S., Kusano, Y., Yamaji, A., Fudai, T., Tamura, A., and Arai, S., 2019. The conversion tectonics from spreading to subduction: Paleostress analysis of dike swarms during the subduction initiation in the Oman Ophiolite. Geological Society of America Bulletin, 132, 1333 – 1343, doi.org/10.1130/B35202.1.

91. Morishita, T., Susumu Umino, Kimura, J., Yamashita, M., Ono, S., lein, F., and Garcia, M.O., 2019. Workshop report on hard-rock drilling into mid-Cretaceous Pacific oceanic crust on the Hawaiian North Arch. Scientific Drilling, 26, 47 – 58, doi.org/10.5194/sd-26-47-2019.

90. 海野 進, 2019. 無人岩のテクトニクス:沈み込み帯発生とマントル進化. 岩石鉱物科学, 48, 63 - 75.

89. 海野 進, 2018. 日本人による世界のオフィオライト研究. 地質学雑誌, 124, 593 - 601.

88. Valetich, M.J., Mavrogenes, J., Arculus, R., and Umino, S., 2018. Evolution of chalcophile elements in the magmas of the Bonin Islands. Chemical Geology, doi.org/10.1016/j.chemgeo.2018.07.011.

87. Perez, A., Umino, S., Yumul Jr., G.P., and Ishizuka, O., 2018. Boninite and boninite-series volcanics in northern Zambales ophiolite: doubly-vergent subduction initiation along Philippine Sea Plate margins. Solid Earth, 9, 713-733, doi.org/10.5194/se-9-713-2018.

86. Umino, S., Kanayama, K., Kitamura, K., Tamura, A., Ishizuka, O., Senda, R., and Arai, S., 2018. Did boninite originate from the heterogeneous mantle with recycled ancient slab? Island Arc, 27, e12221, doi: 10.1111/iar.12221. (2018.1.12; Available online 2017.9.28) (Top cited paper in 2018-2019)

85. Kusano, Y., Umino, S., Shinjo, R., Ikei, A., Adachi, Y., Miyashita, S., and Arai, S., 2017.Contribution of slab-derived fluid and sedimentary melt in the incipient arc magmas with development of the paleo-arc in the Oman Ophiolite. Chemical Geology, 449, 206 - 225, dx.doi.org/10.1016/j.chemgeo.2016.12.012. (2017.1.11; Available online 9 Dec 2016)

84. 海野 進・石塚 治・金山恭子, 2016. 母島列島地域の地質.地域地質研究報告(5万分の1地質図幅)小笠原諸島(20) 第3号 NG-54-8-16, 9-13. 産業技術総合研究所地質調査総合センター,46p.

83. 海野 進, 2015. M2Mモホール計画:地球深部探査船「ちきゅう」によるマントル超深度海底掘削への挑戦.土木学会論文集A2, 71, I_3-I_10.

82. Umino, S., Kitamura, K., Kanayama, K., Tamura, A., Sakamoto, N., Ishizuka, O. and Arai, S., 2015. Thermal and chemical evolution of the subarc mantle revealed by spinel-hosted melt inclusions in boninite from the Ogasawara (Bonin) Archipelago, Japan. Geology, 43, 151-154, doi: 10.1130/G36191.1 .

81. Ildefonse, B., Abe, N., Godard, M., Morris, A., Teagle, D.A.H. and Umino, S., 2014. Formation and Evolution of Oceanic Lithosphere: New Insights on Crustal Structure and Igneous Geochemistry from ODP/IODP Sites 1256, U1309, and U1415. In Stein, R., Blackman, D., Inagaki, F. and Larsen, H.-C. (eds.) Earth and Life Processes Discovered from Subseafloor Environment. Developments in Marine Geology, 7, Elsevier, Amsterdam, 449-505.

80. Ishizuka, O., Umino, S., Taylor, R.N. and Kanayama, K., 2014. Evidence for hydrothermal activity in the earliest stages of intraoceanic arc formation: implication for ophiolite-hosted hydrothermal activity. Economic Geology, 109, 2159-2177.

