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92.  Takaya, Y., Yasukawa, K., Kawasaki, T., Fujinaga, K., Ohta, J., Usui, Y., Nakamura, K., Kimura, JI., Chang, Q., Hamada, M., Dodbiba, G., Nozaki, T., Iijima, K., Morisawa, T., Kuwahara, T., Ishida,  Y., Ichimura, T., Kitazume, M., Fujita, T. and *Kato, Y.: The tremendous potential of deep-sea mud as a source of rare-earth elements. Scientific Reports, vol. 8, 5763; doi:10.1038/s41598-018-23948-5, 2018

91.  *Takaya, Y., Nakamura, K. and Kato, Y.: Long-term reaction characteristics of CO2-water-rock interaction: insight into the potential groundwater contamination risk from underground CO2 storage. Resource Geology, vol. 68, 93-100, 2018

90.  *Aoki, S., Kabashima, C., Kato, Y., Hirata, T. and Komiya, T.: Influence of contamination on banded iron formations in the Isua supracrustal belt, West Greenland, Geoscience Frontiers, vol. xx, 1-24, http://dx.doi.org/10.1016/j.gsf.2016.11.016, 2017

89. *Nozaki, T., Takaya, Y., Toyofuku, T., Tokumaru, A., Goto, K.T., Chang, Q., Kimura, J., Kato, Y., Suzuki, K., Augustin, A. H. and Kitazato, H.: Depositional Age of a Fossil Whale Bone from Sao Paulo Ridge, South Atlantic Ocean, Based on Os Isotope Stratigraphy of a Ferromanganese Crust. Resource Geology, vol. 67, 442-450, 2017

88.  Yasukawa, K., Nakamura, K., Fujinaga, K., Ikehara, M. and *Kato, Y.: Earth system feedback statistically extracted from the Indian Ocean deep-sea sediments recording Eocene hyperthermals. Scientific Reports, vol. 7, 11304; doi:10.1038/s41598-017-11470-z, 2017

87.  Fujinaga, K., Yasukawa, K., Nakamura, K., Machida, S., Takaya, Y., Ohta, J., Araki, S., Liu, H., Usami, R., Maki, R., Haraguchi, S., Nishio, Y., Usui, Y., Nozaki, T., Yamazaki, T., Ichiyama, Y., Ijiri, A., Inagaki, F., Machiyama, H., Iijima, K., Suzuki, K., *Kato, Y., KR13-02, MR13-E02 Leg 2 and KR14-02 Cruise Members: Geochemistry of REY-rich mud in the Japanese Exclusive Economic Zone around Minamitorishima Island. Geochemical Journal, vol. 50, 575-590, 2016

86.  Iijima, K., Yasukawa, K., Fujinaga, K., Nakamura, K., Machida, S., Takaya, Y., Ohta, J., Haraguchi, S., Nishio, Y., Usui, Y., Nozaki, T., Yamazaki, T., Ichiyama, Y., Ijiri, A., Inagaki, F., Machiyama, H., Suzuki, K., *Kato, Y. and KR13-02 Cruise members: Discovery of extremely REY-rich mud in the western North Pacific Ocean. Geochemical Journal, vol. 50, 557-573, 2016

85.  *Machida, S., Fujinaga, K., Ishii, T., Nakamura, K., Hirano, N. and Kato, Y.: Geology and geochemistry of ferromanganese nodules in the Japanese Exclusive Economic Zone around Minamitorishima Island. Geochemical Journal, vol. 50, 539-555, 2016

84.  *Nakamura, K., Machida, S., Okino, K., Masaki, Y., Iijima, K., Suzuki, K. and Kato, Y.: Acoustic characterization of pelagic sediments using sub-bottm profiler data: Implications for the distribution of REY-rich mud in the Minamitorishima EEZ, western Pacific. Geochemical Journal, vol. 50, 605-619, 2016

83.  *Nozaki, T., Tokumaru, A., Takaya, Y., Kato, Y., Suzuki, K. and Urabe, T.: Major and trace element compositions and resource potential of ferromanganese crust at Takuyo Daigo Seamount, northwestern Pacific Ocean. Geochemical Journal, vol. 50, 527-537, 2016

82.  Ohta, J., Yasukawa, K., Machida, S., Fujinaga, K., Nakamura, K., Takaya, Y., Iijima, K., Suzuki, K. and *Kato, Y.: Geological factors responsible for REY-rich mud in the western North Pacific Ocean: Implications from mineralogy and grain size distributions. Geochemical Journal, vol. 50, 591-603, 2016

81.  Yasukawa, K., Nakamura, K., Fujinaga, K., Iwamori, H. and *Kato, Y.: Tracking the spatiotemporal variations of statistically independent components involving enrichment of rare-earth elements in deep-sea sediments. Scientific Reports, vol. 6, 29603; doi:10.1038/srep29603, 2016.

80.  *Onoue, T., Sato, H., Yamashita, D., Ikehara, M., Yasukawa, K., Fujinaga, K., Kato, Y. and Matsuoka, A.: Bolide impact triggered the Late Triassic extinction in equatorial Panthalassa. Scientific Reports, vol. 6, 29609; doi:10.1038/srep29609, 2016.

79D*Nozaki, T., Ishibashi, J. Shimada, K., Takaya, Y., Nagase, T., Kato, Y., Kawagucci, T., Watsuji, T., Shibuya, T., Yamada, R., Saruhashi, T., Kyo, M. and Takai, K.: Rapid growth of mineral deposits at artificial seafloor hydrothermal vents. Scientific Reports, vol. 6, 22163; doi:10.1038/srep22163, 2016.

78.  *Takaya, Y., Fujinaga, K., Yamagata, N., Araki, S., Maki, R., Nakamura, K., Iijima, K. and *Kato, Y.: Chemical leaching of rare earth elements from highly REY-rich mud. Geochemical Journal, vol. 49, 637–652, 2015

77.  Yasukawa, K., Nakamura, K., Fujinaga, K., Machida, S., Ohta, J., Takaya, Y. and *Kato, Y.: Rare-earth, major, and trace element geochemistry of deep-sea sediments in the Indian Ocean: Implications for the potential distribution of REY-rich mud in the Indian Ocean. Geochemical Journal, vol. 49, 621–635, 2015

76D“¡‰iŒöˆê˜YEˆÀì˜aFEûü’J—Y‘¾˜YE‘å“c”¹ˆê˜YE’†‘ºŒª‘¾˜YE*‰Á“¡‘׍_FV‚½‚Ȑ[ŠC’êz•¨Ž‘Œ¹gƒŒƒAƒA[ƒX“Dh‚Ì’T¸‚ÆŠJ”­‚ÉŒü‚¯‚½Žæ‚è‘g‚݁DJournal of the Mining and Materials Processing Institute of Japan, vol. 131, 648-655, 2015

75D*Machida, S., Hirano, N., Sumino, H., Hirata, T., Yoneda, S. and Kato, Y.: Petit-spot geology reveals melts in upper-most asthenosphere dragged by lithosphere. Earth and Planetary Science Letters, vol. 426, 267–279, 2015

74DTakaya, Y., Nakamura, K. and *Kato, Y.: Dissolution of altered tuffaceous rocks under conditions relevant for CO2 storage. Applied Geochemistry, vol. 58, 78–87, 2015

73D*Tokumaru, A., Nozaki, T., Suzuki, K., Goto, K. T., Chang, Q., Kimura, J., Takaya, Y., Kato, Y., Usui, A. and Urabe, T.: Re–Os isotope geochemistry in the surface layers of ferromanganese crusts from the Takuyo Daigo Seamount, northwestern Pacific Ocean. Geochemical Journal, vol. 49, 233–241, 2015

