–ìè@’B¶@Nozaki Tatsuo (”ŽŽm(HŠw)CPh.D)
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™‘²‹Æ˜_•¶F–ìè’B¶ (2003) ’YŽ_‰–‰»‚µ‚½ŠC—m’nŠk‚Ì•t‰ÁƒvƒƒZƒX‚É”º‚¤’Y‘f‚Ì’n‹…‰»Šw“IŽûŽxF‘’r•ô‘Ñ‚É•ª•z‚·‚é•ÏŽ¿Œº•Šâ‚ğ—á‚Æ‚µ‚āD81pD
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™”ŽŽm˜_•¶F–ìè’B¶ (2008) Re-Os•úŽË‰ó•ÏŒn‚É‚æ‚é•ÊŽqŒ^‰òó—°‰»•¨z°‚̐¶¬”N‘㌈’è‚Ɛ¬ˆö‚̉𖾁D197pD
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65. de Sa, V. R., Koike, K., Goto, T.-n., Nozaki, T., Takaya, Y. and Yamasaki, T. (2021) Specifying effective geostatistical method combined with principal component analysis for detection of mineralized zones in a seafloor hydrothermal system. Natural Resources Research, vol. 30, No. 4, 2875-2887.
64. de Sa, V. R., Koike, K., Goto, T.-n., Nozaki, T., Takaya, Y. and Yamasaki, T. (2021) 3D geostatistical modeling of metal contents and lithofacies for mineralization mechanism determination of a seafloor hydrothermal deposit in the middle Okinawa Trough, Izena Hole. Ore Geology Reviews, vol. 135, 104194.
63. Nozaki, T., Nagase, T., Torimoto, J., Takaya, Y., Ishibashi, J.-i., Shimada, K., Watanabe, M., Masaki, Y., Iijima, K., Kitada, K., Saitoh, M., Yokoyama, T., Akiyama, K., Sakurai, N., Saruhashi, T., Kyo, M., Kumagai, H. and Maeda, L. (2021) Formation of highly Zn-enriched sulfide scale at a deep-sea artificial hydrothermal vent, Iheya-North Knoll, Okinawa Trough. Mineralium Deposita, vol. 56, No. 5, 975-990.
62. Nozaki, T., Nagase, T., Takaya, Y., Yamasaki, T., Otake, T., Yonezu, K., Ikehata, K., Totsuka, S., Kitada, K., Sanada, Y., Yamada, Y., Ishibashi, J.-i., Kumagai, H., Maeda, L. and the D/V Chikyu Expedition 909 Scientists (2021) Subseafloor sulphide deposit formed by pumice replacement mineralisation. Scientific Reports, vol. 11, 8809.
61. Kuwahara, Y., Yasukawa, K., Fujinaga, K., Nozaki, T., Ohta, J., Sato, H., Kimura, J.-I., Nakamura, K., Yokoyama, Y. and Kato, Y. (2021) Rapid coupling between solid earth and ice volume during the Quaternary. Scientific Reports, vol. 11, 5695.
60. Machida, S., Sato, T., Yasukawa, K., Nakamura, K., Iijima, K., Nozaki, T. and Kato, Y. (2021) Visualization method for the broad distribution of seafloor ferromanganese deposits. Marine Georesources and Geotechnology, vol. 39, No. 3, 267-279.
59. Goto, K. T., Sekine, Y., Ito, T., Suzuki, K., Anbar, A. D., Gordon, G. W., Harigane, Y., Maruoka, T., Shimoda, G., Kashiwabara, T., Takaya, Y., Nozaki, T., Hein, J. R., Tetteh, G. M., Nyame, F. K. and Kiyokawa, S. (2021) Progressive ocean oxygenation at ~2.2 Ga inferred from geochemistry and molybdenum isotopes of the Nsuta Mn deposit, Ghana. Chemical Geology, vol. 567, 120116.
58. Nozaki, T., Nagase, T., Ushikubo, T., Shimizu, K., Ishibashi, J.-i. and the D/V Chikyu Expedition 909 Scientists (2021) Microbial sulfate reduction plays an important role at the initial stage of subseafloor sulfide mineralization. Geology, vol. 49, No. 2, 222-227.
57. Tomimatsu, Y., Nozaki, T., Sato, H., Takaya, Y., Kimura, J.-I., Chang, Q., Naraoka, H., Rigo, M. and Onoue, T. (2021) Marine osmium isotope records during the Carnian gpluvial episodeh (Late Triassic) in the pelagic Panthalassa Ocean. Global Planet Change, vol. 197, 103387.
56. Tanaka, E., Nakamura, K., Yasukawa, K., Mimura, K., Fujinaga, K., Ohta, J., Iijima, K., Nozaki, T., Machida, S. and Kato, Y. (2020) Chemostratigraphic correlations of deep-sea sediments in the western North Pacific Ocean: A new constraint on the distribution of mud highly enriched in rare-earth elements. Minerals, vol. 10, 575.
55. Ohta, J., Yasukawa, K., Nozaki, T., Takaya, Y., Mimura, K., Fujinaga, K., Nakamura, K., Usui, Y., Kimura, J.-I., Chang, Q. and Kato, Y. (2020) Fish proliferation and rare-earth deposition by topographically induced upwelling at the late Eocene cooling event. Scientific Reports, vol. 10, 9896.
54. Takahashi, T., Yoshino, S., Takaya, Y., Nozaki, T., Ohki, K., Ohki, T., Sakka, T. and Thornton, B. (2020) Quantitative in situ mapping of elements in deep-sea hydrothermal vents using laser-induced breakdown spectroscopy and multivariate analysis. Deep-Sea Research Part I, vol. 158, 103232.
53. Tanaka, E., Nakamura, K., Yasukawa, K., Mimura, K., Fujinaga, K., Iijima, K., Nozaki, T. and Kato, Y. (2020) Chemostratigraphy of deep-sea sediments in the western North Pacific Ocean: Implications for genesis of mud highly enriched in rare-earth elements and yttrium. Ore Geology Reviews, vol. 119, 103392.
52. –k“c”–çE^“c‰À“TEŽR“c‘׍LE–ìè’B¶EŒF’J‰pŒ›EŠÛ“c«OE²“¡Š° (2020) Ž©‘RƒKƒ“ƒ}üŒŸ‘w‚É‚æ‚éŠC’ê”M…z°’T¸FŒ@íƒrƒbƒg’ʉߌŸ‘w•ûŽ®‚Ì“K—pD•¨—’T¸C73ŠªC33-41D
51. Nozaki, T., Ohta, J., Noguchi, T., Sato, H., Ishikawa, A., Takaya, Y., Kimura, J.-I., Chang, Q., Shimada, K., Ishibashi, J.-i., Yasukawa, K., Iijima, K. and Kato, Y. (2019) A Miocene impact ejecta layer in the pelagic Pacific Ocean. Scientific Reports, vol. 9, 16111.
50. Kuribayashi, T., Nagase, T., Nozaki, T., Ishibashi, J., Shimada, K., Shimizu, M. and Momma, K. (2019) Hitachiite, Pb5Bi2Te2S6, a new mineral from the Hitachi mine, Ibaraki Prefecture, Japan. Mineralogical Magazine, vol. 83, No. 5, 733-739.
49. de Ronde, C. E. J., Humphris, S. E., Hofig, T. W., Reyes, A. and the IODP Expedition 376 Scientific party (2019) Critical role of caldera collapse in the formation of seafloor mineralization: the case for Brothers volcano. Geology, vol. 47, No. 8, 762-766.
48. Nozaki, T., Nikaido, T., Onoue, T., Takaya, Y., Sato, K., Kimura, J.-I., Chang, Q., Yamashita, D., Sato, H., Suzuki, K., Kato, Y. and Matsuoka, A. (2019) Triassic marine Os isotope record from a pelagic chert succession, Sakahogi section, Mino Belt, southwest Japan. Journal of Asian Earth Science: X, vol. 1, 100004.
47. Fuchida, S., Ishibashi, J.-I., Nozaki, T., Matsushita, Y., Kawachi, M. and Koshikawa, H. (2019) Metal mobility of hydrothermal polymetallic sulfides in seawater during deep seafloor mining operations. In Sharma, R. (Ed) Environmental Issues of Deep-Sea Mining Impacts, Consequences and Policy Perspectives. Springer, 213-229.
46. Takaya, Y., Wang, M., Fujinaga, K., Uchida, E., Nozaki, T. and Kato, Y. (2019) Experiments on rare earth element extractions from umber ores for optimizing the grinding process. Minerals, vol. 9, 239.
45. Totsuka, S., Shimada, K., Nozaki, T., Kimura, J.-I., Chang, Q. and Ishibashi, J.-i. (2019) Pb isotope compositions of galena in hydrothermal deposits obtained by drillings from active hydrothermal fields in the middle Okinawa Trough determined by LA-MC-ICP-MS. Chemical Geology, vol. 514, No. 5, 90-104.
44. –ìè’B¶E“¡‰iŒöˆê˜YE‰Á“¡‘׍_ (2018) “ú–{—ñ“‡•t‰Á‘Ì’†‚Éãó‘Ù‚·‚éŒÃŠC—m’ê‚Ő¶¬‚µ‚½z°D’nŽ¿ŠwŽGŽC124ŠªC12†C995-1020D
43. Fuchida, S., Ishibashi, J.-I., Shimada, K., Nozaki, T., Kumagai, H., Kawachi, M., Matsushita, Y. and Koshikawa, H. (2018) Onboard experiment investigating metal leaching of fresh hydrothermal sulfide cores into seawater. Geochemical Transactions, vol. 19, 15.
42. Yamagishi, T., Fuchida, S., Katsumata, M., Horie, Y., Mori, F., Kitayama, A., Kawachi, M., Koshikawa, H., Nozaki, T., Kumagai, H. and Ishibashi, J.-I. (2018) Evaluation of the toxicity of leaches from hydrothermal sulfide deposit by means of a delayed fluorescence-based bioassay with the marine cyanobacterium Cyanobium sp. NIES-981. Ecotoxicology, vol. 27, No. 10, 1303-1309.
41. Agangi, A., Reddy, S. M., Plavsa, D., Vieru, C., Selvaraja, V., LaFlamme, C., Jeon, H., Martin, L., Nozaki, T., Takaya, Y. and Suzuki, K. (2018) Subsurface deposition of magmatic-hydrothermal massive sulfide underneath a Palaeoproterozoic seafloor hydrothermal system - The Red Bore prospect, Western Australia. Mineralium Deposita, vol. 53, No. 8, 1061-1078.
40. Yasukawa, K., Ohta, J., Mimura, K., Tanaka, E., Takaya, Y., Usui, Y., Fujinaga, K., Machida, S., Nozaki, T., Iijima, K., Nakamura, K. and Kato, Y. (2018) A new and prospective resource for scandium: evidence from the geochemistry of deep-sea sediment in the western North Pacific Ocean. Ore Geology Reviews, vol. 102, 260-267.
39. Kashiwabara, T., Toda, R., Nakamura, K., Yasukawa, K., Fujinaga, K., Kubo, S., Nozaki, T., Takahashi, Y., Suzuki, K. and Kato, Y. (2018) Synchrotron X-ray spectroscopic perspective on the formation mechanism of REY-rich muds in the Pacific Ocean. Geochimica et Cosmochimica Acta, vol. 240, No. 1, 274-292.