79. Kanayama, K., Umino, S., and Ishizuka, O., 2014. Shallow submarine volcano group in the early stage of island arc development: geology and petrology of small islands south off Hahajima main island, the Ogasawara Islands. Journal of Asian Earth Sciences , 85, 1 - 25, http://dx.doi.org/10.1016/j.jseaes.

78. Kusano, Y. Hayashi, M., Adachi, Y., Umino, S. and Miyashita, S., 2014. Evolution of volcanism and magmatism during initial arc stage: constraints on the tectonic setting of the Oman Ophiolite. In Rollinson, H.R., Searle, M.P., Abbasi, I.A., Al-Lazki, A. and Al Kindi, M.H. (eds.), Tectonic Evolution of the Oman Mountains. Geological Society, London, Special Publications, 392, 177-193, http://dx.doi.org/10.1144/SP392.9

77. Umino, S., Nealson, K. and Wood, B., 2013. Drilling to Earth’s mantle. Physics Today, 66, 8, 36-41.

76. Kanayama, K., Umino, S., and Ishizuka, O., 2012. Eocene volcanism during the incipient stage of Izu?Ogasawara Arc: Geology and petrology of the Mukojima Island Group, the Ogasawara Islands. Island Arc, 21, 288 - 316, DOI: 10.1111/iar.12000.

75. Umino, S., 2012. Emplacement mechanism of off-axis large submarine lava field from the Oman Ophiolite. J. Geophys. Res., 117, B11210, doi:10.1029/2012JB009198.

74. Kusano, Y., Adachi, Y., Miyashita, S. and Umino, S., 2012. Lava accretion system around mid-ocean ridges: Volcanic stratigraphy in the Wadi Fizh area, northern Oman ophiolite. Geochem. Geophys. Geosyst., 1, 32 - 33.

73. 海野 進,2012. 無人岩と島弧の誕生.日本の世界遺産,朝日新聞出版,東京,1, 32 - 33.

72. 浅田美穂・富士原敏也・海野 進,2012. 中部マリアナトラフ拡大軸における火山活動位置についての考察―深海曳航式サイドスキャンソナーと「しんかい6500」による高解像度観察の記録から.火山,57, 1 - 18.

71. 海野 進・金山恭子・石塚 治,2011. 海洋から島弧へ:小笠原諸島はどのようにして生まれたか.科学,岩波書店,東京,8, 765 - 771.

70. Ishizuka, O., Tani, K., Reagan, M.K., Kanayama, K., Umino, S., Harigane, Y., Sakamoto, I., Miyajima, Y., Yuasa, M. and Dunkley, D.J., 2011. The timescales of subduction initiation and subsequent evolution of an oceanic island arc. Earth Planet. Sci. Lett., 306, 229 - 240.

69. Tominaga, M. and Umino, S., 2010. Lava deposition history in ODP Hole 1256D: Insights from log-based volcanostratigraphy. Geochem. Geophys. Geosyst., 11, Q05003, doi: 10.1029/2009GC002933.

68. 海野 進・中野 俊・石塚 治・駒澤正夫, 2009. 20万分の1地質図幅「小笠原諸島」NF-53-12, NG-54-7,8,9,16,17,18,20, NG-56-18. 産業技術総合研究所地質調査総合センター.

67. Tominaga, M., Teagle, D.A.H., Alt, J.C. and Umino, S., 2009. Determination of the volcanostratigraphy of oceanic crust formed at superfast spreading ridge: electrofacies analyses of ODP/IODP Hole 1256D. Geochem. Geophys. Geosyst., Q01003, doi:10.1029/2008GC002143.

66. 海野 進,2008. 小笠原の地形・地質.地図中心, 430, 6-7.

65. Fujiwara, T., Umino, S., Asada, M., Koike, Y., Kanamatsu, T., Kimoto, K. and Okada, S., 2008. A submersible study of the Mariana Trough back-arc spreading center at 17°N. JAMSTEC Rep. Res. Dev., 8, 61 - 73.