72DYasukawa, K., Liu, H., Fujinaga, K., Machida, S., Haraguchi, S., Ishii, T., Nakamura, K and *Kato, Y.: Geochemistry and mineralogy of REY-rich mud in the eastern Indian Ocean. Journal of Asian Earth Sciences, vol. 93, 25-36, 2014

71D*Yamaguchi, A., Ishikawa, T., Kato, Y., Nozaki, T., Meneghini, F., Rowe, C.D, Moore, C., Tsutsumi, A. and Kimura, G.: Fluid-rock interaction recorded in the black fault rocks in the Kodiak accretionary complex, Alaska. Earth, Planets and Space, vol. 66:58, doi:10.1186/1880-5981-66-58, 2014

70D*Nozaki, T., Kato, Y. and Suzuki, K.: Re-Os geochronology on the Hitachi volcanogenic massive sulfide deposit: The oldest ore deposit in Japan. Economic Geology, vol. 109, 2023–2034, 2014

69D*–ìè’B¶E‰Á“¡‘׍_E—é–؏Ÿ•FFRe–Os“¯ˆÊ‘Ì‚ð—p‚¢‚½’n‹…‰»Šw:”N‘㌈’è‚©‚çŒÃŠÂ‹«‰ð“ǂ܂ŁD’n‹…‰»Šw, 48Šª, 4†, 279-305, 2014

68D ‚’J—Y‘¾˜YE•½o—²ŽuE“¡‰iŒöˆê˜YE’†‘ºŒª‘¾˜YE*‰Á“¡‘׍_F‰»ŠwƒŠ[ƒ`ƒ“ƒO‚É‚æ‚郌ƒAƒA[ƒX“D‚©‚ç‚̃ŒƒAƒA[ƒX‰ñŽû•û–@‚ÌŒŸ“¢|ƒŒƒAƒA[ƒX“D‚ÌŠJ”­‚ƍHŠw“I—˜—p‚ÉŒü‚¯‚ā|DJournal of the Mining and Materials Processing Institute of Japan, 130Šª, 4†, 94-102, 2014

67D*Eliwa, H.A., Breitkreuz, C., Murata, M., Khalaf, I.M., Bühler, B., Itaya, T., Takahashi, T., Hirahara, Y., Miyazaki, T., Kimura, J-I., Shibata, T., Koshi, Y., Kato, Y., Ozawa, H., Daas, M.A., El Gameel, K.: SIMS zircon U–Pb and mica K–Ar geochronology, and Sr–Nd isotope geochemistry of Neoproterozoic granitoids and their bearing on the evolution of the north Eastern Desert, Egypt. Gondwana Research, vol. 25, 1570–1598, 2014

66D*Suzuki, K., Yamamoto, S., Sawaki, Y., Aoki, K., Omori, S., Kon, Y., Hirata, T., Li, Y.-B., Takaya, Y., Fujinaga, K., Kato, Y. and Maruyama, S.: Zircon U-Pb dating from the mafic enclaves in the Tanzawa Tonalitic Pluton, Japan: Implications for arc history and formation age of the lower-crust. Lithos, vol. 196–197, 301–320, 2014

65D*Kashiwabara, T., Toda, R., Kato, Y., Fujinaga, K., Takahashi, Y. and Honma, T.: Determination of host phase of lanthanum in deep-sea REY-rich mud by XAFS and m-XRF using high-energy synchrotron radiation. Chemistry Letters, vol. 43, 199–200, 2014

64D*Kawagucci, S., Miyazaki, J., Nakajima, R., Nozaki, T., Takaya, Y., Kato, Y., Shibuya, T., Konno, U., Nakaguchi, Y., Hatada, K. Hirayama, H., Fujikura, K., Furushima, Y., Yamamoto, H., Watsuji, T., Ishibashi, J. and Takai, K.: Post-drilling changes of fluid discharge and mineral deposition patterns and fluid chemistry in seafloor hydrothermal activity of the Iheya-North hydrothermal field, Okinawa Trough. Geochemistry Geophysics Geosystem, vol. 14, 4774–4790, 2013

63D*Li, Y.-B., Kimura, J.-I., Machida, S., Ishii, T., Ishiwatari, A., Maruyama, S., Qiu, H.-N., Ishikawa, T., Kato, Y., Haraguchi, S., Takahata, N., Miyazaki, T. and Hirahara, Y.: High Mg adakite and low Ca boninite from the Bonin forearc seamount: Implication for the reaction between the slab melt and depleted mantle. Journal of Petrology, vol. 54, 1149-1175, doi: 10.1093/petrology/egt008, 2013

62DNozaki, T., *Kato, Y. and Suzuki, K.: Late Jurassic ocean anoxic event: evidence from voluminous sulphide deposition and preservation in the Panthalassa. Scientific Reports, vol. 3, 1889; doi:10.1038/srep01889, 2013

61DTakaya, Y., Nakamura, K. and *Kato, Y.: Geological, geochemical and social-scientific assessment of basaltic aquifers as potential storage sites for CO2, Geochemical Journal, vol. 47, 385-396, 2013

60D ‘å“c”¹ˆê˜YE“¡‰iŒöˆê˜YEûü’J—Y‘¾˜YE‰Á“¡‘׍_: ƒnƒƒC“ì“Œ•û‰«‚É‚¨‚¯‚郌ƒAƒA[ƒX“D‚ÌŽ‘Œ¹ƒ|ƒeƒ“ƒVƒƒƒ‹•]‰¿. Ž‘Œ¹’nŽ¿, 62Šª, 3†,197-209, 2012

59D‚’J—Y‘¾˜YE’†‘ºŒª‘¾˜YE*‰Á“¡‘׍_FŽÀŒ±“IŽè–@‚ÉŠî‚­z•¨ƒgƒ‰ƒbƒsƒ“ƒOis‘¬“x‚Ì—\‘ª|“ú–{‘“à‚É‚¨‚¯‚éCO2’™—¯Œó•â’n‘I’è‚ÖŒü‚¯‚½ˆêŽw•W|DJournal of the Mining and Materials Processing Institute of Japan, 128Šª, 2†, 94-102, 2012

58D*Haraguchi, S. Ishii, T., Kimura, J. -I. and Kato, Y.: The early Miocene (~25 Ma) volcanism in the northern Kyushu-Palau Ridge, enriched mantle source injection during rifting prior to the Shikoku backarc basin opening. Contributions to Mineralogy and Petrology, vol. 163, 483-504, 2012

57D*Kato, Y., Fujinaga, K., Nakamura, K., Takaya, Y., Kitamura, K., Ohta, J., Toda, R., Nakashima, T. and Iwamori, H.: Deep-sea mud in the Pacific Ocean as a potential resource for rare-earth elements. Nature Geoscience, vol. 4, 535-539, 2011

56DˆÀì˜aFE*‰Á“¡‘׍_F‘å‹C|ŠC—mƒ{ƒbƒNƒXƒ‚ƒfƒ‹‚É‚æ‚é‹ÅV¢/ŽnV¢‹«ŠE‰·’g‰»‹É‘å‚Ì”­¶Œ´ˆö‚Ì’è—Ê“IŒŸ“¢D’nŽ¿ŠwŽGŽC117ŠªC4†C217-237, 2011