38. Yoshino, S., Thornton, B., Takahashi, T., Takaya, Y. and Nozaki, T. (2018) Signal preprocessing of deep-sea LIBS spectra for rock identification using Artificial Neural Networks. Spectra Chimica Acta Part B, vol. 145, 1-7.
37. Takaya, Y., Yasukawa, K., Kawasaki, T., Fujinaga, K., Ohta, J., Usui, Y., Nakamura, K., Kimura, J.-I., 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. (2018) The tremendous potential of deep-sea mud as a source of rare-earth elements. Scientific Reports, vol. 8, 5763.
36. Goto, K. T., Nozaki, T., Toyofuku, T., Augustin, A. H., Shimoda, G., Chang, Q., Kimura, J.-I., Kameo, K., Kitazato, H. and Suzuki, K. (2017) Paleoceanographic conditions on the Sao Paulo Ridge, SW Atlantic Ocean, for the past 30 million years inferred from Os and Pb isotopes of a hydrogenous ferromanganese crust. Deep sea research Part II, vol. 146, 82-92.
35. Nozaki, T., Takaya, Y., Toyofuku, T., Tokumaru, A., Goto, K. T., Chang, Q., Kimura, J.-I., Kato, Y., Suzuki, K., Augustin, A. H. and Kitazato, H. (2017) 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, No. 4, 442-450.
34. Komori, S., Masaki, Y., Tanikawa, W., Torimoto, J., Ohta, Y., Makio, M., Maeda, L., Ishibashi, J.-I., Nozaki, T., Tadai, O. and Kumagai, H. (2017) Depth profiles of resistivity and spectral IP at active modern submarine hydrothermal deposits: A case study from the Iheya North Knoll and the Iheya Minor Ridge in Okinawa Trough, Japan. Earth, Planets and Space, vol. 69, 114.
33. Suzuki, K., Ishibashi, J.-I., Kato, Y. and Nozaki, T. (2016) Preface: Front Edge of Submarine Mineral Resources Research in Japan (part 2). Geochemical Journal, vol. 50, No. 6, 449-452.
32. 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 (2016) The discovery of extremely REY-rich mud in the western North Pacific Ocean. Geochemical Journal, vol. 50, No. 6, 557-573.
31. 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. and KR13-02, MR13-E02 Leg 2 and KR14-02 Cruise members (2016) Geochemistry of rare-earth elements and yttrium-rich muds in the Japanese Exclusive Economic Zone around Minamitorishima Island. Geochemical Journal, vol. 50, No. 6, 575-590.
30. Nozaki, T., Tokumaru, A., Takaya, Y., Kato, Y., Suzuki, K. and Urabe, T. (2016) Major and trace element compositions and resource potential of ferromanganese crust at Takuyo Daigo Seamount, northwestern Pacific Ocean. Geochemical Journal, vol. 50, No. 6, 527-537.
29. •y¼—RŠóE”öã“NŽ¡E–ìè’B¶ (2016) ‘啪Œ§“Œ•”²”Œ’nˆæ‚Ì’•ƒ‘Ñ‚ÉŽY‚·‚é‘wóƒ}ƒ“ƒKƒ“z°‚Ì‘w˜‚Æ•úŽU’Ž‰»Î”N‘ãD’nŽ¿ŠwŽGŽC122ŠªC6†C267-273D
28. Nozaki, T., Ishibashi, J.-I., Shimada, K., Nagase, T., Takaya, Y., Kato, Y., Kawagucci, S., Watsuji, T., Shibuya, T., Yamada, R., Saruhashi, T., Kyo, M. and Takai, K. (2016) Rapid growth of mineral deposits at artificial seafloor hydrothermal vents. Scientific Reports, vol. 6, 22163.
27. Kuroda, J., Jimenez-Espejo, F. J., Nozaki, T., Gennari, R., Lugli, S., Manzi, V., Roveri, M., Flecker, R., Suzuki, K., Yoshimura, T., Sierro, F. J. and Ohkouchi, N. (2016) Miocene to Pliocene osmium isotopic records of the Mediterranean sediments. Paleoceanography, vol. 31, 148-166.
26. Suzuki, K., Ishibashi, J.-I., Kato, Y. and Nozaki, T. (2015) Preface: Front Edge of Submarine Mineral Resources Research in Japan. Geochemical Journal, vol. 49, No. 6, 575-577.
25. –ìè’B¶ (2015) Re-Os”N‘㑪’è–@‚É‚æ‚é—°‰»•¨z°‚̐¬ˆö‚ÉŠÖ‚·‚錤‹†D’n‹…‰»ŠwC49ŠªC2†C65-78D
24. Tokumaru, A., Nozaki, T., Suzuki, K., Goto, K. T., Chang, Q., Kimura, J.-I., Takaya, Y., Kato, Y., Usui, A. and Urabe, T. (2015) Re-Os isotope geochemistry in the surface layers of ferromanganese crusts from the Takuyo Daigo Seamount, northwestern Pacific Ocean. Geochemical Journal, vol. 49, No. 3, 233-241.
23. Nakajima, R., Yamamoto, H., Kawagucci, S., Takaya, Y., Nozaki, T., Chen, C., Fujikura, K., Miwa, T. and Takai, K. (2015) Post-drilling changes in seabed landscape and megabenthos in a deep-sea hydrothermal system, the Iheya North field, Okinawa Trough. PLoS ONE, 10, e0123095.
22. Thornton, B., Takahashi, T., Sato, T., Sakka, T., Tamura, A., Matsumoto, A., Nozaki, T., Ohki, T. and Ohki, K. (2015) Development of a deep-sea Laser-induced breakdown spectrometer for in situ multi-element chemical analysis. Deep-Sea Research Part I, 95, 20-36.
21. –ìè’B¶E‰Á“¡‘׍_E—é–؏Ÿ•F (2014) Re-Os“¯ˆÊ‘Ì‚ğ—p‚¢‚½’n‹…‰»ŠwF”N‘㌈’è‚©‚çŒÃŠÂ‹«‰ğ“ǂ܂ŁD’n‹…‰»ŠwC48ŠªC4†C279-305D
20. Goto, K. T., Anbar, A. D., Gordon, G. W., Romaniello, S. J., Shimoda, G., Takaya, Y., Tokumaru, A., Nozaki, T., Suzuki, K., Machida, S., Hanyu, T. and Usui, A. (2014) Uranium isotope systematics of ferromanganese crusts in the Pacific Ocean: Implications for the marine 238U/235U isotope system. Geochimica et Cosmochimica Acta, 146, 43-58.
19. Nozaki, T., Kato, Y. and Suzuki, K. (2014) Re-Os geochronology of the Hitachi volcanogenic massive sulfide deposit: The oldest ore deposit in Japan. Economic Geology, vol. 109, No. 7, 2023-2034.
18. Kimura, J.-I., Nozaki, T., Senda, R. and Suzuki, K. (2014) Precise determination of Os isotope ratios in 15-4000 pg range using a sparging method using enhanced-sensitivity multiple Faraday collector-inductively coupled plasma-mass spectrometry. Journal of Analytical Atomic Spectrometry, vol. 29, 1483-1490.
17. Yamaguchi, A., Ishikawa, T., Kato, Y., Nozaki, T., Meneghini, F., Rowe, C. D., Moore, J. C., Tsutsumi, A. and Kimura, G. (2014) Fluid-rock interaction recorded in the black fault rock in the Kodiak accretionary complex, Alaska. Earth Planets and Space, vol. 66, 58.
16. 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. (2013) Post-drilling changes in fluid discharge, mineral deposition patterns and fluid chemistry for the seafloor hydrothermal activity in the Iheya-North hydrothermal field, Okinawa Trough. Geochemistry, Geophysics, Geosystems, vol. 14, 4774-4990.
15. Sato, H., Onoue, T., Nozaki, T. and Suzuki, K. (2013) Osmium isotope evidence for a large impact event in the Late Triassic. Nature Communications, vol. 4, 2455.
14. Goto, K. T., Sekine, Y., Suzuki, K., Tajika, E., Senda, R., Nozaki, T., Tada, R., Goto, K., Yamamoto, S., Maruoka, T., Ohkouchi, N. and Ogawa, N. O. (2013) Redox conditions of the atmosphere and shallow marine environments during the first Huronian deglaciation: Insights from Os isotopes and redox-sensitive elements. Earth and Planetary Science Letters, vol. 376, 145-154.
13. Nozaki, T., Kato, Y. and Suzuki, K. (2013) Late Jurassic ocean anoxic event: evidence from voluminous sulphide deposition and preservation in the Panthalassa. Scientific Reports, vol. 3, 1889.
12. Œã“¡F‰îE–ìè’B¶E—é–؏Ÿ•FEíÂE–Ø‘ºƒˆê (2012) ƒhƒŠƒ‹‚ğ—p‚¢‚½”÷¬ƒTƒ“ƒvƒŠƒ“ƒO‚ÆŽ_•ª‰ğ‚É”º‚¤Re-Osƒuƒ‰ƒ“ƒNFFe-MnƒNƒ‰ƒXƒg‚ÌOs“¯ˆÊ‘Ì”ä‘w˜‚ÉŒü‚¯‚āDJAMSTEC Report of Research and DevelopmentC15ŠªC13-25D
11. Nozaki, T., Suzuki, K., Ravizza, G., Kimura, J.-I. and Chang, Q. (2012) A method for rapid determination of Re and Os isotope compositions using ID-MC-ICP-MS combined with the sparging method. Geostandards and Geoanalytical Research, vol. 36, No. 2, 131-148.
10. ûü’J—Y‘¾˜YE–ìè’B¶E“¡‰iŒöˆê˜YE‰Á“¡‘׍_ (2011) –{–MÅ‘å‚ÌFe-Cu Œ^ƒXƒJƒ‹ƒ“z°FŠâŽèŒ§Š˜ÎzŽR (VŽRz°)DŽ‘Œ¹’nŽ¿C61ŠªC3†CVI-VIID
9. “¡‰iŒöˆê˜YE–ìè’B¶E’†ŽRŒ’E‰Á“¡‘׍_ (2011) ‚’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D
8. Nozaki, T., Kato, Y. and Suzuki, K. (2010) Re-Os geochronology of the Iimori Besshi-type massive sulfide deposit in the Sanbagawa metamorphic belt, Japan. Geochimica et Cosmochimica Acta, vol. 74, No. 15, 4322-4331.
7. –ìè’B¶E‚’J—Y‘¾˜YE‰’J˜a‘¥E¬ŽºŒõ¢E’†ŽRŒ’E‰Á“¡‘׍_ (2009) ˜I“ªŠÏŽ@‰Â”\‚È–{–M‚Ì•ÊŽqŒ^z°|‹{èŒ§ê •ôz°|DŽ‘Œ¹’nŽ¿C59ŠªC3†CIV-VID
6. Nozaki, T., Nakamura, K., Awaji, S. and Kato, Y. (2006) 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, No. 4, 423-432.
5. Fujinaga, K., Nozaki, T., Nishiuchi, T., Kuwahara, K. and Kato, Y. (2006) Geochemistry and genesis of Ananai stratiform manganese deposit in the Northern Chichibu Belt, central Shikoku, Japan. Resource Geology, vol. 56, No. 4, 399-414.
4. Awaji, S., Nakamura, K., Nozaki, T. and Kato, Y. (2006) A simple method for precise determination of 23 trace elements in granitic rocks by ICP-MS after lithium tetraborate fusion. Resource Geology, vol. 56, No. 4, 471-478.