64. 小池悠己・富士原敏也・海野 進・ 浅田美穂・岡田 聡,, 2008. 「しんかい6500」に搭載されたサブボトムプロファイラを用いたマリアナトラフ背弧拡大軸付近の表層堆積物観察.JAMSTEC Rep. Res. Dev., 8, 29 - 36.

63. Fujita, E., Hidaka, M., Goto, A. and Umino, S., 2008. Simulations of measures to control lava flows. Bull. Volcanol., doi 10.1007/s00445-008-0229-7.

62. Umino, S., Crispini, L., Tartarotti, P., Teagle, D.A.H., Alt, J.C., Miyashita, S. and Banerjee, N.R., 2008. The origin of the sheeted dike complex at superfast spread East Pacific Rise revealed by deep ocean crust drilling at ODP Hole 1256D. Geochem. Geophys. Geosyst., Q06O08, doi: 10.1029/2007GC001760.

61. 海野 進・下司信夫・熊谷英憲・岸 本清行, 2008. 東太平洋海膨のオフリッジ火山はモホ遷移帯起源か?地学雑誌, 107, 190-219.

60. Geshi, N., Umino, S., Kumagai, H., Sinton, J.M., White, S.M., Kishimoto, K. and Hilde, T.W., 2007. Discrete plumbing systems and heterogeneous magma sources of a 24 km3 off-axis lava field on the western flank of East Pacific Rise, 14°S. Earth Planet. Sci. Lett., 258, 61 - 72.

59. Umino, S., 2007. Data Report: Textural variation of Units 1256C-18 and 1256D-1 lava pond, with special reference to recrystallization of the base of Unit 1256C-18 (PDF). In Teagle, D.A.H., Wilson, D.S., Acton, G.D., and Vanko, D.A. (Eds.), Proc. ODP, Sci. Results, 206: College Station, TX (Ocean Drilling Program), 1-32, doi:10.2973/odp.proc.sr.206.007.2007.

58. 海野 進, 2007. 富士山溶岩流の特性.荒牧重雄(編)「富士山」,山梨県環境科学研究所,269-283.

57. Laura Crispini, Paola Tartarotti and Susumu Umino, 2006. Microstructural features of a subaqueous lava from basaltic crust off the East Pacific Rise (ODP Site 1256, Cocos Plate). Ofioliti, 31, 117 - 127.

56. Paola Tartarotti, Laura Crispini and the IODP Expeditions 309 and 312 Shipboard Scientific Parties, 2006. ODP-IODP Site 1256 (East Pacific Rise): an in-situ section of upper oceanic crust formed at a superfast spreading rate. Ofioliti, 31, 107 - 116.

55. Teagle, D.S., and the Expedition 309/312 Scientists, 2007. Proc. IODP, 309/312: Washington, DC (Integrated Ocean Drilling Program Management International, inc.). doi:10.2204/iodp.proc.309312.101.2006

54. 海野 進・中野 俊,2007. 父島列島地域の地質. 地域地質研究報告(5万分の1地質図幅)小笠原諸島(20) No. 2 NG-54-8-13·14. 産業技術総合研究所地質調査総合センター,71p.

53. White, S.M., Umino, S. and Kumagai, H., 2006. Transition from seamount chain to intraplate volcanic ridge at the East Pacific Rise. Geology, 34, 293 - 296.

52. Wilson, D.S., Teagle, D.A.H., Alt, J.C., Banerjee, N.R., Umino, S., Miyashita, S., Acton, G.D., Anma, R., Barr, S.R., Belghoul, A., Carlut, J., Christie, D.M., Coggon, R.M., Cooper, K.M., Cordier, C., Crispini, L., Durand, S.R., Einaudi, F., Galli, L., Gao, Y., Geldmacher, J., Gilbert, L.A., Hayman, N.W., Herrero-Bervera, E., Hirano, N., Holter, S., Ingle, S., Jiang, S., Kalberkamp, U., Kerneklian, M., Koepke, J., Laverne, C., Haroldo L. Lledo Vasquez, Maclennan, J., Morgan, S., Neo, N., Nichols, H.J., Park, S.-H., Reichow, M.K., Sakuyama, T., Sano, T., Sandwell, R., Scheibner, B., Smith-Duque, C.E., Swift, S.A., Tartarotti, P., Tikku, A.A., Tominaga, M., Veloso Espinosa, E.A., Yamasaki, T., Yamazaki, S., Ziegler, C., 2006. Drilling to gabbro in intact ocean crust. Science, 312, 1016 - 1020.