55D“¡‰iŒöˆê˜YE–ìè’B¶E’†ŽRŒ’E‰Á“¡‘׍_F‚’mŒ§ˆÀŒ|’nˆæ‚É•ª•z‚·‚é‘w€‹K§Œ^Fe-Mnz°‚̃ŒƒAƒA[ƒXŽ‘Œ¹ƒ|ƒeƒ“ƒVƒƒƒ‹DŽ‘Œ¹’nŽ¿C61ŠªC1†C1-11C2011

54D*Kato, Y., Fujinaga, K. and Suzuki, K.: Marine Os isotopic fluctuations in the early Eocene greenhouse interval as recorded by metalliferous umbers from a Tertiary ophiolite in Japan. Gondwana Research, vol. 20, 594-607, 2011

53D ˆÀì˜aFE’†‘ºŒª‘¾˜YE*‰Á“¡‘׍_F’n‹…•\‘w’Y‘fzŠÂƒ‚ƒfƒŠƒ“ƒO‚ÉŠî‚­‹ÅV¢/ŽnV¢‹«ŠE‰·’g‰»‹É‘å‚Ì”­¶Œ´ˆö‚̍ČŸ“¢D’nŽ¿ŠwŽGŽC116ŠªC8†C418-436, 2010

52DNozaki, T., *Kato, Y. and Suzuki, K.: Re-Os geochronology of the Iimori Besshi-type massive sulfide deposit in the Sanbagawa metamorphic belt, Japan. Geochimica et Cosmochimica Acta, vol. 74, 4322-4331, 2010

51D‚’J—Y‘¾˜YE’†‘ºŒª‘¾˜YE*‰Á“¡‘׍_FŒº•ŠâŽ¿‘ѐ…‘w“à‚Å‚ÌCO2’n‰»Šwƒgƒ‰ƒbƒsƒ“ƒOFCO2|…|Œº•Šâ”½‰žŽÀŒ±‚©‚ç‚ÌŽ¦´DJournal of the Mining and Materials Processing Institute of Japan, 126Šª, 4-5‡•¹†C131-137, 2010

50D —é–؏Ÿ•FE‰Á“¡‘׍_FRe-Os”N‘㑪’è–@‚É‚æ‚é—°‰»•¨z°¶¬”N‘ã‚Ì’¼ÚŒˆ’è‚Æ‚»‚̉ž—pDŽ‘Œ¹’nŽ¿C60ŠªC1†C25-36C2010

49D*Kato, Y. and Isozaki, Y.: Comment on "Evaluation of palaeo-oxygenation of the ocean bottom across the Permian-Triassic boundary" by Kakuwa (2008): Was the Late Permian deep-superocean really oxic? Global and Planetary Change, vol. 69, 79-81, 2009

48D*Godard, M., Awaji, S., Hansen, H., Hellebrand, E., Brunelli, D., Johnson, K., Yamasaki, T., Maeda, J. Abratis, M., Christie, D., Kato, Y., Mariet, C. and Rosner, M.: Geochemistry of a long in-situ section of intrusive slow-spread oceanic lithosphere: Results from IODP Site U1309 (Atlantis Massif, 30‹N Mid-Atlantic-Ridge). Earth and Planetary Science Letters, vol. 279, 110-122, 2009

47D*Kato, Y., Suzuki, K., Nakamura, K., Hickman, A. H., Nedachi, M., Kusakabe, M., Bevacqua, D. C. and Ohmoto, H.: Hematite formation by oxygenated groundwater more than 2.76 billion years ago. Earth and Planetary Science Letters, vol. 278, 40-49, 2009

46D*Endo, S., Terada, Y., Kato, Y. and Nakai, I.: Chemical speciation of arsenic-accumulating mineral in a sedimentary iron deposit by synchrotron radiation multiple X-ray analytical techniques. Environmental Science and Technology, vol. 42, 7152-7158, 2008

45.  *Machida, S., Ishii, T., Kimura, J., Awaji, S. and Kato, Y.: Petrology and geochemistry of cross-chains in the Izu-Bonin back arc: Three mantle components with contributions of hydrous liquids from a deeply subducted slab. Geochemistry Geophysics Geosystem, vol. 9, Q05002, 2008 (31 pages)

44.  *Nakamura, K. and Kato, Y.: A new geochemical approach for constraining a marine redox condition of Early Archean. Earth and Planetary Science Letters, vol. 261, 296-302, 2007

43D*Nakamura, K., Kato, Y., Tamaki, K. and Ishii, T.: Geochemistry of hydrothermally altered basaltic rocks from the Southwest Indian Ridge near the Rodriguez Triple Junction. Marine Geology, vol. 239, 125-141, 2007

42DAwaji, S., Nakamura, K., Nozaki, T. and Kato, Y.: A simple method for precise determination of 23 trace elements in granitic rocks by ICP-MS after lithium tetraborate fusion. Resource Geology, vol. 56, 471-478, 2006

41DFujinaga, K., Nozaki, T., Nishiuchi, T., Kuwahara, K. and Kato, Y.: Geochemistry and origin of Ananai stratiform manganese deposit in the Northern Chichibu Belt, central Shikoku, Japan. Resource Geology, vol. 56, 399-414, 2006

40DNozaki, T., Nakamura, K., Awaji, S. and Kato, Y.: Whole-rock geochemistry of basic schists from the Besshi area, central Shikoku: Implications for the tectonic setting of the Besshi sulfide deposit. Resource Geology, vol. 56, 423-432, 2006

39DKuwahara, K, Fujinaga, K. and Kato, Y.: Radiolarian age of manganese ore and red chert from the Ananai stratiform manganese deposit in the Northern Chichibu Belt, central Shikoku, Japan. Resource Geology, vol. 56, 415-421, 2006

38D*Suzuki, Y., Kopp, R. E., Kogure, T., Suga, A., Takai, K., Tsuchida, S., Ozaki, N., Endo, K., Hashimoto, J., Kato, Y., Mizota, C., Hirata, T., Chiba, H., Nealson, K. H., Horikoshi, K. and Kirschvink, J. L.: Sclerite formation in the hydrothermal-vent gscaly-footh gastropod - possible control of iron sulfide biomineralization by the animal. Earth and Planetary Science Letters, vol. 242, 39-50, 2006

37D*Kato, Y., Yamaguchi, K. and Ohmoto, H.: Rare earth elements in Precambrian banded iron formations: Secular changes of Ce and Eu anomalies and evolution of atmospheric oxygen. In Kesler, S.E., and Ohmoto, H., eds., Evolution of Early Earthfs Atmosphere, Hydrosphere, and Biosphere-Constraints from Ore Deposits: Geological Society of America Memoir 198, p. 269-289, doi: 10.1130/2006.1198(16), 2006

36D*Ohmoto, H., Watanabe, Y., Yamaguchi, K., Naraoka, H., Haruna, M., Kakegawa, T., Hayashi, K. and Kato, Y.: Chemical and biological evolution of early Earth: Constraints from banded iron-formations. In Kesler, S.E., and Ohmoto, H., eds., Evolution of Early Earthfs Atmosphere, Hydrosphere, and Biosphere-Constraints from Ore Deposits: Geological Society of America Memoir 198, p. 291-331, doi: 10.1130/2006.1198(17), 2006

35DKato, Y., Fujinaga, K., Nozaki, T., Osawa, H., Nakamura, K. and Ono, R.: Rare earth, major and trace elements in the Kunimiyama ferromanganese deposit in the Northern Chichibu Belt, central Shikoku, Japan. Resource Geology, vol. 55, 291-299, 2005