3. Nozaki, T., Nakamura, K., Osawa, H., Fujinaga, K. and Kato, Y. (2005) Geochemical features and tectonic setting of greenstones from Kunimiyama, Northern Chichibu Belt, central Shikoku, Japan. Resource Geology, vol. 55, No. 4, 301-310.
2. Kato, Y., Fujinaga, K., Nozaki, T., Osawa, H., Nakamura, K. and Ono, R. (2005) Rare earth, major and trace elements in the Kunimiyama ferromanganese deposit in the Northern Chichibu Belt, central Shikoku, Japan. Resource Geology, vol. 55, No. 4, 291-299.
1. –ìè’B¶E’†‘ºŒª‘¾˜YE“¡‰iŒöˆê˜YEXŒûŒb”üE‰Á“¡‘׍_ (2004) “Œ–k“ú–{C‘’r•ô‘Ñ‚ÌŠC—m’nŠk’f•Ğ‚Æ‚»‚ê‚É”º‚¤Fe-Mnz°‚Ì’n‹…‰»ŠwDŽ‘Œ¹’nŽ¿C54ŠªC1†C77-89D
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25. –ìè’B¶ (2021) ƒIƒXƒ~ƒEƒ€“¯ˆÊ‘Ì‚©‚ç’T‚éŠC—m覐ΏՓ˃Cƒxƒ“ƒg‚̏؋’DIsotope NewsC4ŒŽC774†C22-26D
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23. ŽÀ¼Œ’‘¢E–ìè’B¶E‚‹´—º•½EˆÀì˜aF (2020) Šª“ªŒ¾Fz°Šw‚̍őOüu’n‹…‰»ŠwvuŽ‘Œ¹’nŽ¿v‡“¯“ÁW†‚»‚Ì3DŽ‘Œ¹’nŽ¿C70ŠªC2†C85-87D
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21. ŽÀ¼Œ’‘¢E–ìè’B¶E‚‹´—º•½EˆÀì˜aF (2019) Šª“ªŒ¾Fz°Šw‚̍őOüu’n‹…‰»ŠwvuŽ‘Œ¹’nŽ¿v‡“¯“ÁW†‚»‚Ì2DŽ‘Œ¹’nŽ¿C69ŠªC2†C75-77D
20. ŽÀ¼Œ’‘¢E–ìè’B¶E‚‹´—º•½EˆÀì˜aF (2018) Šª“ªŒ¾Fz°Šw‚̍őOüu’n‹…‰»ŠwvuŽ‘Œ¹’nŽ¿v‡“¯“ÁW†‚»‚Ì1DŽ‘Œ¹’nŽ¿C68ŠªC2†C63-65D
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18. Œã“¡F‰îE–ìè’B¶E—é–؏Ÿ•F (2017) ƒRƒoƒ‹ƒgƒŠƒbƒ`ƒNƒ‰ƒXƒg‚Ì”N‘㌈’è (2) ƒIƒXƒ~ƒEƒ€“¯ˆÊ‘Ì‘w˜‚ÉŠî‚­Œ`¬”N‘ã‚ÌŒˆ’èDƒRƒoƒ‹ƒgƒŠƒbƒ`ƒNƒ‰ƒXƒg‚̐¬‚è—§‚¿|’²¸Žè–@‚ÌŠm—§‚ÉŒü‚¯‚ā|ŽŸ¢‘ãŠC—mŽ‘Œ¹’²¸‹ZpŒ¤‹†ŠJ”­¬‰ÊŽ‘—¿WC2ŠªC46-47D
17. –ìè’B¶ (2016) ŠC’ꉺ’n‘w\‘¢‚ğ”cˆ¬‚µz°Œ`¬ƒƒJƒjƒYƒ€‚ğ‰ğ–¾‚·‚éFŒ@íƒRƒAŽŽ—¿‚Ì‹LÚE’n‹…‰»Šw“I•ªÍ/‰ğÍDŠC’ê”M…z°‚̐¬‚è—§‚¿|’²¸Žè–@‚ÌŠm—§‚ÉŒü‚¯‚ā|ŽŸ¢‘ãŠC—mŽ‘Œ¹’²¸‹ZpŒ¤‹†ŠJ”­¬‰ÊŽ‘—¿WC1ŠªC51-52D
16. Îˆä‹PHE’¬“cŽkŽ÷E”Ñ“‡kˆêEŽR–{_•¶E–ìè’B¶E‹àŽqƒ“ñE‘å“c”¹ˆê˜YE“¡‰iŒöˆê˜YEˆÀì˜aFE‰º‘º—ɁE ‚’J—Y‘¾˜YE“ìàV’q”üE“¡“‡Œb‰îE•è’q—YE”~Œ´is (2016) u‚悱‚·‚©vu‚µ‚ñ‚©‚¢6500vYK16-01Œ¤‹†qŠC‚ÌŠT—v „ª“ì’¹“‡ŠCˆæEEZ“àƒ}ƒ“ƒKƒ“ƒmƒWƒ…[ƒ‹Lˆæ’²¸‚̐öqŒ¤‹†‘¬•ñ„ªD[“c’nŽ¿Œ¤‹†Š”N•ñC17†C1-28D
15. –ìè’B¶ (2016) ‰«“êƒgƒ‰ƒtŠC’ê”M…z°‚Ì’n‹…‰»Šw“IŒ¤‹†|•z—{BƒvƒƒWƒFƒNƒg‚Ì–{Ši“IŠJŽn‚Ɛi“W|D•½¬28”N“x“ú–{z‹ÆU‹»‰ï•¬Œ¤‹†¬‰Ê•ñ‘D25-30D
14. –ìè’B¶E”Ñ“‡kˆêE“¡‰iŒöˆê˜YE’†‘ºŒª‘¾˜YEûü’J—Y‘¾˜YEˆÀì˜aFE‘å“c”¹ˆê˜YE‰Á“¡‘׍_ (2016) ‘æ4‚ÌŠC’êz•¨Ž‘Œ¹wƒŒƒAƒA[ƒX“DxD“ú–{ŠC…Šw‰ïŽC70ŠªC2†C90-96D
13. –ìè’B¶ (2015) ‰«“êƒgƒ‰ƒtŠC’ê”M…z°‚Ì’n‹…‰»Šw“IŒ¤‹†|—{B•z‚©‚çz°¶¬ƒvƒƒZƒX‚ğ”cˆ¬‚·‚é|D•½¬27”N“x“ú–{z‹ÆU‹»‰ï•¬Œ¤‹†¬‰Ê•ñ‘D21-24D
12. –ìè’B¶ (2015) ƒŒƒjƒEƒ€|ƒIƒXƒ~ƒEƒ€–@‚É‚æ‚é”N‘㑪’èDIsotope NewsC5ŒŽC733†C13-17D
11. –ìè’B¶ (2014) ƒ}ƒ“ƒKƒ“ƒNƒ‰ƒXƒg‚ÍŠC’êz•¨Ž‘Œ¹‚Æ‚µ‚Ä—L–]‚©H‰»Šw‚ƍH‹ÆC67ŠªC5†C409-411D
10. ’·’JìŽ÷EŽR“c—ºˆêE‘å’|—ƒE–ìè’B¶ (2012) 2011”N“x Ž‘Œ¹’nŽ¿Šw‰ïŽáŽè‰ïH‹G„ŒŸ|H“cŒ§–kŽ­’nˆæ‚̍•zz°‚ƉΎRŠâ|DŽ‘Œ¹’nŽ¿C62ŠªC3†C249-257D
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8. ûü’J—Y‘¾˜YE–ìè’B¶ (2011) 2010 ”N“xŽ‘Œ¹’nŽ¿Šw‰ïŽáŽè‰ïH‹G„ŒŸ|ŠâŽèŒ§Š˜ÎzŽR‚̃XƒJƒ‹ƒ“‰»ì—pEz‰»ì—p‚ÌŠÏŽ@|DŽ‘Œ¹’nŽ¿C61ŠªC3†C249-254D
7. –ìè’B¶ (2011) ƒƒLƒVƒR‡O‘ƒeƒBƒTƒp (Tizapa) z°D‹à‘®Ž‘Œ¹ŠJ”­•ª–ì‚ÉŠÖ‚·‚élŞˆç¬ƒeƒLƒXƒguz•¨Ž‘Œ¹z°”­Œ©Ž–—áWv(JOGMEC•Ò)C32-47D
6. ŽRŒû”ò’¹E–ìè’B¶E‰’J˜a‘¥ (2010) 2009”N“x Ž‘Œ¹’nŽ¿Šw‰ïŽáŽè‰ïH‹G„ŒŸ Žl–œ\‘щ„‰ªÕã’f‘w‚ÉŒ©‚é’¾‚ݍž‚İ‘Ñ‚Ì•ÏŒ`‚Æ—¬‘̈ړ®DŽ‘Œ¹’nŽ¿C60ŠªC3†C245-248D
5. –ìè’B¶E‰’J˜a‘¥EŽRŒû”ò’¹ (2010) 2009”N“x Ž‘Œ¹’nŽ¿Šw‰ïŽáŽè‰ïH‹G„ŒŸ ‹{èŒ§ê •ô’nˆæ‚É‚¨‚¯‚é•ÊŽqŒ^‰òó—°‰»•¨z°‚ÌŠÏŽ@DŽ‘Œ¹’nŽ¿C60ŠªC3†C239-243D
4. –ìè’B¶ (2009) Re-Os•úŽË‰ó•ÏŒn‚É‚æ‚é•ÊŽqŒ^‰òó—°‰»•¨z°‚̐¶¬”N‘㌈’è‚Ɛ¬ˆö‚̉𖾁DŽ‘Œ¹’nŽ¿C59ŠªC3†C253-254Di”ŽŽm˜_•¶´˜^j
3. –ìè’B¶ (2009) Re-Os•úŽË‰ó•ÏŒn‚É‚æ‚é•ÊŽqŒ^‰òó—°‰»•¨z°‚̐¶¬”N‘㌈’è‚Ɛ¬ˆö‚̉𖾁D’n‹…‰»ŠwC43ŠªC2†C89-89Di”ŽŽm˜_•¶´˜^j
2. –ìè’B¶ (2007) ’¾‚ݍž‚İ‘Ñ‚É‚¨‚¯‚éƒOƒ[ƒoƒ‹’Y‘fzŠÂ‚ÌŠî‘bŒ¤‹†D•½¬18”N“x[“cŒ¤‹†•¬Œ¤‹†•ñC55-68D
1. –ìè’B¶ (2005) ’¾‚ݍž‚İ‘Ñ‚É‚¨‚¯‚éŠC—m’nŠk’†‚Ì’Y‘f‚Ì‹““®‚ÉŠÖ‚·‚錤‹†DŽ‘Œ¹’nŽ¿C55ŠªC1†C111-111DiCŽm˜_•¶´˜^j
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6. –ìè’B¶ (•ª’SŽ·•M) (2020) z°‚Æ’n‹…ŽjDuu’n‹…‰ÈŠw“ü–åv-’n‹…‚ÌŠÏŽ@@’nŽ¿E’nŒ`E’n‹…Žj‚ğ“ǂ݉ğ‚­-v(•½’©•FEŠC—mŒ¤‹†ŠJ”­‹@\•Ò)C280 p (u’kŽĞ)D
5. –ìè’B¶ (2019) [ŠClH”M…E‚Å‹à‘®Ž‘Œ¹‚ğw—{Bx‚·‚éDCe —ߘaŒ³”N12ŒŽ† (’ÊŽZ725†)C10-13D
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3. –ìè’B¶ (•ª’SŽ·•M) (2017) lH”M…Eã‚Ƀ`ƒ€ƒj[‚ª‹}¬’·\ŠC’ê”M…z°‚ğ—{B‚·‚éDmilsilCvol. 10CNo. 3C11-12 (‘—§‰ÈŠw”Ž•¨ŠÙ)D
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125. Takahashi, T., Yoshino, S., Takaya, Y., Nozaki, T., Ohki, K., Ohki, T., Sakka, T. and Thornton, B.: Deep-sea LIBS for in situ chemical analysis of hydrothermal deposits. Pacifichem 2021, Honolulu, December, 2021. ™µ‘ҍu‰‰™
124. Wakai, S., Sakai, S., Nozaki, T., Watanabe, M. and Takai, K.: Microbiologically influenced corrosion by microbial communities enriched from corroded materials in deep-sea environment. EUROCORR 2021, Budapest, September, 2021.