51. Umino, S., Nonaka, M. and Kauahikaua, J., 2006. Emplacement of subaerial pahoehoe lava sheet flows into water: 1990 Kupaianaha flow of Kilauea Volcano at Kaimu Bay, Hawai`i. Bull. Volcanology, DOI 10.1007/s00445-006-0059-4.

50. 北村晃寿・加瀬友喜・海野 進・山本なぎさ・大橋秀一・平本真弓・若山奈々美・雨宮真理子, 2006.沖縄県伊江島の海底洞窟堆積物から見つかった軽石散在層.第四紀研究, 45, 141-144.

49. 野中美雪・海野 進・Jim Kauahikaua, 2005. ハワイ島キラウエア火山Pu' u-'O'o- Kupaianaha火口から1990年にカイム湾に流下した溶岩流の形態と定置機構.火山, 50, 157-171.

48. Hidaka, M., Goto, A., Umino, S. and Fujita, E., 2005. VTFS project: Development of the lava flow simulation code LavaSIM with a model for three-dimensional convection, spreading, and solidification. Geochem. Geophys. Geosyst., Q07008, doi:10.1029/2004GC000869.

47. 海野 進,2004. 富士山溶岩流の特性.溶岩流国際シンポジウム2004 「溶岩流の制御と防災」,山梨県環境科学研究所,富士吉田.

46. Teagle, D.A.H., Wilson, D.S., Acton, G.D., and ODP Leg 206 Scientific Party, 2004. The "Road to the MoHole" four decades on: Deep Drilling at Site 1256. EOS, 85, 521, 530-531.

45. Kugimiya, Y., Matsuda, Y., Umino, S. and Masuda, T., 2003. Kanonaite from the metamorphic sole of the Oman ophiolite; evidence from high fo2 during retrograde metamorphism. The Canadian Mineralogist, 42, 143-153.

44. 海野 進,2003. 海洋地殻深度掘削の成果と課題.地学雑誌, 112, 650 - 667.

43. Miyashita, S., Adachi, Y. and Umino, S., 2003. Along axis magmatic system in the northern Oman Ophiolite: Implications of compositional variation of the sheeted dike complex. Geochem. Geophys. Geosyst., 8617, doi:10.1029/2001GC000235.

42. Umino, S., Miyashita, S., Hotta, F. and Adachi, Y.,2003. Along-Strike Variation of the Sheeted Dike Complex in the Oman Ophiolite -- Insights into Subaxial Ridge Segment Structures and Magma Plumbing System. Geochem. Geophys. Geosyst., 8618, doi:10.1029/2001GC000233.

41. 海野 進,2002. 溶岩流災害― 平安初期噴火の例 ―.月刊地球,24, 622 - 630.

40. 宮下純夫・海野 進・足立佳子,2002. 総説:オフィオライト研究の新しい局面ーオフィオライトを例として.地質雑,108, 520 - 535.

39. Ishikawa, T., Nagaishi, T. and Umino, S., 2002. Boninitic volcanism in the Oman ophiolite: Implications for thermal condition during transition from spreading ridge to arc. Geology, 30, 899-902.

38. Matsumoto, T., Pinti, D.L., Matsuda, J. and Umino, S., 2002. Recycled noble gas and nitrogen in the subcontinental lithospheric mantle: Implications from N-He-Ar in fluid inclusions of SE Australian xenoliths. Geochim. J., 36, 209 - 217.

37. Susumu Umino, Sumie Obata, Peter Lipman, John R. Smith, Tsugio Shibata, Jiro Naka and Frank Trusdell, 2002. Emplacement and Inflation Structures of Submarine and Subaerial Pahoehoe Lavas From Hawaii. In E. Takahashi et al. (eds.), Hawaiian Volcanoes: Deep Underwater Perspectives, AGU Monograph, 128, 85-101.