34DFujinaga, K. and Kato, Y.: Radiolarian age of red chert from the Kunimiyama ferromanganese deposit in the Northern Chichibu Belt, central Shikoku, Japan. Resource Geology, vol. 55, 353-356, 2005

33DNozaki, T., Nakamura, K., Osawa, H., Fujinaga, K. and Kato, Y.: Geochemical features and tectonic setting of greenstones from Kunimiyama, Northern Chichibu Belt, central Shikoku, Japan. Resource Geology, vol. 55, 301-310, 2005

32D*Kato, Y., Fujinaga, K. and Suzuki, K.: Major and trace element geochemistry and Os isotopic composition of metalliferous umbers from the Late Cretaceous Japanese accretionary complex. Geochemistry Geophysics Geosystem vol. 7, Q07004, doi: 10.1029/2005GC000920, 2005 (20 pages)

31DNakamura, K. and Kato, Y.: Carbonatization of oceanic crust by the seafloor hydrothermal activity and its significance as a CO2 sink in the Early Archean. Geochimica et Cosmochimica Acta, vol. 68, 4595-4618, 2004

30D–ìè’B¶E’†‘ºŒª‘¾˜YE“¡‰iŒöˆê˜YEXŒûŒb”üE‰Á“¡‘׍_F“Œ–k“ú–{C‘’r•ô‘Ñ‚ÌŠC—m’nŠk’f•Ð‚Æ‚»‚ê‚É”º‚¤‘wóŠÜƒ}ƒ“ƒKƒ““Sz°‚Ì’n‹…‰»ŠwDŽ‘Œ¹’nŽ¿C54ŠªC1†C77-89C2004

29D’W˜HrìE’†‘ºŒª‘¾˜YEXŒûŒb”üE‰Á“¡‘׍_EÎˆä‹PHF¼‘¾•½—mŠCŽRiã“cƒŠƒbƒWj‚Ì•ÏŽ¿‰ÎŽRŠâ‚̉»Šw‘g¬DŽ‘Œ¹’nŽ¿C54ŠªC2†C125-138, 2004

28D*Kato, Y. and Nakamura, K.: Origin and global tectonic significance of Early Archean cherts from the Marble Bar greenstone belt, Pilbara Craton, Western Australia. Precambrian Research, vol. 125, 191-243, 2003

27D*Kato, Y., Nakao, K. and Isozaki, Y.: Geochemistry of Late Permian to Early Triassic pelagic cherts from southwest Japan: implications for an oceanic redox change. Chemical Geology, vol. 182, 15-34, 2002

26DKato, Y., Kano, T. and Kunugiza, K.: Negative Ce anomaly in the Indian banded iron formations: Evidence for the emergence of oxygenated deep-sea at 2.9~2.7 Ga. Resource Geology, vol. 52, 101-110, 2002

25DKato, Y., Ikeda, T. and Moriguchi, E.: Unique geochemistry of sedimentary iron deposit formed by biologically induced mineralization. Resource Geology, vol. 52, 123-134, 2002

24DNakamura, K. and Kato, Y.: Carbonate minerals in the Warrawoona Group, Pilbara Craton: Implications for continental crust, life, and global carbon cycle in the Early Archean. Resource Geology, vol. 52, 91-100, 2002

23D’†‘ºŒª‘¾˜YE‰Á“¡‘׍_F‘¾ŒÃ‘㏉Šúi3.5Gaj‚ÌŠC’ê”M…Šˆ“®‚É‚æ‚éŠC—m’nŠk‚Ì’YŽ_‰–‰»ì—p‚Æ‚»‚ÌCO2ƒVƒ“ƒN‚Æ‚µ‚Ă̏d—v«FII. ‘SŠâ‰»Šw‘g¬DŽ‘Œ¹’nŽ¿C52ŠªC2†C147-162C2002

22D“¡‰iŒöˆê˜YE‰Á“¡‘׍_F”’ˆŸ‹IŒãŠú‚ÌŠC—äÕ“ËŒ»Û‚É”º‚¤“SEƒ}ƒ“ƒKƒ“‚É•x‚ޑ͐ϕ¨FŒ»¢‚ÌŠC—ä”M…«‘͐ϕ¨‚Æ‚Ì’n‹…‰»Šw“I—ÞŽ—«DŽ‘Œ¹’nŽ¿C 51ŠªC1†C29-40C2001

21D*Fukuda, K., Matsunaga, M., Kato, Y. and Nakai, I.: Chemical speciation of trace titanium in Hamersley banded iron formations by X-ray fluorescence imaging and XANES analysis. Journal of Trace and Microprobe Techniques, vol. 19, 509-519, 2001

20DMatsunaga, M., Fukuda, K., Kato, Y. and Nakai, I.: Characterization of banded iron formations by two-dimensional XRF imaging and XANES analyses. Resource Geology, vol. 50, 75-81, 2000

19D‰Á“¡‘׍_E’rèH–FF¼ƒI[ƒXƒgƒ‰ƒŠƒACƒsƒ‹ƒoƒ‰’n‰òCƒ}[ƒuƒ‹ƒo[’nˆæ‚É‚¨‚¯‚鑾ŒÃ‘㏉Šúi3.5 Gyrj‚ÌŒ]Ž¿“DŠâ‚ƍ»Šâ‚Ì’n‹…‰»ŠwD’nŽ¿Šw˜_WC‘æ57†C171-181C2000

18D’†‘ºŒª‘¾˜YE“¡‰iŒöˆê˜YE‰Á“¡‘׍_FŽl–œ\‘Ñ–k‘Ñ‚É•ª•z‚·‚錻’n«Œº•Šâ‚ÌŠó“y—ÞŒ³‘f‘g¬‚Æ‚»‚Ì‹NŒ¹‚ÉŠÖ‚·‚鎦´DŠâÎz•¨‰ÈŠwC29ŠªC175-190C2000

17D’†‘ºŒª‘¾˜YE‰Á“¡‘׍_F‘¾ŒÃ‘㏉Šúi3.5Gaj‚ÌŠC’ê”M…Šˆ“®‚É‚æ‚éŠC—m’nŠk‚Ì’YŽ_‰–‰»ì—p‚Æ‚»‚ÌCO2ƒVƒ“ƒN‚Æ‚µ‚Ă̏d—v«FI. z•¨‹LÚDŽ‘Œ¹’nŽ¿C50ŠªC2†C79-92C2000

16DKato, Y.: Rare earth elements as an indicator to origins of skarn deposits: Examples of the Kamioka Zn-Pb and Yoshiwara-Sannotake Cu(-Fe) deposits in Japan. Resource Geology, vol. 49, 183-198, 1999

15DKato, Y.: Genesis of the Kamioka skarn deposits: An important role of clinopyroxene skarn and graphite-bearing limestone in precipitating sulfide ore. Resource Geology, vol. 49, 213-222, 1999

14D‰Á“¡‘׍_E–Ø‘ºiˆêF¼ƒI[ƒXƒgƒ‰ƒŠƒACƒnƒ}[ƒXƒŒƒC‘wŒQ‚̃uƒ‹ƒM[ƒ_“Sz‘w‚Ì‘SŠâ‰»Šw‘g¬F‚»‚Ì‘g¬‚Æ’á”÷—ÊŒ³‘f”Z“x‚ÌŽ¦´DŽ‘Œ¹’nŽ¿C49ŠªC3†C175-189C1999

13D’†‘ºŒª‘¾˜YE‰Á“¡‘׍_EÎˆä‹PHFƒCƒ“ƒh—m’†‰›ŠC—䃍ƒhƒŠƒQƒXŽOd‰ï‡“_‚É‚¨‚¯‚é”M…•ÏŽ¿Œº•Šâ‚Ì’n‹…‰»ŠwDŽ‘Œ¹’nŽ¿C49ŠªC1†C15-28C1999