123. Koike, K., de Sa, V. R., Nozaki, T., Takaya, Y., Yamasaki, T. and Yono, O.: Spatial modeling and characterization of metal contents below the seafloor in a hydrothermal vents area by geostatistical simulation and deep leaning method. 36th International Geological Congress, Delhi, August, 2021.
122. Kuwahara, Y., Yasukawa, K., Fujinaga, K., Nozaki, T., Ohta, J., Sato, H., Kimura, J.-I., Nakamura, K., Yokoyama, Y. and Kato, Y.: Fluctuation of marine osmium isotope ratio during the Quaternary climate cycles. 31st V.M. Goldschmidt conference, July, Virtual, 2021.
121. Nozaki, T., Ishida, M., Takaya, Y., Chang, Q., Kimura, J.-I. and Kato, Y.: Depth profile of Re-Os concentrations and isotope ratios in the hydrothermally altered clay obtained from Brothers volcano hydrothermal field during the IODP Expedition 376. 31st V.M. Goldschmidt conference, July, Virtual, 2021.™µ‘ҍu‰‰™
120. Takahashi, T., Yoshino, S., Takaya, Y., Nozaki, T., Ohki, K., Ohki, T., Sakka, T. and Thornton, B.: In situ quantitative analysis of compositions of deep-sea hydrothermal vents using LIBS and chemometric analysis. 11th International Conference on Laser-Induced Breakdown Spectroscopy (LIBS), September, Virtual, 2020.
119. Wakai, S., Sakai, S., Nozaki, T., Watanabe, M. and Takai, K.: Corrosion of metal materials in deep-sea hydrothermal environment and iron-corrosive consortia. ASM Microbe 2020, July, Virtual, 2020.
118. Totsuka, S., Shimada, K., Nozaki, T., Kimura, J.-I., Chang, Q. and Ishibashi, J.-i.: Mineral chemistry and Pb isotope compositions of seafloor hydrothermal deposits obtained by drillings in the Gondou field, Okinawa Trough: Preferable modern analogue of Kuroko deposit. 30th V.M. Goldschmidt conference, June, Virtual, 2020.
117. Nozaki, T., Nagase, T., Ushikubo, T., Shimizu, K., Ishibashi, J.-i. and CK16-05 cruise members: Extreme sulfur isotope fractionation in the seafloor hydrothermal deposit of the Okinawa Trough revealed by SIMS in-situ analysis. 30th V.M. Goldschmidt conference, June, Virtual, 2020.
116. Kuwahara, Y., Yasukawa, K., Fujinaga, K., Nozaki, K., Ohta, J., Sato, H., Kimura, J.-I., Nakamura, K. and Kato, Y.: Fluctuation of marine osmium isotope ratio during the Quaternary climate cycles. 30th V.M. Goldschmidt conference, June, Virtual, 2020.
115. Ohta, J., Yasukawa, K., Nozaki, T., Takaya, Y., Mimura, K., Fujinaga, K., Nakamura, K., Usui, Y., Kimura, J.-I., Chang, Q. and Kato, Y.: Fish debris and rare-earth deposition event in latest Eocene revealed by osmium isotope stratigaphy. 30th V.M. Goldschmidt conference, June, Virtual, 2020.
114. Takaya, Y., Fujinaga, K., Nozaki, T. and Kato, Y.: Chemical leaching characteristics of umber ore samples showing their forming processes. 30th V.M. Goldschmidt conference, June, Virtual, 2020.
113. Humphris, S. E., Blusztajn, J., de Ronde, C., Hofig, T., Cai, Y., Jamieson, J., Martin, A., Nozaki, T., Reyes, A., Roberts, S., Schlicht, L. and Zhang, C.: Variations in REE and Sr isotope compositions of altered rocks from magmatic- and seawater-influenced hydrothermal systems at Brothers volcano, Kermadec Arc, New Zealand (IODP Expedition 376). AGU Fall Meeting, San Francisco, December, 2019.
112. Martin, A. J., Jamieson, J. W., de Ronde, C. E. J., Humphris, S. E., Hofig, T. W., Roberts, S., Cai, Y., Nozaki, T., Zhang, C., Schlicht, L. E. M. and Reyes, A. G.: Magmatic versus seawater-dominated hydrothermal alteration: evidence from deep-sea drilling at Brothers volcano, Kermadec arc, New Zealand. AGU Fall Meeting, San Francisco, December, 2019.
111. Sekiya, Y., Mukae, N., Yonezu, K., Tindell, T., Ishibashi, J., Nozaki, T. and Imai, A.: Characteristics of ore-forming fluids at the Hakurei Site, Izena Hole, middle Okinawa Trough. International Symposium on Earth Science and Technology 2019, Fukuoka, December, 2019.
110. Zhao, X., Cai, Y. and the IODP Expedition 376 Scientists: Preliminary study on colorizing mechanism of gblue clayh from submarine Brothers Volcano by IODP Exp. 376. Annual meeting of Chinese Geological Society, Kunming, October, 2019.
109. Ogata, T., Ichii, Y., Jamsran, E., Nozaki, T., Takaya, Y., Tani, K. and Mizauta, T.: U-Pb Zircon and tentatively determined Re-Os isotope geochronology for the Atacama Kozan Mine and Sol Naciente mine, Region III, Chile. SEG Conferences 2019, Santiago, October, 2019.
108. Schlicht, L. E. M., Rouxel, O., Meixner, A., Kasemann, S. A., Bach, W. and Expedition 376 Scientists: Boron and Boron isotopic composition in two contrasting hydrothermal systems of the Brothers Volcano (Kermadec Arc, New Zealand). German Israel Foundation Young Scientist meeting, October, 2019.
107. Sato, H., Nozaki, T., Ishikawa, A., Onoue, T., Kimura, J.-I. and Chang, Q.: Extraterrestrial impact recorded in the Upper Triassic deep-sea depositions from Japan. Large Meteorite Impacts and Planetary Evolution VI conference, Brasilia, October, 2019.
106. de Sa, V. R., Koike, K., Goto, T.-n., Nozaki, T., Yamasaki, T., Takaya, Y., Ishibashi, J.-i. and Kumagai, H.: 3D geostatistical modeling and data integration for metal contents and accumulation mechanism in a seafloor hydrothermal field. 20th Annual Conference of IAMG, Pennsylvania, August, 2019.
105. Tanaka, E., Nakamura, K., Yasukawa, K., Fujinaga, K., Machida, S., Nozaki, T. and Kato, Y.: Chemostratigephic correlation of REY-rich mud in the western North Pacific Ocean based on bulk chemical composition. 29th V.M. Goldschmidt conference, August, Barcelona, 2019.
104. de Ronde, C. E. J., Humphris, S. E., Hofig, T. W., Reyes, A. G. and Expedition 376 Scientists: Symbiosis between caldera collapse and hydrothermalism at Brothers submarine volcano, Kermadec arc. 29th V.M. Goldschmidt conference, August, Barcelona, 2019.™µ‘ҍu‰‰™
103. Kato, Y., Yasukawa, K., Nakamura, K., Fujinaga, K., Takaya, Y., Ohta, J., Tanaka, E., Mimura, K., Iijima, K., Machida, S. and Nozaki, T.: REY-rich mud: An overview from scientific and engineering perspectives. 29th V.M. Goldschmidt conference, August, Barcelona, 2019.
102. Rouxel, O., Schlicht, L. E. M., Kutovaya, A., McDermott, J. and Expedition 376 Scientsits: Geochemical mass balance during hydrothermal alteration of susbeafloor volcanic rocks at Brothers Volcano, Kermadec Arc. 29th V.M. Goldschmidt conference, August, Barcelona, 2019.
101. Otake, T., Ikeshima, T., Sato, T., Ishibashi, J., Nozaki, T., Kumagai, H., Maeda, L. and CK16-05 Onboard Mmbers: Mineralogical and Fe isotope correlations between Kuroko-type VMS deposits and a submarine hydrothermal ore deposit in Okinawa Trough. 29th V.M. Goldschmidt conference, August, Barcelona, 2019.
100. McDermott, J. M., Rouxel, O., Schlict, L. E. M., Bach, W., Stucker, V. K., de Ronde, C. E. J., Massiot, C. and Expedition 376 Scientists: Geochemistry of deep subseafloor hydrothermal fluids at Brothers volcano. 29th V.M. Goldschmidt conference, August, Barcelona, 2019.
99. Schlicht, L. E. M., Rouxel, O., Meixner, A., Kasemann, S. A., Bach, W. and Expedition 376 Scientists: Boron isotopes in hydrothermally altered crust of the Brothers Volcano (Kermadec Arc, New Zealand). 29th V.M. Goldschmidt conference, August, Barcelona, 2019.
98. Kashiwabara, T., Toda, R., Nakamura, K., Yasukawa, K., Fujinaga, K., Kubo, S., Nozaki, T., Takahashi, Y., Suzuki, K. and Kato, Y.: Geochemistry of REY carriers for the formation of REY-rich muds in the Pacific Ocean. 29th V.M. Goldschmidt conference, August, Barcelona, 2019.
97. Nozaki, T., Nagase, T., Torimoto, J., Takaya, Y., Ishibashi, J.-i., Shimada, K., Watanabe, M., Masaki, Y., Kitada, K., Saito, M., Sakai, S., Yokoyama, T., Akiyama, K., Sakurai, N., Saruhashi, T., Kyo, M., Kumagai, H., Maeda, L. and Takai, K.: In-situ mineral precipitation experiment by using a deep-sea artificial hydrothermal vent. 29th V.M. Goldschmidt conference, August, Barcelona, 2019.
96. Ohta, J., Nozaki, T., Takaya, Y., Yasukawa, K., Fujinaga, K., Nakamura, K., Kimura, J.-I, Chang, Q. and Kato, Y.: Fluctuation of osmium isotope composition recorded in Cenozoic pelagic brown clay from the western North Pacific Ocean. 29th V.M. Goldschmidt conference, August, Barcelona, 2019.
95. Ishida, M., Romemo, R., Leison, M., Torimoto, J., Nozaki, T., Yasukawa, K., Fujinaga, K., Nakamura, K., Reich, M. and Kato, Y.: Geochemical features of ginvisible goldh in pyrites from the Akeshi and Kasuga deposits, Kagoshima, Japan. 29th V.M. Goldschmidt conference, August, Barcelona, 2019.