36. Naka, J., Takahashi, E., Clague, D., Garcia, M., Hanyu, T., Herrero-Bervera, E., Ishibashi, J., Ishizuka, O., Johnson, K., Kanamatsu, T., Kaneoka, I., Lipman, P., Malahoff, A., McMurtry, G., Midson, B., Moore, J., Morgan, J., Naganuma, T., Nakajima, K., Oomori, T., Pietruszka, A., Satake, K., Sherrod, D., Shibata, T., Shinozaki, K., Sisson, T., Smith, J., Takarada, S., Thornber, C., Trusdell, F., Tsuboyama, N., Ui, T., Umino, S., Uto, K. and Yokose, H., 2000. Tectono-magmatic processes investigated at deep-water flanks of Hawaiian volcanoes. EOS, 81, 221 - 227.

35. 海野  進・小幡 涼江,2000. 溶岩流の構造とダイナミクス― 溶岩供給率と形成時間 ―.月刊地球,22, 552-557.

34. Umino, S., Lipman, P.W. and Obata, S., 2000. Subaqueous lava flow obes, observed on ROV KAIKO dives off Hawaii. Geology, 28, 502 - 506.

33. 小幡 涼江・海野  進,1999. 富士火山北西山麓本栖湖畔の864年青木ヶ原溶岩の形態について.火山,44, 201 - 216.

32. 海野 進・中目 大・当山奈々美・杉山佳子・堀田史子,1999. オマーン・オフィオライトのシート状岩脈群の構造とセグメンテーション―北部オマーン山脈・ソハール周辺について―.月刊地球,6, 362-366.

31. Umino, S. and Horio, A., 1998. Multistage Magma Mixing Revealed in Phenocryst Zoning of the Yunokuchi Pumice, Akagi Volcano, Japan. J. Petrol., 39, 101-124.

30. Umino, S. and Mochizuki, A., 1997. Geochemical segmentation of sheeted dykes of the Troodos paleospreading centre. Repts. Fac. Sci., Shizuoka Univ., 31, 45 - 66.

29.海野  進,1996. 東オーストラリアの火山帯.静岡地学,73, 1 - 8.

28. Umino, S., 1996. Proposal for scientific drilling on the Bonin Islands. Proceedings of VIIIth International Symposium on the Observation of the Continental Crust Through Drilling, Tsukuba, Japan, 121 - 126.

27. Umino, S. and Horio, A., 1996. Mushy magma chamber beneath island arc volcanoe -- evidence from Yunokuchi Pumice, Akagi Volcano, Japan --. Abstracts in 30th International Geological Congress, 2, 426.

26. Umino, S. and Mochizuki, A., 1996. Emplacement of multiple dykes at the Troodos Paleospreading Axis. Abstracts in 30th International Geological Congress, 2, 238.

25. Umino, S. and Yoshizawa, E., 1996. Petrology of ultramaifc xenoliths from Kishyuku lava, Fukue-jima, Southwest Japan. Contrib. Mineral. Petrol., 124, 154 - 166.

24. 堀尾 淳・海野 進,1995. 島弧火山下のマッシュ状マグマ溜り-赤城火山湯ノ口軽石の例-.火山,40, 375 - 393. 

23. 海野 進,1995. デカン高原.荒牧重雄・白尾元理・長岡正利(編),「空から見る世界の火山」,丸善株式会社,東京,20 - 23.

22. Umino, S., 1995. Downhole variations in grain size at Hole 504B: Implications for rifting episodes at mid-ocean ridges. In Erzinger, J., Becker, K., Dick, H.J.B. and Stokking, L.B. (eds.): Proc. ODP, Sci. Results, 137/140: College Station, TX (Ocean Drilling Program), 19 - 33.

21. 海野 進,1995. 北部オマ-ン山脈サマイル・オフィオライトの地質.地学雑誌,104, 321 - 349.