12D“¡‰iŒöˆê˜YE‰Á“¡‘׍_EŒN”g˜a—YEŽO‰YŒ’ˆê˜YE’†‘ºŒª‘¾˜YFŽl‘Žl–œ\‘Ñ–k‘Ñ‚Ì–´Šò—Ý‘w‚ÉŠÜ‚Ü‚ê‚éÔF•ÅŠâ‚Ì’n‹…‰»ŠwD’nŽ¿Šw˜_WC‘æ52†C205-216C1999

11D¬àV‘听EŒ³ŽR–ÎŽ÷Eˆäã@–íE‰Á“¡‘׍_E‘º“cŽçFŽl‘“Œ•”‚Ý‚©‚ԗΐFŠâ—Þ‚ÌŠâÎŠw“I“Á’¥D’nŽ¿Šw˜_WC‘æ52†C217-228C1999

10D*Kato, Y., Ohta, I., Tsunematsu, T., Watanabe, Y., Isozaki, Y., Maruyama, S. and Imai, N.: Rare earth element variations in mid-Archean banded iron formations: Implications for chemistry of ocean and continent and plate tectonics. Geochimica et Cosmochimica Acta, vol. 62, 3475-3497, 1998

9D –Ø‘ºiˆêE‰Á“¡‘׍_FƒXƒyƒŠƒIƒ‹Œ^ƒnƒ}ƒXƒŒƒCŽÈó“Sz‘w‚É”F‚ß‚ç‚ê‚é‘ȉ~ó‘gD‚Æ‚»‚̐¬ˆö˜_“IˆÓ‹`DŽ‘Œ¹’nŽ¿C48ŠªC2†C93-103C1998

8D *Kunugiza, K., Kato, Y., Kano, T., Takaba, Y., Kuruma, I. and Sohma, T.: An Archaean tectonic model of the Dharwar craton, S. India: the origin of the Holenarsipur greenstone belt (the Hassan district, Karnartaka) and reinterpretation of the Sargur-Dharwar relationship. Journal of Southeast Asian Earth Sciences, vol. 14, 149-160, 1996

7D *Kato, Y., Kawakami, T., Kano, T., Kunugiza, K. and Swamy, N. S.: Rare-earth element geochemistry of banded iron formations and associated amphibolite from the Sargur belts, south India. Journal of Southeast Asian Earth Sciences, vol. 14, 161-164, 1996

6D *Ohta, H., Maruyama, S., Takahashi, E., Watanabe, Y. and Kato, Y.: Field occurrence, geochemistry and petrogenesis of the Archean mid-oceanic ridge basalts (AMORB) of the Cleaverville area, Pilbara craton, Western Australia. Lithos, vol. 37, 199-221, 1996

5D *Yoshida, M., Arima, M., Kano, T., Kato, Y., Kunugiza, K., Shirahata, H., Sohma, T., Suwa, K., Tainosho, Y., Tani, Y., Warrier, U. C., Rao, V. M., Wada, H., Yamaguchi, Y. and Yoshikura, S.: Geological survey in southern to eastern Peninsular India during 1993-1994. Journal of Geosciences, Osaka City University, Vol. 38, Art. 6, 115-151, 1995

4D  Kato, Y.: REE geochemistry of aluminous skarn in the representative Japanese skarn deposits. Resource Geology Special Issue, No. 15, 120-127, 1993

3D *Kato, Y.: Textural and compositional changes of clinopyroxene replaced by garnet in the Mozumi deposit, Kamioka mine, Japan. In: Zhariko, V. A. (eds.) "Skarns-their genesis and metallogeny", Theophrastus Publ., Athens, Greece, 181-202, 1991

2D *Iiyama, J. T., Suzuki, K., Akaogi, M., Nishiyama, T., Fujimoto, K. and Kato, Y.: Material transfer during metamorphic process: experimental approachs. In: F. Marumo (ed.) "Dynamic processes of material transport and transformation in the Earth's inteior ", TERRAPUB, 119-137, 1990

1D ”ÑŽR•q“¹E—é–ؘa”ŽEÔ‰¬³Ž÷E¼ŽR’‰’jE“¡–{Œõˆê˜YE‰Á“¡‘׍_F•Ï¬‰ß’ö‚É‚¨‚¯‚镨Ž¿ˆÚ“®ŽÀŒ±‚¨‚æ‚Ñ—˜_“IŒ¤‹†DŠâz“Á•Ê†C‚S†C199−208C1989


Šî’²Eµ‘ҍu‰‰

28DˆÀì˜aFE’†‘ºŒª‘¾˜YE“¡‰iŒöˆê˜YE‰Á“¡‘׍_E’rŒ´ŽÀF‘OŠúŽnV¢u’´‰·’gŠúv‚̃Cƒ“ƒh—m[ŠC‘͐ϕ¨‚©‚瓝Œv“I‚É’Šo‚³‚ꂽ’n‹…ƒVƒXƒeƒ€‚̃tƒB[ƒhƒoƒbƒN‹@\D“ú–{’n‹…˜f¯‰ÈŠw˜A‡, May 2017, Makuhari, Japan. [Invited]

27.  ‰Á“¡‘׍_FŠC’ꎑŒ¹ŠJ”­‚ðŠÜ‚ß‚½‰ä‚ª‘‚ÌŽ‘Œ¹Šm•Ûí—ª‚ɂ‚¢‚āDŽQ‹c‰@ Ž‘Œ¹ƒGƒlƒ‹ƒM[‚ÉŠÖ‚·‚é’²¸‰ï. April 2017, Tokyo, Japan. [Invited]

26. ˆÀì˜aFE’†‘ºŒª‘¾˜YE“¡‰iŒöˆê˜YEŠâXŒõE‰Á“¡‘׍_FƒŒƒAƒA[ƒX“D‚Ì‹NŒ¹‚Æ’n‹…ƒVƒXƒeƒ€‚̃_ƒCƒiƒ~ƒNƒXF“Æ—§¬•ª•ªÍ‚É‚æ‚鐔—“Œv“IƒAƒvƒ[ƒ`‚̐¬‰ÊD“ú–{’nŽ¿Šw‰ï, September 2016, Tokyo, Japan. [Invited]

25.  Kato, Y.: Progress in Science and Engineering of REY-rich Mud. Rare Earths 2016 in Sapporo, June 2016, Sapporo, Japan. [Invited]

24.  ˆÀì˜aFE’†‘ºŒª‘¾˜YE‰Á“¡‘׍_E’rŒ´ŽÀ: ‘OŠúŽnV¢u’´‰·’gŠúv‚ð‹L˜^‚·‚éƒCƒ“ƒh—m[ŠC‘͐ϕ¨‚Ì‘½Œ³‘f‘g¬ƒf[ƒ^\‘¢. “ú–{’n‹…˜f¯‰ÈŠw˜A‡, May 2016, Makuhari, Japan. [Invited]

23. ²“¡•ô“ìE–ìè’B¶E”öã“NŽ¡E–Ø‘ºƒˆêEíÂE‚’J—Y‘¾˜YE‰Á“¡‘׍_E—é–؏Ÿ•F: ”ü”Z‘т̉“—m«‘͐ϕ¨’†‚©‚ç•œŒ³‚µ‚½ŽOô‹IŒãŠúƒm[ƒŠƒAƒ“’†Šú〜ŒãŠú‚É‚¨‚¯‚éŠC…’†‚̃IƒXƒ~ƒEƒ€“¯ˆÊ‘Ì‹L˜^. “ú–{’n‹…˜f¯‰ÈŠw˜A‡, May 2016, Makuhari, Japan. [Invited]