94. Sekiya, Y., Yonezu, K., Tindell, T., Ishibashi, J.-i., Nozaki, T., Imai, A. and Watanabe, K.: Initial study investigation of fluid inclusion microthermometry at the Hakurei Site, middle of Okinawa Trough hydrothermal field. AOGS 16th Annual Meeting, August, Singapore, 2019.
93. Ohta, J., Nozaki, T., Takaya, Y., Yasukawa, K., Fujinaga, K., Nakamura, K., Kimura, J.-I, Chang, Q. and Kato, Y.: Improvement of chronology for Cenozoic pelagic brown clay by osmium isotope stratigraphy. 3rd International Congress on Stratigraphy strati 2019, Milano, July, 2019.
92. Sato, H., Nozaki, T., Ishikawa, A., Onoue, T., Kimura, J.-I., Chang, Q. and Suzuki, K.: Re-Os isotope and PGE signatures of the deep-sea deposits from the Japanese accretionary complex: Implications for the Late Triassic impact event. 3rd International Congress on Stratigraphy strati 2019, Milano, July, 2019.
91. Takaya, Y., Yamasaki, T., Nagase, T., Nozaki, T., Ishibashi, J.-i., Kumagai, H., Maeda, L. and CK16-05 cruise members: Sub-seafloor hydrothermal mineralization process in the Izena Hole, middle Okinawa Trough. 16th Water Dymamics Symposium, Sendai, March, 2019.
90. Nozaki, T., Nagase, T., Torimoto, J., Takaya, Y., Ishibashi, J.-i., Shimada, K., Watanabe, M., Masaki, Y., Kitada, K., Saito, M., Sakai, S., Yokoyama, T., Akiyama, K., Sakurai, N., Saruhashi, T., Kyo, M., Kumagai, H., Maeda, L. and Takai, K.: Long-term monitoring of the deep-sea artificial hydrothermal vent with in-situ experiment of mineral precipitation. 16th Water Dymamics Symposium, Sendai, March, 2019.
89. Masaki, Y., Nozaki, T., Saruhashi, T., Kyo, M., Sakurai, N., Yokoyama, T., Akiyama, K., Kumagai, H., Maeda, L. and Kinoshita, M.: Temperature and pressure monitoring using the Kuroko cultivation apparatus installed on a deep-sea artificial hydrothermal vent in the middle Okinawa Trough. AGU Fall Meeting, Washington D.C., December, 2018.
88. Takaya, Y., T., Yamasaki, T., Nagase, T., Yonezu, K., Ikehata, K., Totsuka, S., Nozaki, T., Ishibashi, J.-I., Kumagai, H., Maeda, L. and CK16-05 Cruise Members: Depiction of the sub-seafloor hydrothermal system in the Izena Hole, middle Okinawa Trough based on the whole rock chemical analyses and mineralogical observations of core samples. AGU Fall Meeting, Washington D.C., December, 2018.
87. Ishibashi, J.-I., Totsuka, S., Kira, Y., Tsutsumi, S., Yamasaki, T., Takaya, Y., Nozaki, T., Kumagai, H., Maeda, L., Kubo, Y. and On-board members of Chikyu SIP Cruises: Mineralogical and geochemical characteristics of hydrothermal clay minerals beneath active hydrothermal fields at the Iheya North Knoll, Middle Okinawa Trough. AGU Fall Meeting, Washington D.C., December, 2018.
86. Nozaki, T., Takaya, Y., Nagase, T., Yamasaki, T., Ishibashi, J.-I., Kumagai, H., Maeda, L. and CK16-05 Cruise Members: Subseafloor mineralization beneath hemipelagic sediments at the Izena Hole, middle Okinawa Trough, observed through the CK16-05 Cruise (Exp. 909). AGU Fall Meeting, Washington D.C., December, 2018.
85. Kumagai, H., Ishibashi, J.-I., Nozaki, T., Takai, K., Nagase, T., Maeda, L. and Kubo, Y.: A drilling campaign in Okinawa Trough, back arc hydrothermal systems. AGU Fall Meeting, Washington D.C., December, 2018.
84. Massiot, C., Kissling, W., Nicol, A., McNamara, D. D., Townend, J. and Expedition 376 Scientists: Structure and fluid flow in andesitic systems of the Taupo Volcanic Zone: a framework to unravel subseafloor hydrothermal flow pathways at Brothers volcano, Kermadec arc? AGU Fall Meeting, Washington D.C., December, 2018.
83. Torimoto, J., Fujiwara, T., Kawagucci, S., Nozaki, T., Takaya, Y. and Kumagai, H.: Characteristics of Pb-As-Sb sulfide in dead chimney collected from the ANA Site, west offshore of the Kume-jima Island, middle Okinawa Trough, Japan. AGU Fall Meeting, Washington D.C., December, 2018.
82. Massiot, C., Kissling, W., Nicol, A., McNamara, D. D. and Expedition 376 science team: Structure and Fluid Flow in Andesitic Systems of the Taupo Volcanic Zone: A framework to unravel subseafloor hydrothermal flow pathways at Brothers Volcano, Kermadec Arc? The Geoscience Society of New Zealand annual conference 2018, November, Napir, 2018.
81. de Sa, V. R., Koike, K., Goto, T., Suzuki, K., Ishibashi, J.-I., Nozaki, T., Takaya, Y., Masaki, Y. and Kumagai, H.: Spatial modeling of element contents in active seafloor hydrothermal field by a combination of principal component analysis and geostatistical simulation. 15th International Symposium on Mineral Exploration (ISME-XV), November, Kyoto, 2018.
80DKomori, S., Masaki, Y., Tanikawa, W., Torimoto, J., Ohta, Y., Makio, M., Maeda, L., Ishibashi, J.-I., Nozaki, T., Tadai, O., Kumagai, H. and CK16-01 onboard members: Resistivity and Induced Polatrization characteristics of sediments from modern submarine hydrothermal system in Okinawa Trough, Japan (CHIKYU CK16-01 cruise). The 13th SEGJ International Symposium, November, Tokyo, 2018.
79. Ishibashi, J.-I., Toki, T., Shinjo, R., Nozaki, T., Kumagai, H., Maeda, L. and Onboard Members of CK16-01, CK16-05 Campaigns: Pore fluid chemistry of active hydrothermal fields in the mid-Okinawa Trough. 28th V.M. Goldschmidt conference, August, Boston, 2018.
78. Otake, T., Ikeshima, T., Sato, T., Ishibashi, J., Nozaki, T., Kumagai, H., Maeda, L. and CK16-05 Onboard Members: Comparison of ore formation processes between VHMS deposits and a submarine hydrothermal ore deposit in Okinawa Trough. 28th V.M. Goldschmidt conference, August, Boston, 2018.
77. Torimoto, J., Fujiwara, T., Nozaki, T., Takaya, Y. and Kumagai, H.: Spatial variations of mineral texture and chemical composition of sulfide chimney collected from the Okinawa Trough, Japan. 28th V.M. Goldschmidt conference, Mineralogical Magazine, August, Boston, 2018.
76. Totsuka, S., Ishibashi, J.-I., Nozaki, T., Kimura, J.-I., Chang, Q. and Shimada, K.: Pb isotope analysis of galena in seafloor polymetallic sulfide deposits from the mid-Okinawa Trough using Laser Ablation-Inductively Coupled Plasma-Mass Spectrometry. 28th V.M. Goldschmidt conference, August, Boston, 2018.
75. Nozaki, T., Takaya, Y., Nagase, T., Yamasaki, T., Ishibashi, J.-I., Kumagai, H., Maeda, L. and CK16-05 Cruise Members: Subseafloor mineralization at the Izena Hole, Okinawa Trough from the aspect of drill cores obtain by the CK16-05 Cruise (Exp. 909). 28th V.M. Goldschmidt conference, August, Boston, 2018.
74. Nagase, T., Kuribayashi, T., Nozaki, T., Ishibashi, J.-I., Shimada, K., Momma, K. and Shimizu, M.: Crystal structure determination of an unknown mineral of tetradymite group from the Hitachi mine, Ibaraki prefecture, Japan. 22nd Meeting of the International Mineralogical Association (IMA 2018), August, Melbourne, 2018.
73. Kumagai, H., Nozaki, T., Ishibashi, J.-I., Maeda, L., Kubo, Y. and Takai, K.: A series of scientific drilling at the areas of submarine hydrothermal deposits with core-log integration for deciphering mineralization processes. 12th ISOPE Ocean Mining & Gas Hydrates Symposium, Sapporo, June, 2018.
72. Amakawa, H., Fukami, Y., Torimoto, J., Nozaki, T., Iijima, K., Usui, A. and Suzuki, K.: Origin of Nd in the surface layer ferromanganese crust collected from the Takuyo-Daigo Seamount in the northwest Pacific. 12th ISOPE Ocean Mining & Gas Hydrates Symposium, Sapporo, June, 2018.
71. Takahashi, T., Thornton, B., Takaya, Y., Nozaki, T., Yoshino, S., Ohki, T., Ohki, K. and Sakka, T.: Development of in-situ LIBS and Raman spectroscopic analyzers for deep-sea surveys. Laser Solutions for Space and the Earth 2018, Yokohama, April, 2018.™µ‘ҍu‰‰™
70. Sato, H., Onoue, T., Shirai, N., Nozaki, T., Ishikawa, A. and Suzuki, K.: Meteorite impact event recorded in the Upper Triassic deep-sea deposits from Japan. PERC International symposium on Dust & Parent Bodies, Chiba, February 2018.
69. Aghamollaie, K., Rastad, E. and Nozaki, T.: Darreh-Rasoul iron-lead mineralization in lower cretaceous Clastic- Carbonate sequence in southeast of Malayer and its relation with Sedimentary-Exhalative resources. The 36th National and the 3rd International Geosciences Congress, Teheran, February 2018.
68. Masaki, Y., Nozaki, T., Saruhashi, T., Kyo, M., Sakurai, N., Yokoyama, T., Akiyama, K., Kumagai, H., Maeda, L. and Kinoshita, M.: Long-term hydrothermal temperature and pressure monitoring equipped with a Kuroko cultivation apparatus on the deep-sea artificial hydrothermal vent at the middle Okinawa trough. AGU Fall Meeting, New Orleans, December, 2017.
67. Saito, S., Sanada, Y., Kido, Y., Hamada, Y., Shiraishi, K., Hsiung, K., Yoshimoto, K., Eng, C., Tsuji, T., Meada, L., Kumagai, H., Nozaki, T., Ishibashi, J.-I. and CK16-01 Cruise member: Discovery of fracture networks in the basal part of modern hydrothermal system in Okinawa Tough, SW Japan. AGU Fall Meeting, New Orleans, December, 2017.
66. Toki, T., Otake, T., Ishibashi, J.-I., Matsui, Y., Kawagucci, S., Kato, H., Fuchida, S., Miyahara, R., Tsutsumi, A., Kawakita, R., Uza, H., Uehara, R., Shinjo, R., Nozaki, T., Kumagai, H., Maeda, L. and CK16-05 on-board member: Distribution of hydrothermal fluid around the ore body in the subseafloor of the Izena hydrothermal field. AGU Fall Meeting, New Orleans, December, 2017.
65. Nozaki, T.: Long-term monitoring of hydrothermal fluid and in-situ mineral precipitation experiment using a deep-sea artificial hydrothermal vent. 3rd Annual Asia-Pacific Deep Sea Mining, Singapore, November, 2017.