20. 海野 進,1994. 福江火山.平成2~5年科研費補助金(一般研究A)研究成果報告書「島弧における地殻の進化」(久城育夫代表),33 - 39.

19. 海野 進,1994. 中央海嶺のマグマ供給システム.地学雑誌,103, 498 - 521.

18. 中原竜二・海野 進・渡辺一樹,1992. 伊豆半島東方沖ドレッジ試料の岩石学的研究.静大地研報,18, 25 - 57.

17. 佐野貴司・和田秀樹・海野 進・中村俊夫,1992. ニュージーランド北島,オークランド火山群の噴火年代.名古屋大学加速器質量分析計業績報告書(III),67 - 75.

16. Umino, S., 1992. Grain-size variations. In H. Dick, J. Erzinger, et al., Proc. ODP, init. Repts., 140: College Station, TX (Ocean Drilling Program), 59 - 61.

15. 海野 進・岩野晶子,1992. 斑状ボニナイトの起源 ― 結晶-メルト混合層の破壊とマグマ混合 ―.火山,37, 183 - 203.

14. Umino, S., Shiraki, K., Kuroda, N. and Urano, H., 1992. Boninite and related rocks. IGC field trip C-15, 29th IGC Field Trip Guide Book, 4, 149 - 182.

13. Koyama, M. and Umino, S., 1991. Why does the Higashi-Izu monogenetic volcano group exist in the Izu Peninsula?: relationships between late Quaternary volcanism and tectonics in the northern tip of the Izu-Bonin arc. J. Phys. Earth, 39, 391 - 420.

12. 海野 進,1991. オマーン北部のサマイル・オフィオライト.静岡地学,63, i - iii.

11. Umino, S., Kato, M. and Koyama, M., 1991. Diversity of parent magmas of Higashi-Izu monogenetic volcano group. J. Phys. Earth, 39, 371 - 389.

10. Umino, S., Yanai, S., Jaman, A.R., Nakamura, Y. and Iiyama, J.T., 1990. The transition from spreading to subduction: evidence from the Semail ophiolite, northern Oman mountains. In Malpas, J. et al. (eds.), Ophiolites, Oceanic Crustal Analogues, 375 - 384.

9. Yanai, S., Umino, S., Ibrahim, S.O., Nakamura, Y. and Iiyama, J.T. , 1990. Subduction- and collision-related emplacement of the Semail ophiolite, Northern Oman mountains. In Malpas, J. et al. (eds.), Ophiolites, Oceanic Crustal Analogues, 385 - 396.

8. 海野 進,1989. 小笠原海嶺の地下構造の推定 ― 岩石学からのアプローチ ― .白木敬一(代表),「日本の高マグネシア安山岩」,33.

7. Umino, S. and Kushiro, I., 1989. Experimental studies on boninite petrogenesis. In A. Crawford (ed.), Boninites and Related Rocks, 89 - 111.

6. 柳井修一・海野 進・中村保夫・飯山敏道,1989. オフィオライトの応力構造 -サマイル・オフィオライトを例として-.地学雑誌,98, 278 - 303.

5. 海野 進・白木敬一・黒田 直,1988. 小笠原諸島-世界初のモホ-ルに向けて-.荒牧重雄・新妻信明(編),陸上学術ボ-リングワ-キンググル-プ,陸上学術ボ-リング 候補地集II,35 - 61.

4. 柳井修一・石渡 明・海野 進・小沢一仁・荒井章司,1988. キプロス島のトル-ドス・オフィオライト.地学雑誌,97, 105 - 111.

3. Umino, S., 1986. Magma mixing in boninite sequence of Chichijima, Bonin Islands. J. Volcanol. Geotherm. Res., 29, 125 - 157.

2. Umino, S., 1986. Geological and Petrological Study of Boninites and Related Rocks from Chichijima, Bonin Islands. PhD thesis, University of Tokyo, 367p.

1. Umino, S., 1985. Volcanic geology of Chichijima, the Bonin Islands (Ogasawara Islands). J. Geol. Soc. Japan, 91, 505 - 523.


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