22. ‰Á“¡‘׍_: ƒRƒ“ƒ\[ƒVƒAƒ€‚Ì‘S‘Ì‘œ‚Æ“ì’¹“‡ƒŒƒAƒA[ƒX“DŒ¤‹†‚̍őOü. “Œ‹ž‘åŠwƒŒƒAƒA[ƒX“DŠJ”­„iƒRƒ“ƒ\[ƒVƒAƒ€‘æ1”N“xŠˆ“®•ñ‰ï. October 2015, Tokyo. Japan. [Keynote]

21.  ‰Á“¡‘׍_: “ì’¹“‡ƒŒƒAƒA[ƒX“Dz°‚ÌŠJ”­‚É‚æ‚é“ú–{‚̐¬’·í—ª, ‘æ359‰ñŒuŒõ‘Ì“¯Šw‰ïu‰‰‰ï, August 2015, Tokyo, Japan. [Invited]

20. ‰Á“¡‘׍_: [ŠC’ꃌƒAƒA[ƒX“D‚Ì”­Œ©. JAMSTECŠC’ꎑŒ¹Œ¤‹†ŠJ”­¬‰Ê•ñ‰ï |ƒŒƒAƒA[ƒX“DFVŽ‘Œ¹‚Í‚Ç‚±‚܂ʼn𖾂³‚ꂽ‚©|, August 2015, Tokyo, Japan. [Invited]

19.  ‰Á“¡‘׍_: “ú–{‚ÍŽ‘Œ¹‘卑‚É‚È‚ê‚é‚©|‘ŽYƒŒƒAƒA[ƒX‚ð‹‚ß‚Ä. ‘æ13‰ñCST International Salon, July 2015, Tokyo, Japan. [Keynote]

18. ‰Á“¡‘׍_FƒŒƒAƒA[ƒX“DŠJ”­„iƒRƒ“ƒ\[ƒVƒAƒ€‚͉½‚ð–ÚŽw‚·‚ׂ«‚©|ÅV‚ÌŒ¤‹†¬‰Ê‚𓥂܂¦‚ā|. “Œ‹ž‘åŠwƒŒƒAƒA[ƒX“DŠJ”­„iƒRƒ“ƒ\[ƒVƒAƒ€ ƒLƒbƒNƒIƒtEƒVƒ“ƒ|ƒWƒEƒ€, November 2014, Tokyo, Japan. [Keynote]

17.  ‰Á“¡‘׍_F“ì’¹“‡EEZ‚̃ŒƒAƒA[ƒX“Dz°ŠJ”­‚É‚æ‚é“ú–{‚̐¬’·í—ªD‚•ªŽq“¯—F‰ïCOctober 2014, Tokyo, Japan [Invited]

16. Fujinaga, K., Kato, Y., Hieda, Y., Araki, S., Tanimizu, M., Sumino, H., Shimizu, T., Nakamura, H., The contribution of slab-fluids to the formation of hydrothermal vein-type deposits. GEOFLUID 3: Nature and Dynamics of Fluids in Subduction Zones, February – May 2014, Tokyo. [Invited]

15. ‰Á“¡‘׍_F“ì’¹“‡ƒŒƒAƒA[ƒX“Dz°‚Ì”­Œ©‚Æ“ú–{‚ÌŽ‘Œ¹í—ªD“ú–{‰»Šw‰ïH‹GŽ–‹Æ@‘æ3‰ñCSJ‰»ŠwƒtƒFƒXƒ^2013COctober 2013, Tokyo, Japan. [Invited]

14. ‰Á“¡‘׍_E“¡‰iŒöˆê˜YE’†‘ºŒª‘¾˜YE—é–؏Ÿ•FE”Œ´‹P•FE’¬“cŽkŽ÷EŒ´ŒûŒåEˆÀì˜aFE‘å“c”¹ˆê˜YE“n•Ó‘å‹PE”Ñ“‡kˆêE’¬ŽR‰hÍE¼”ö‰Ã˜NE–ìè’B¶EŠâXŒõEKR13-02æ‘DŽÒˆê“¯, “ì’¹“‡ƒŒƒAƒA[ƒX“DŒ¤‹†‚̍őOü. “ú–{’nŽ¿Šw‰ïCSeptember 2013, Sendai, Japan. [Invited]

13. —é–؏Ÿ•FE‰Á“¡‘׍_E”Ñ“‡kˆêE’†‘ºŒª‘¾˜YE“¡‰iŒöˆê˜YE¼”ö‰Ã˜NE’¬ŽR‰hÍE’¬“cŽkŽ÷EŒ´ŒûŒåEˆÀì˜aFE‘å“c”¹ˆê˜YE“n•Ó‘å‹PE–ìè’B¶EKR13-02æ‘DŽÒˆê“¯, “ì’¹“‡Žü•Ó‚É‚¨‚¯‚鍂”Z“xƒŒƒAƒA[ƒX“D‚Ì•ª•zó‹µ‚Ɖ»Šw“I“Á’¥. “ú–{’nŽ¿Šw‰ïCSeptember 2013, Sendai, Japan. [Invited]

12 Kato, Y., Deep-sea mud in the pacific ocean as a new mineral resource for rare-earth elements. International Conference on Rare Earth Materials, April 2013, Wroclaw, Poland. [Invited]

11.  ‰Á“¡‘׍_: “ì’¹“‡‚ÌŠC’ꃌƒAƒA[ƒX‚ª“ú–{‚Ì–¢—ˆ‚ð‘ñ‚­. ‘æ24‰ñŠC—mHŠwƒVƒ“ƒ|ƒWƒEƒ€, March 2013, Tokyo, Japan. [Keynote]

10.  ‰Á“¡‘׍_, V‚µ‚¢[ŠC’êz•¨Ž‘Œ¹gƒŒƒAƒA[ƒX“Dz°h‚ÌŠJ”­‚ð–ÚŽw‚µ‚Ä. ’nŠk—¬‘ÌŒ¤‹†‰ï2013, March 2013, Sizuoka, Japan. [Invited]

9.   Kato, Y., Deep-sea mud in the Pacific Ocean as a new mineral resource for rare-earth elements. 2nd Ishikawajima Technology Forum, February 2013, Rio de Janeiro, Brazil. [Keynote]

8.   Kato, Y.: Deep sea mud in the Pacific Ocean as a new mineral resource for rare earth elements (REEs). A PECC International Project Sustainable Management of Marine Resources 2011]2012, December 2012, Auckland, New Zealand. [Invited]

7.@‰Á“¡‘׍_: ‘¾•½—m‚̃ŒƒAƒA[ƒX“D‚ª“ú–{‚ð‹~‚¤. “ú–{Šó“y—ÞŠw‰ï‘æ30‰ñu‰‰‰ïE30Žü”N‹L”O‘ÛƒVƒ“ƒ|ƒWƒEƒ€, November 2012, Naha, Japan. [Invited]

6.  Kato, Y.: Deep-sea mud in the Pacific Ocean as a new mineral resource for rare-earth elements. 8th International Conference on f-Elements, August 2012, Udine, Italy. [Keynote]

5.   Kato, Y.: Deep-sea sediments in the Pacific Ocean as a new mineral resource for rare-earth elements and a monitor for mantle activity. International Joint Symposium of Misasa-2012 and Geofluid-2, March 2012, Tottori, Japan. [Invited]