64. Sanada, Y., Yamada, Y., Kitada, K., Nozaki, T., Kumagai, H., Ishibashi, J.-i., Maeda, L. and CK16-05 Cruise member: Natural gamma ray logging at sea-floor hydrothermal deposit in Izena Hole off-shore Okinawa. The 23rd Formation Evaluation Symposium of Japan, Chiba, October, 2017.
63. Nozaki, T.: Geochemical approach to understand ore genesis of mineral deposits with the Earthfs history. Japanese-American-German Frontiers of Science Symposium, September, Bad Neuenahr, 2017.
62. Takahashi, T., Thornton, B., Takaya, Y., Nozaki, T., Sato, T., Ohki, T., Ohki, K. and Sakka, T.: In-situ quantitative analysis of submerged rocks using laser-induced breakdown spectroscopy. Oceans 2017, September, Anchorage, 2017.
61. Komori, S., Masaki, Y., Tanikawa, W., Torimoto, J., Ohta, Y., Makio, M., Maeda, L., Ishibashi, J., Nozaki, T., Tadai, O., Kumagai, H. and CK16-01 on board member: A case study on resistivity and spectral IP properties of active modern seafloor hydrothermal deposits in Japan. 23rd European Meeting of Environmental and Engineering Geophysics, September, Malmo, Sweden, 2017.
60. Takahashi, T., Thornton, B., Takaya, Y., Nozaki, T., Ohki, T., Ohki, K. and Sakka, T.: Application of PLS to quantitative elemental analysis of rocks submerged in seawater for LIBS. 2nd Asian Symposium on Laser Induced Breakdown Spectroscopy, August, Tokushima, 2017.
59. Sato, H., Nozaki, T., Ishikawa, A., Onoue, T., Kimura, J.-I., Chang, Q. and Suzuki, K.: Osmium isotope and PGE signatures in the deep-sea deposits from Japan: Implications for the Late Triassic impact event. 27th V.M. Goldschmidt conference, August, Paris, 2017.
58. Kawaguchi, S., Yonezu, K., Tindell, T., Watanabe, K., Ishibashi, J.-I., Shimada, K and Nozaki, T.: Mineralization of Ag-rich sulfide minerals in chimney samples at Bayonnaise Knoll, Izu-bonin Arc, west Pacific Ocean. AOGS 14th Annual Meeting, August, Singapore, 2017.
57. Masaki, Y., Nozaki, T., Saruhashi, T., Kyo, M., Sakurai, N., Yokoyama, T., Akiyama, K., Maeda, L. and Kumagai, H.: Long-term observations of pressure, temperature and flow rate for deep-sea hydrothermal fluid at the middle Okinawa Trough. IAG-IASPEI 2017, July, Kobe, 2017.
56. Takahashi, T., Thornton, B., Takaya, Y., Nozaki, T., Sato, T., Ohki, T., Ohki, K. and Sakka, T.: Quantitative elemental analysis of water-submerged solids using PLS with temperature segmented database for LIBS. 9th Euro-Mediterranean Symposium on LIBS, Pisa, June, 2017.
55. Kitada, K., Yamada, Y., Sanada, Y., Nozaki, T., Kumagai, H., Ishibashi, J.-I. and Maeda, L.: Characterization of seafloor hydrothermal deposits by gamma ray logging in the Izena Hole, the mid-Okinawa Trough. 2017 GSA Cordilleran Section Meeting, May, Honolulu, 2017.
54. Masaki, Y., Nozaki, T., Saruhashi, T., Kyo, M., Sakurai, N., Yokoyama, T., Akiyama, K., Maeda, L. and Kumagai, H.: Long-term sensor monitoring equipped with the Kuroko cultivation apparatus on the deep-sea artificial hydrothermal vent at the middle Okinawa Trough. 2017 GSA Cordilleran Section Meeting, May, Honolulu, 2017.
53. Nozaki, T., Nagase, T., Torimoto, J., Takaya. Y., Ishibashi, J.-I., Shimada, K., Watanabe, M., Masaki, Y., Saruhashi, T. and Kyo, M.: Sulfide core sample from the deep-sea artificial hydrothermal vent at the Iheya-North Knoll, Okinawa Trough: Natural analogue of sub-seafloor mineralization on a seafloor. 2017 GSA Cordilleran Section Meeting, May, Honolulu, 2017.
52. Saitoh, M., Shibuya, T., Nozaki, T., Torimoto, J., Ueda, H., Sato, T. and Suzuki, K.: Experimental hydrothermal alteration of andesite at 325 ‹C, 300 bar: Comparison with the hydrothermal fluids in the Hatoma Knoll, southern Okinawa Trough. EGU General Assembly, Vienna, April, 2017.
51. Kuroda, J., Jimenez-Espejo, F. J., Nozaki, T., Gennari, R., Lugli, S., Manzi, V., Roveri, M., Flecker, R., Suzuki, K., Yoshimura, T., Sierro, F. J. and Ohkouchi, N.: Late Neogene marine osmium isotopic records of the Mediterranean and Atlantic sediments. EGU General Assembly, Vienna, April, 2017.
50. Kitada, K., Wu, H. Y., Miyazaki, J., Akiyama, K., Nozaki, T., Ishibashi, J.-I., Kumagai, H., Maeda, L. and the CK16-01 shipboard scientific party: First results from the in-situ temperature measurements by the newly developed downhole tool during the drilling cruise in the hydrothermal fields of the mid-Okinawa Trough. AGU Fall Meeting, San Francisco, December, 2016.
49. Yamasaki, T., Takaya, Y., Mukae, N., Nagase, T., Tindell, T., Totsuka, S., Uno, Y., Yonezu, K., Nozaki, T., Ishibashi, J.-I., Kumagai, H., Maeda, L. and CK16-01 (Exp. 908) Shipboard Scientist: Drilling constraints on bimodal volcanism and subsequent formation of contrasted uppermost crustal compositions at the middle Okinawa Trough. AGU Fall Meeting, San Francisco, December, 2016.
48. Masaki, Y., Tanikawa, W., Komori, S., Torimoto, J., Makio, M., Ohta, Y., Nozaki, T., Ishibashi, J.-I., Kumagai, H., Maeda, L. and Hamada, Y.: Results of physical property measurements obtained during the Chikyu cruise CK16-01 to hydrothermal fields of the central Okinawa Trough. AGU Fall Meeting, San Francisco, December, 2016.
47. Kumagai, H., Saito, S., Nozaki, T., Ishibashi, J.-I., Maeda, L. and CK16-01 on-board member: Potential of Logging-while-Drilling (LWD) for deciphering subseafloor mineralization processes. 45th Underwater Mining Conference, Incheon, October, 2016.
46. Suzuki, K., Goto, K. T., Nozaki, T., Kashiwabara, T., Iijima, K. and Usui, A.: Osmium isotope stratigraphy and chemical speciation of elements of ferro-manganese crusts in the Western Pacific seamounts. 45th Underwater Mining Conference, Incheon, October, 2016.
45. Akiyama, K., Kyo, M., Saruhashi, T., Sakurai, N., Yokoyama, T., Nozaki, T., Watanabe, M. and Masaki, Y.: Development of the cultivation system for seafloor hydrothermal deposit. Techno-Ocean 2016, Kobe, October, 2016.
44. Sanada, Y., Saito, S., Hamada, Y., Kido, Y., Kumagai, H., Nozaki, T., Ishibashi, J., Maeda, L. and CK16-01 Cruise member: Exploration on deep water hydrothermal sediments with logging while drilling at Okinawa Trough (SIP-II), The 22nd Formation Evaluation Symposium of Japan, Chiba, September, 2016.
43. Takahashi, T., Thornton, B., Takaya, Y., Nozaki, T., Sato, T., Ohki, T., Ohki, K. and Sakka, T.: Development of methods for quantitative analysis of metal compositions of deep-sea rocks. 9th International Conference on Laser-Induced Breakdown Spectroscopy (LIBS), Chamonix-Mont-Blanc, September, 2016.
42. Sanada, S., Saito, S., Hamada, Y., Tsuji, T., Shiraishi, K., Hsiung, K.-H., Eng, C., Yoshimoto, K., Kido, Y., Kumagai, H., Nozaki, T., Ishibashi, J.-I., Maeda, L. and CK16-01 Shipboard Party: Application of LWD with time-base temperature and pressure data to deep water hydrothermal deposits at Okinawa Trough. SPWLA Asia & Australia -Regional Conference 2016, Bangkok, August, 2016.
41. Totsuka, S., Ishibashi, J.-I., Fujiwara, T., Uchida, A., Toyoda, S. and Nozaki, T.: Mineralogical and geochemical study of hydrothermal ores collected from the Hatoma Knoll in the southern Okinawa Trough. 26th V.M. Goldschmidt conference, Yokohama, June, 2016.
40. Fujinaga, K., Yasukawa, K., Ohta, J., Nakamura, K., Takaya, Y., Nozaki, T., Machida, S., Iijima, K. and Kato, Y.: Geochemical features and distribution of the extremely REY-rich mud in the Minamitorishima EEZ. 26th V.M. Goldschmidt conference, Yokohama, June, 2016.
39. Kato, Y., Fujinaga, K., Yasukawa, K., Ohta, J., Takaya, Y., Nozaki, T., Machida, S., Nakamura, K. and Iwamori, H.: REY-rich mud: A perspective on science and engineering of the new REY resource. 26th V.M. Goldschmidt conference, Yokohama, June, 2016.
38. Sato, H., Nozaki, T., Onoue, T., Kimura, J.-I., Chang, Q., Takaya, Y., Kato, Y. and Suzuki, K.: Marine osmium isotope record in the Upper Triassic deep-sea deposits from Japan: the Middle to Upper Norian transition. 26th V.M. Goldschmidt conference, Yokohama, June, 2016.
37. Kuroda, J., Jimenez-Espejo, F. J., Nozaki, T., Gennari, R., Lugli, S., Manzi, V., Roveri, M., Flecker, R., Suzuki, K., Yoshimura, T., Sierro, F. J. and Ohkouchi, N.: Miocene to Pleistocene osmium isotopic records of the Mediterranean and Atlantic sediments. 26th V.M. Goldschmidt conference, Yokohama, June, 2016.
36. Torimoto, J., Saitoh, M., Shibuya, T., Nozaki, T., Ueda, H. and Suzuki, K.: Experimental hydrothermal alteration of andesite at 325oC, 300 bars: Comparison with hydrothermal fluids in the Hatoma Knoll, southern Okinawa Trough. 26th V.M. Goldschmidt conference, Yokohama, June, 2016.
35. Nozaki, T., Ishibashi, J.-I., Shimada, K., Nagase, T., Takaya, Y., Kato, Y., Kawagucci, S., Watsuji, T., Shibuya, T., Yamada, R., Saruhashi, T., Kyo, M. and Takai, K.: Rapid growth of mineral deposits at artificial seafloor hydrothermal vents. 26th V.M. Goldschmidt conference, Yokohama, June, 2016.
34. Saito, S., Sanada, Y., Moe, K., Kido, Y., Hamada, Y., Kumagai, H., Nozaki, T., Takai, K. and Suzuki, K.: Identification and characterization of the active hydrothermal deposits in Okinawa Trough, SW Japan: Estimates from logging-while-drilling. AGU Fall Meeting, San Francisco, December, 2015.