4.    Kato, Y.: Perspectives on resource geology. “ú–{’n‹…˜f¯‰ÈŠw˜A‡, May 2011, Makuhari, Japan. [Invited]

3.    –ìè’B¶E‰Á“¡‘׍_E—é–؏Ÿ•F: Re-Os•úŽË‰ó•ÏŒn‚É‚æ‚é•ÊŽqŒ^z°‚̐¶¬”N‘㌈’è‚ÆŒ°¶‘ã‚̃Oƒ[ƒoƒ‹ŠC—mŠÂ‹«•Ï‘J. “ú–{’nŽ¿Šw‰ï, September 2010, Toyama, Japan. [Invited]

2.    ‰Á“¡‘׍_FŒ°¶‘ã‘wóƒ`ƒƒ[ƒg‚Ì‘SŠâ‚¨‚æ‚Ñ•úŽU’Ž‰»Î‚̉»Šw‘g¬D“ú–{’nŽ¿Šw‰ïCSeptember 1998, Matsumoto, Japan. [Invited]

1.@‰Á“¡‘׍_E‘å“còEP¼’mŽ÷Eˆéès—YEŠÛŽR–Γ¿E“n•”–F•vF‘¾ŒÃ‘ã‘wóƒ`ƒƒ[ƒg‹y‚юȏó“Sz‚Ì‹NŒ¹D“ú–{’nŽ¿Šw‰ïCApril 1996, Hiroshima, Japan. [Invited]


’˜‘
7.   ‰Á“¡‘׍_F‘¾•½—m‚̃ŒƒAƒA[ƒX“D‚ª“ú–{‚ð‹~‚¤. PHP Œ¤‹†Š, 253p, 2012.
6.   ‰Á“¡‘׍_ ‘¼ (•ª’SŽ·•M)F’n‹…‰·’g‰»i‰ü’ù”Łj. ƒjƒ…[ƒgƒ“ƒvƒŒƒXC175pC2010.
5.   ‰Á“¡‘׍_ ‘¼ (•ª’SŽ·•M)F‰·’g‰»‚ð’m‚邽‚ß‚ÌCO2iƒjƒ…[ƒgƒ“‚SŒŽ“Á•Ê†j. ƒjƒ…[ƒgƒ“ƒvƒŒƒXC144pC2010.
4.   ‰Á“¡‘׍_ ‘¼ (•ª’SŽ·•M)F’n‹…Žj46‰­”N‚̑厖Œƒtƒ@ƒCƒ‹. ƒjƒ…[ƒgƒ“ƒvƒŒƒXC159pC2009.
3.   ‰Á“¡‘׍_ ‘¼ (•ª’SŽ·•M)F“S|137‰­”N‚̉F’ˆŽ|. “Œ‹ž‘åŠw‘‡Œ¤‹†”Ž•¨ŠÙi‹{–{‰pºE‹kÈŒá•ÒjC173pC2009.
2.   ž­ÀŒ\‘¾˜YE‰Á“¡‘׍_ ‘¼ (•ª’SŽ·•M)F“ú–{’nŽ¿Šw‰ï•Òu“ú–{’n•û’nŽ¿Ž@’†•”’n•ûv. ’©‘q‘“XC564pC2006.
1.   ‰Á“¡‘׍_ ‘¼ (•ª’SŽ·•M)FV”Å’nŠwŽ–“T. •½–}ŽÐC1443pC1996.

‚»‚Ì‘¼‚Ì‘àE‰ðà

36.   ‰Á“¡‘׍_F“ì’¹“‡ƒŒƒAƒA[ƒX“D‚ÌŠJ”­‚ÉŠî‚­‚킪‘‚ÌŽ‘Œ¹í—ª. Ocean Newsletter 417, 4-5, 2017.

35.      ‰Á“¡‘׍_F“ì’¹“‡ƒŒƒAƒA[ƒX“D‚ÌŠJ”­‚ÉŠî‚­‰ä‚ª‘‚ÌŽ‘Œ¹í—ª. JRCMƒŒƒ|[ƒg 367C 2-4, 2017.

34.      ‰Á“¡‘׍_F“ú–{‚̐[ŠC’ê‚É–°‚éz•¨Ž‘Œ¹‚ð’T‚¹I|Ä‚Ñ“ú–{‚ðŽ‘Œ¹‘卑‚ցDmilsil 10, No.3, 6-7, 2017.

33.     Suzuki, K., Ishibashi, J.-I., Kato, Y. and Nozaki, T., Preface: Front Edge of Submarine Mineral Resources Research in Japan (part 2). Geochemical Journal 50, 449-452, 2016.

32.     ‰Á“¡‘׍_F“ú–{‚Ì”r‘¼“IŒoÏ…ˆæ‚ÌŠC’êz•¨Ž‘Œ¹‚ÆŽ‘Œ¹í—ªDCe 7ŒŽ†, 2-5, 2016.

31.    Suzuki, K., Ishibashi, J.-I., Kato, Y. and Nozaki, T., Preface: Front Edge of Submarine Mineral Resources Research in Japan. Geochemical Journal 49, No. 6, 575-577, 2015.

30.    Nakamura, K., Fujinaga, K., Yasukawa, K., Takaya, Y., Ohta, J., Machida, S., Haraguchi, S. and Kato, Y.: REY-rich mud: A deep-sea mineral resource for rare earths and yttrium., Handbook on the Physics and Chemistry of Rare Earths 46, 79-127, 2015.

29.    ‰Á“¡‘׍_F“ì’¹“‡ƒŒƒAƒA[ƒX“D‚ÌŠJ”­‚É‚æ‚é“ú–{‚̐¬’·í—ªDƒ}ƒŠƒ“ƒGƒ“ƒWƒjƒAƒŠƒ“ƒO 50, 615-619, 2015.

28.     ‰Á“¡‘׍_F“ì’¹“‡ƒŒƒAƒA[ƒX“DŠJ”­‚É‚æ‚é“ú–{•œŠˆ‚̃VƒiƒŠƒID‹Zp‚ÆŒoÏ 581, 20-32, 2015.

27.     ‰Á“¡‘׍_F[ŠC’ê‚̃ŒƒAƒA[ƒX“Dz°‚Æ“ú–{‚ÌŽ‘Œ¹í—ªDƒGƒlƒ‹ƒM[EŽ‘Œ¹ 35, No. 1, 13-17, 2014.

26.     ‰Á“¡‘׍_FƒŒƒAƒA[ƒX“D‚Ì”­Œ©‚ÆŠJ”­‚ÉŒü‚¯‚½Žæ‚è‘g‚݁D‰»Šw‚ƍH‹Æ 67-5, 400-402, 2014.

25.     ‰Á“¡‘׍_FŒö—§ŠwZ‚Ì‹³ˆç‚̏[ŽÀ‚ª“ú–{‚Ì–¢—ˆ‚ð‘ñ‚­D’†“™‹³ˆçŽ‘—¿ 935, 2-3, 2014.

24.     ‰Á“¡‘׍_F“ì’¹“‡Žü•Ó‚Ì’´‚”Z“xƒŒƒAƒA[ƒX“D‚Ì”­Œ©‚Æ“ú–{‚ÌŽ‘Œ¹í—ªD”zŠÇ‹Zp 55, 8-12, 2013.

23.    ‰Á“¡‘׍_FV‚µ‚¢ƒŒƒAƒA[ƒXŽ‘Œ¹‚Æ‚µ‚Ä‚Ì‘¾•½—m‚̐[ŠC’ê“DDBM News 49, 50-54, 2013.

22.    ‰Á“¡‘׍_F‘¾•½—m‚̃ŒƒAƒA[ƒX“Dz°‚Ì”­Œ©‚ÆŠJ”­‰Â”\«DATOMOƒ° 55, 74-75, 2013.

21.  ‰Á“¡‘׍_FƒŒƒAƒA[ƒX“D|V‚µ‚¢ŠC’êz•¨Ž‘Œ¹|D“ú–{’n‹…˜f¯‰ÈŠw˜A‡ƒjƒ…[ƒXƒŒƒ^[ 9, 2013.

20.     ‰Á“¡‘׍_F“ì’¹“‡EEZƒŒƒAƒA[ƒX“D‚ÌŠJ”­‚ð‹}‚°D•¶Œ|tHƒIƒsƒjƒIƒ“2013”N‚̘_“_100, 100-101, 2013.

19.     ‰Á“¡‘׍_F“ì’¹“‡‚̃ŒƒAƒA[ƒX“D‚ª“ú–{‚ð‹~‚¤D‰ÈŒ¤”ïNEWS 3, 8-8, 2012.

18.     ‰Á“¡‘׍_F“ì’¹“‡EEZ‚́gƒŒƒAƒA[ƒX“Dh‚ª“ú–{‚ð‹~‚¤I‘åŽ÷ 11, 15-31, 2012.

17.     ‰Á“¡‘׍_F“ì’¹“‡‚Ì”r‘¼“IŒoÏ…ˆæ‚̃ŒƒAƒA[ƒX“Dz°DMATERIAL STAGE 12, 1-2, 2012.

16.     ‰Á“¡‘׍_F‘¾•½—m‚Å”­Œ©‚³‚ꂽƒŒƒAƒA[ƒX“D‚Ì“Á’·‚ÆŠJ”­‰Â”\«DŒšÝ‚ÌŽ{HŠé‰æ 752, 59-64, 2012.

15.     ‰Á“¡‘׍_F‘¾•½—m‚Å”­Œ©‚³‚ꂽƒŒƒAƒA[ƒX“D|Ž‘Œ¹í—ªã‚̈Ӌ`DŠOŒð 13, 70-76, 2012.

14.     ‰Á“¡‘׍_F‘¾•½—mŠC’ê‚̃ŒƒAƒA[ƒXz°‚ª—^‚¦‚éƒCƒ“ƒpƒNƒg, ENECO 45, 32-35, 2012.

13.     ‰Á“¡‘׍_FV‚µ‚¢ŠC’êz•¨Ž‘Œ¹gƒŒƒAƒA[ƒX“Dh‚Ì”­Œ©‚Æ‚»‚ÌŠJ”­‚ð–ÚŽw‚µ‚Ä, Ship & Ocean Newsletter 276, 2-3, 2012.

12.     –ìè’B¶Eûü’J—Y‘¾˜YE‰’J˜a‘¥E¬ŽºŒõ¢E’†ŽRŒ’E‰Á“¡‘׍_F˜I“ªŠÏŽ@‰Â”\‚È–{–M‚Ì•ÊŽqŒ^z°|‹{èŒ§ê •ôz°|DŽ‘Œ¹’nŽ¿ 59CIV-VI, 2009.

11.     ’†‘ºŒª‘¾˜YE’W˜HrìE–´“c“OE‰Á“¡‘׍_FŠC—m’nŠk‚̒ቷ•ÏŽ¿‚É”º‚¤“ñŽ_‰»’Y‘f‚̌Œè-ƒOƒ[ƒoƒ‹’Y‘fzŠÂ‚É‚¨‚¯‚éd—v«DŒŽŠ§’n‹… 29, 635-642, 2007.

10.     ’W˜HrìE’†‘ºŒª‘¾˜YE‰Á“¡‘׍_FŠC‘䌺•Šâ‚Ì•ÏŽ¿ì—p‚É”º‚¤Œ³‘f‚Ì‹““®‚Æ‚»‚̃Oƒ[ƒoƒ‹•¨Ž¿zŠÂ‚É‚¨‚¯‚é–ðŠ„DŒŽŠ§’n‹… 29, 643-649, 2007.

9.     Kato, Y. and Komuro, K.: Preface: A Special Issue: Seafloor Processes and Related Mineralization in the Panthalassa: The Phanerozoic Records from the Japanese Accretionary Complexes – Part II. Resource Geology 56, 397-398, 2006.

8.     Kato, Y., Komuro, K. and Nakayama, K.: Preface: A Special Issue: Seafloor Processes and Related Mineralization in the Panthalassa: The Phanerozoic Records from the Japanese Accretionary Complexes - Part I. Resource Geology 55, 289-290, 2005.

7.     ‰Á“¡‘׍_F‘S‹…“€Œ‹Œ»Û‚É”º‚Á‚đ͐ςµ‚½“Sz‘w‚Ì“ÁˆÙ«DŒŽŠ§’n‹… 26C173-176, 2004.

6.     ‰Á“¡‘׍_FŽÈó“Sz‘wCŽ‘Œ¹ŠÂ‹«’nŽ¿Šw|’n‹…Žj‚Ɗ‹«‰˜õ‚ð“ǂށ|DŽ‘Œ¹’nŽ¿Šw‰ï•ÒCpp. 71-76, 2003.

5.     ‰Á“¡‘׍_FŽÈó“Sz‘w‚ªŒê‚é‚à‚́|ƒ_ƒCƒiƒ~ƒbƒN‚È’n‹…‚̐i‰»‚ÌŽY•¨|Dˆâ“` 56C36-41, 2002.

4.     –Ø‘ºiˆêE‰Á“¡‘׍_FƒXƒyƒŠƒIƒ‹Œ^ŽÈó“Sz‘w‚ƃoƒCƒIƒ~ƒlƒ‰ƒŠƒ[ƒVƒ‡ƒ“”÷‘gD‹LÚDŒŽŠ§’n‹… 19, 317-320, 1997.

3.     ‰Á“¡‘׍_E–Ø‘ºiˆêE¬‹{„EŠÛŽR–Γ¿FƒXƒyƒŠƒIƒ‹Œ^ŽÈó“Sz‘w‚ƃoƒCƒIƒ~ƒlƒ‰ƒŠƒ[[ƒVƒ‡ƒ“DŒŽŠ§’n‹… 18C17-23, 1996.

2.     ˆéès—YEŽ›—Ñ—DEŠ‘“‡‘¾˜YEŠp“c’n•¶EP¼’mŽ÷E—é–ؗǍ„E¬‹{„EŠÛŽR–Γ¿E‰Á“¡‘׍_Fg35‰­”N‘OÅŒÃƒXƒgƒƒ}ƒgƒ‰ƒCƒgh‚̐³‘̐¼ƒI[ƒXƒgƒ‰ƒŠƒACƒsƒ‹ƒoƒ‰ŽYC‘¾ŒÃ‘ã’†‰›ŠC—ä‚Ì”M…«‘͐ϕ¨DŒŽŠ§’n‹… 17, 476-481, 1995.

1.     ‰Á“¡‘׍_E‘å“còEP¼’mŽ÷F‘¾ŒÃ‘ã•t‰Á‘̂̍\¬‘͐ϊâ‚Ì’n‹…‰»ŠwŠC…-‘å—¤‚̐i‰»‚ð“Ç‚ÞŽŽ‚݁DŒŽŠ§’n‹… 17, 173-179, 1995.


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