33. Suzuki, K., Goto, K. T., Nozaki, T., Kashiwabara, T., Iijima, K. and Usui, A.: Os isotope stratigraphy and chemical speciation of elements of ferro-manganase crusts from the Western Pacific seamounts. ICAMG-8, Jeju-do, Korea, October, 2015.
32. Saruhashi, T., Kyo, M., Sawada, I., Nozaki, T., Yokoyama, T. and Sakurai, N.: New ways for research and development using a deep-sea hydrothermal vent system in the Okinawa Trough. OCEANS 2015, Washington DC, October, 2015.
31. Nakajima, R., Yamamoto, H., Kawagucci, S., Takaya, Y., Nozaki, T., Chen, C., Fujikura, K., Miwa, T. and Takai, K.: Post-drilling changes in seabed landscape and megabenthos in a deep-sea hydrothermal system, the Iheya North field, Okinawa Trough. 14th Deep-Sea Biology Symposium, Aveiro, September, 2015.
30. Nozaki, T., Kato, Y. and Suzuki, K.: Late Jurassic ocean anoxic event: Evidence from voluminous sulfide deposition and preservation in the Panthalassa Ocean. 25th V.M. Goldschmidt conference, Prague, August, 2015.
29. Kashiwabara, T., Toda, R., Nakamura, K., Yasukawa, K., Fujinaga, K., Nozaki, T., Takahashi, Y., Suzuki, K. and Kato, Y.: Synchrotron X-ray perspective on formation mechanism of REY-rich mud in the eastern South Pacific. 25th V.M. Goldschmidt conference, Prague, August, 2015.
28. Sato, H., Onoue, T., Shirai, N., Ebihara, N., Nozaki, T., Suzuki, K. and Kiyokawa, S.: Sedimentary PGE signatures of a chondritic impactor for a Upper Triassic impact event. 25th V.M. Goldschmidt conference, Prague, August, 2015.
27. Kuroda, J. Jimenez-Espejo, F. J., Nozaki, T., Gennari, R., Lugli, S., Manzi, V., Roveri, M., Flecker, R., Suzuki, K., Yoshimura, T., Sierro, F. and Ohkouchi, N.: Miocene to Pliocene osmium isotopic records of Mediterranean sediments. EGU General Assembly, Vienna, April, 2015.
26. Goto, K. T., Ito, T., Suzuki, K., Anbar, A. D., Gordon, G. W., Kashiwabara, T., Takaya, Y., Shimoda, G., Nozaki, T., Kiyokawa, S., Tetteh, G. M. and Nyame, F. K.: A highly oxidized atmosphere-ocean system and oceanic molybdenum drawdown during the Paleoproterozoic. AGU Fall Meeting, San Francisco, December, 2014.
25. Yamaguchi, A., Fukuchi, R., Fujimoto, K., Ishikawa, T., Kato, Y., Nozaki, T., Meneghini, F., Rowe, C. D., Moore, J. C., Tsutsumi, A. and Kimura, G.: ontrasting slip zone mineralogy of major thrusts in ancient subduction complexes: examples from the Pasagshak Point Thrust in Alaska and the Nobeoka Thrust in Japan. AGU Fall Meeting, San Francisco, December, 2014.
24. Sato, H., Shirai, N., Ebihara, M., Nozaki, T., Suzuki, K., Onoue, T. and Kiyokawa, S.: Extraterrestrial impact event recorded in the Late Triassic deep-sea deposits from Japan. AGU Fall Meeting, San Francisco, December, 2014.
23. Onoue, T., Sato, H., Ikehara, M., Takaya, Y., Nozaki, T., Fujinaga, K., Kato, Y. and Uno, K.: Radiolarian faunal turnover and paleoproductivity changes in the Late Triassic Panthalassa Ocean: a possible effect of large impact event. GSA annual meeting 2014, Vancouver, October, 2014.
22. Goto, K. T., Anbar, A. D., Gordon, G. W., Romaniell, S. J., Shimoda, G., Takaya, Y., Tokumaru, A., Nozaki, T., Suzuki, K., Machida, S., Hanyu, T. and Usui, A.: Uranium isotope in ferromanganese crusts: Implications for the marine 238U/235U isotope system. 24th V.M. Goldschmidt conference, Mineralogical Magazine, Vol. 78, issue 5, 847, Sacramento, July, 2014.
21. Saruhashi, T., Kyo, M., Sawada, I., Nozaki, T., Yokoyama, T., Lim, A. C., Goi, K. K. and Teo, S. G.: Black ore cultivation program in the Okinawa Trough. Offshore Technology Conference, Houston, May, 2014.
20. Goto, K., Ito, T., Suzuki, K., Kashiwabara, T., Takaya, Y., Shimoda, G., Nozaki, T., Senda, R., Kiyokawa, S., Nyame, F. K. and Tetteh, G. M.: Geochemistry of the Nsuta Mn deposit in Ghana: Implications for the Paleoproterozoic atmosphere and ocean chemistry. AGU Fall Meeting, San Francisco, December, 2013.
19. Sato, H., Onoue, T., Nozaki, T. and Suzuki, K.: Osmium isotope evidence for a large impact event in the Late Triassic. 23th V.M. Goldschmidt conference, Mineralogical Magazine, Vol. 77, issue 5, 2137, Florence, August, 2013.
18. Onoue, T., Sato, H., Nozaki, T., Kuroda, J. and Suzuki, K.: Meteorite impact, volcanism, and radiolarian faunal turnover recorded in the Upper Triassic of Japan. 23th V.M. Goldschmidt conference, Mineralogical Magazine, Vol. 77, issue 5, 1893, Florence, August, 2013.
17. Kuroda, J., Jimenez-Espejo, F. J., Nozaki, T. and Suzuki, K.: Sedimentary osmium isotopic records of Mediterranean basins. 23th V.M. Goldschmidt conference, Mineralogical Magazine, Vol. 77, issue 5, 1526, Florence, August, 2013.
16. Nozaki, T., Ishibashi, J., Shimada, K., Takaya, Y., Kato, Y., Kawagucci, S., Shibuya, T. and Takai, K.: Geochemical signature of gzero-age chimneyh formed on artificial hydrothermal vents created by IODP Exp. 331 in the Iheya North field, Okinawa Trough. 12th SGA Biennial Meeting, Uppsala, Sweden, August, 2013.
15. Nozaki, T., Nakamura, K., Takai, K. and Tamaki, K.: Exploration and exploitation possibility of minerals in Mauritius waters. National Dialogue on Ocean Economy, Mauritius, July, 2013. ™µ‘ҍu‰‰™
14. Takai, K., Kawagucci, S., Miyazaki, J., Watsuji, T., Ishibashi, J., Yamamoto, H., Nozaki, T., Kashiwabara, T. and Shibuya, T.: Post-drilling hydrothermal vent and associated biological activities seen through artificial hydrothermal vents in the Iheya North field, Okinawa Trough. International Symposium on Underwater Technology 2013, Tokyo, March, 2013.
13. Takai, K., Kawagucci, S., Miyazaki, J., Watsuji, T., Ishibashi, J., Yamamoto, H., Nozaki, T., Kashiwabara, T. and Shibuya, T.: Post-drilling hydrothermal vent and associated biological activities seen through artificial hydrothermal vents in the Iheya North field, Okinawa Trough. AGU Fall Meeting, San Francisco, December, 2012.
12. Masaki, Y., Shibuya, T., Yoshizaki, M., Nozaki, T., Suzuki, K. and Takai, K.: Experimental study on hydrothermal alteration of dacite collected from the Hatoma Knoll, Okinawa Trough, Japan. AGU Fall Meeting, San Francisco, December, 2012.
11. Sato, H., Onoue, T., Nozaki, T. and Suzuki, K.: Osmium isotope evidence for a Late Triassic impact event from an ancient Pacific site. 29th IAS Meeting of Sedimentology, Schladming/Austria, September, 2012.
10. Tokumaru, A., Nozaki, T., Goto, K. T., Takaya, Y., Suzuki, K., Chang, Q., Kato, Y., Usui, A., Urabe, T. and NT09-02 Cruise member: Temporal and depth variation of Os isotope composition in ferromanganese crusts from the Takuyo Daigo Seamount (#5 Takuyo Smt), northwestern Pacific Ocean. 22nd V.M. Goldschmidt conference, Mineralogical Magazine, Vol. 76, issue 6, 2461, Montreal, June, 2012.
9. Tejada, M. L. G., Suzuki, K., Ishikawa, A., Nozaki, T., Senda, R., Ravizza, G. and Kimura, J.-I.: PGE perspective on Early Cretaceous oceanic anoxic event: Pacific vs. Tethyan domains. 21st V.M. Goldschmidt conference, Mineralogical Magazine, Vol. 75, issue 3, 1993, Prague, August, 2011.
8. Nozaki, T., Kato, Y., Suzuki, K., Takaya, Y. and Nakayama K.: Re-Os ages of Besshi-type massive sulfide deposits associated with in-situ basalt as a new age constraint for ridge subduction. 21st V.M. Goldschmidt conference, Mineralogical Magazine, Vol. 75, issue 3, 1553, Prague, August, 2011.
7. Goto, K., Sekine, Y., Suzuki, K., Tajika, E., Senda, R., Nozaki, T., Tada, R., Goto, K. and Yamamoto, S.: A rise of atmospheric oxygen triggered by the Paleoproterozoic deglaciations: Insights from redox-sensitive elements and osmium isotopes. AGU Fall Meeting, San Francisco, December, 2010.
6. Tejada, M. L. G., Nozaki, T., Ishikawa, A., Senda, R., Suzuki, K. and Kimura, J.-I.: No bolide impact trace for OJP volcanism that triggered Early Cretaceous anoxia event: PGE evidence from coeval organic-rich sediments, central Pacific Ocean. AGU Fall Meeting, San Francisco, December, 2010.
5. Nozaki, T., Suzuki, K., Ravizza, G., Kimura, J.-I. and Chang, Q.: A rapid determination method for Re and Os isotopic compositions using ID-MC-ICP-MS with sparging method. 20th V.M. Goldschmidt conference, Geochimica. Cosmochimica. Acta, vol. 74, issue 11, Supplement 1, A767, Knoxville, June 2010.
4. Nozaki, T., Kato, Y. and Suzuki, K.: Re-Os geochronology of the Iimori Besshi-type massive sulfide deposit in the Sanbagawa Belt, Japan. 19th V.M. Goldschmidt conference, Geochimica. Cosmochimica. Acta, vol. 73, issue 13, Supplement 1, A955, Davos, June 2009.
3. Nozaki, T., Nakamura, K. and Kato, Y.: Accretion of the carbonatized oceanic crust -its significance for the global carbon cycle-. International Symposium on Structural Reliability in Energy Systems Innovation, pp131-132, Tokyo, November 2006.
2. Nozaki, T., Nakamura, K. and Kato, Y.: Remnants of oceanic crust in the Japanese accretionary complex -its significance for the global carbon cycle-. International Symposium on Distributed Energy Systems and Micro Grids, pp222-222, Tokyo, December 2005.
1. Nozaki, T., Nakamura, K. and Kato, Y.: Remnants of oceanic crust in the Japanese accretionary complex -its significance for the global carbon cycle-. Troodos Ophiolite, Cyprus, Field School Participant Abstracts, pp31-32, Cyprus, May 2005.
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294. •y¼—RŠóE–ìè’B¶E²“¡•ô“ìE‚’J—Y‘¾˜YE–Ø‘ºƒˆêEíÂE“ޗljª_E”öã“NŽ¡FŒãŠúŽOô‹IƒJ[ƒjƒAƒ“Ž¼‰»ƒCƒxƒ“ƒgŽž‚É‚¨‚¯‚éƒIƒXƒ~ƒEƒ€“¯ˆÊ‘Ì‘g¬‚©‚ç•œŒ³‚³‚ꂽ‘å‹K–͉ΎRŠˆ“®D“ú–{’nŽ¿Šw‰ï (VirtualC2021”N9ŒŽ)D
293. “¡‰iŒöˆê˜YE’†‘ºŒª‘¾˜YE‘å“c”¹ˆê˜YE–î–ì–G¶EŒKŒ´—C“TEˆÀì˜aFE‚’J—Y‘¾˜YE’†ŽRŒ’E–ìè’B¶E‰Á“¡‘׍_F“ú–{—ñ“‡•t‰Á‘Ì’†‚̃ŒƒAƒA[ƒX“DFˆÀŒ|ƒAƒ“ƒo[z°‚©‚ç•œŒ³‚µ‚½’†Šú”’ˆŸ‹I‚ÌŠC…Os“¯ˆÊ‘Ì‘g¬D“ú–{’nŽ¿Šw‰ï (VirtualC2021”N9ŒŽ)D
292. –î–ì–G¶E‘å“c”¹ˆê˜YE–ìè’B¶E‰Á“¡‘׍_F—L‹@•¨‚É•x‚ޑ͐ϕ¨ŽŽ—¿‚ÌŠÈ•Ö‚©‚v‘¬‚ÈRe-Os“¯ˆÊ‘Ì•ªÍŽè–@‚ÌŠJ”­D“ú–{’nŽ¿Šw‰ï (VirtualC2021”N9ŒŽ)D
291. ¬à_˜aŽ÷E–ìè’B¶E¬ŽºŒõ¢F‰«“êƒgƒ‰ƒt”µŠÔŠC‹u‚ÌŠC’ê”M…z°ƒ`ƒ€ƒj[‚ÌAg-Sb-Pb-SŒnz•¨DŽ‘Œ¹’nŽ¿Šw‰ï (VirtualC2021”N6ŒŽ)D
290. –ìè’B¶EÎ“c”üŒŽE‚’J—Y‘¾˜YEíÂE–Ø‘ºƒˆêE‰Á“¡‘׍_FƒPƒ‹ƒ}ƒfƒbƒNŒÊƒuƒ‰ƒU[ƒYƒJƒ‹ƒfƒ‰”M…ƒTƒCƒg‚ÌRe-Os‘g¬F‰ÎŽR«ƒKƒX‚ÌŠñ—^‚É‚æ‚éOs‚̈ړ®‚ƈُí”ZWDŽ‘Œ¹’nŽ¿Šw‰ï (VirtualC2021”N6ŒŽ)D
289. –ìè’B¶E‰Á“¡‘׍_FRe-Os•úŽË‰ó•ÏŒn‚ğ—˜—p‚µ‚½•ÊŽqŒ^z°‚Ì”N‘㌈’èFƒOƒ[ƒoƒ‹ŠÂ‹«•Ï“®‚ƍz°‚̐¶¬E•Û‘¶‚̃Šƒ“ƒP[ƒWDŽ‘Œ¹’nŽ¿Šw‰ï (VirtualC2021”N6ŒŽ)D™µ‘ҍu‰‰™
288. Kuwahara, Y., Fujinaga, K., Nozaki, T., Ohta, J., Yasukawa, K., Nakamura, K. and Kato, Y.: Geochemistry of the Kawame ferromanganese deposit in the Hayachine Belt: Implications for the oceanic environment in the Late Devonian. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2021”N‘å‰ï (VirtualC2021”N5ŒŽ)D
287. Kinoshita, M., Kitada, K., Nozaki, T., Masaki, Y., Maeda, L. and Kumagai, H.: Tidally-modulated temperature observed at a drillsite in the Noho hydrothermal field in the mid-Okinawa Trough. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2021”N‘å‰ï (VirtualC2021”N5ŒŽ)D
286. Aichi, A., Yasukawa, K., Nozaki, T., Takaya, Y., Ishida, M., Tanaka, E., Nakamura, K. and Kato, Y.: Independent component analysis of bulk chemical compositions of submarine hydrothermal deposits in the Okinawa Trough. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2021”N‘å‰ï (VirtualC2021”N5ŒŽ)D
285. Ogasawara, M., Ohta, J., Ishida, M., Yano, M., Maki, R., Nozaki, T., Takaya, Y., Fujinaga, K., Yasukawa, K. and Kato, Y.: A rapid analytical method of Re-Os isotope on sulfides by MC-ICP-MS and sparging method; Its application to the Kamaishi deposit in NE Japan. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2021”N‘å‰ï (VirtualC2021”N5ŒŽ)D
284. Nozaki, T., Ohta, J., Noguchi, T., Sato, H., Ishikawa, A., Takaya, Y., Kimura, J.-I., Chang, Q., Shimada, K., Ishibashi, J.-i., Yasukawa, K., Kimoto, K., Iijima, K. and Kato, Y.: Discovery of the Miocene ocean impact event. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2021”N‘å‰ï (VirtualC2021”N5ŒŽ)D
283DŒË’ˏC•½E“‡“c˜a•FE–ìè’B¶E–Ø‘ºƒˆêEíÂEÎ‹´ƒˆê˜YFLA–@‚É‚æ‚鉔“¯ˆÊ‘̔䑪’è‚ğ—p‚¢‚½z°‹à‘®‚Ì‹NŒ¹•¨Ž¿‚̐„’èDSATƒeƒNƒmƒƒW[EƒVƒ‡[ƒP[ƒX2021 (VirtualC2021”N2ŒŽ)D
282. –ìè’B¶E’·£•q˜YE‹‹v•ÛFsE´…Œ’“ñEÎ‹´ƒˆê˜YECK16-05qŠCæ‘DŒ¤‹†ŽÒFŠC’ꉺ‚Ì—°‰»•¨z°‰ŠúŒ`¬‰ß’ö‚Í”÷¶•¨Šˆ“®‚ª‘£i‚·‚éDŠC‚Æ’n‹…‚̃Vƒ“ƒ|ƒWƒEƒ€2020 (VirtualC2020”N12ŒŽ)D
281. ‰ºVˆä“cN‰îEŽR–{³_Eì“c‰ÀŽjEŠ}’J‹MŽjE‚’J—Y‘¾˜YE’Jè–¾ŽqEŽ­“‡—T”VE‚–Ø‘POE–ìè’B¶E‚ˆäŒ¤F[ŠC”M…•¬oˆæ‚É‚¨‚¯‚é“d‹C¶‘ÔŒn‚Ì’Tõ‚ƉğÍD‹ÉŒÀŠÂ‹«¶•¨Šw‰ï (VirtualC2020”N10ŒŽ)D
280. ‘åXŒh‘¾E’·£•q˜YE–ìè’B¶EŒI—Ñ‹MOF’†•”‰«“êƒgƒ‰ƒtˆÉ•½‰®–kŠC‹uƒ`ƒ€ƒj[’†‚Ì‹¤»‘gD‚̐¬ˆöD“ú–{z•¨‰ÈŠw‰ï (VirtualC2020”N9ŒŽ)D
279. Kuwahara, Y., Yasukawa, K., Fujinaga, K., Nozaki, T., Ohta, J., Sato, H., Kimura, J.-I., Nakamura, K. and Kato, Y.: Feedback mechanism of solid earth system on glacial-interglacial climate cycles: Constraints from osmium isotopic mass-balance in the ocean. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2020”N‘å‰ï (VirtualC2020”N7ŒŽ)D
278. Tomimatsu, Y., Nozaki, T., Sato, H., Takaya, Y., Kimura, J.-I., Chang, Q., Naraoka, H., Rigo, M. and Onoue, T.: Marine osmium isotope records during the Carnian (Late Triassic) gpluvial episodeh in the pelagic bedded cherts. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2020”N‘å‰ï (VirtualC2020”N7ŒŽ)D
277. Ohta, J., Yasukawa, K., Nozaki, T., Takaya, Y., Mimura, K., Fujinaga, K., Nakamura, K., Usui, Y., Kimura, J.-I., Chang, Q. and Kato, Y.: Fish debris and rare-earth deposition caused by topographically induced upwelling in the latest Eocene. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2020”N‘å‰ï (VirtualC2020”N7ŒŽ)D
276. Tanaka, E., Yasukawa, K., Nakamura, K., Ohta, J., Nozaki, T., Usui, Y., Fujinaga, K., Iijima, K. and Kato, Y.: The Renaissance of the oldest oceanic plate: Perspective of REY-rich mud as a paleoceanographic archive in a pelagic realm of the Pacific Ocean. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2020”N‘å‰ï (VirtualC2020”N7ŒŽ)D
275. Ushikubo, T., Shimizu, K., Nozaki, T. and Nagase, T.: Recent progress of in situ sulfur 2 and 4 isotope measurements at Kochi Institute, JAMSTEC. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2020”N‘å‰ï (VirtualC2020”N7ŒŽ)D
274. Nozaki, T., Nagase, T., Ushikubo, T., Shimizu, K., Ishibashi, J.-i. and CK16-05 cruise members: Extreme sulfur isotope fractionation in the seafloor hydrothermal deposit of the Okinawa Trough revealed by SIMS analysis. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2020”N‘å‰ï (VirtualC2020”N7ŒŽ)D
273. “¡‰iŒöˆê˜YE‚’J—Y‘¾˜YEŽº“c’‰rE¬–ì–΁EŽ¡“cW’jE“°–{K‹PE‘ºè‰Ã“TE‰–Œ´‰ë”üE“¡ˆä¸EŒ´“c—z•vE–ìè’B¶E‘«—§‹á–çE‰Á“¡‘׍_F“ì’¹“‡ƒŒƒAƒA[ƒX“D‚ğ—p‚¢‚½ƒŒƒAƒA[ƒX¸»‚Ɛ»•iŽŽìDŠó“y—Ş“¢˜_‰ï (ŽD–yC2020”N5ŒŽ)D
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263. “¡‰iŒöˆê˜YEûü’J—Y‘¾˜YE–ìè’B¶E’†‘ºŒª‘¾˜YE‰Á“¡‘׍_F•t‰Á‘Ì’†‚É•ª•z‚·‚éƒAƒ“ƒo[z°‚̃ŒƒAƒA[ƒX’ŠoŽÀŒ±D“ú–{’nŽ¿Šw‰ï (ŽRŒûC2019”N9ŒŽ)D
262. •y¼—RŠóE”öã“NŽ¡EŽR‰º‘å•ãE–ìè’B¶E‚’J—Y‘¾˜YFƒpƒ“ƒTƒ‰ƒTŠC‰“—mˆæ‚É‚¨‚¯‚éŒãŠúŽOô‹IƒJ[ƒjƒAƒ“‚ÉŒ`¬‚µ‚½‘w€‹K§Œ^ƒ}ƒ“ƒKƒ“z°‚ÌŒ`¬ŠÂ‹«D“ú–{’nŽ¿Šw‰ï (ŽRŒûC2019”N9ŒŽ)D
261. ŒKŒ´—C“TEˆÀì˜aFE“¡‰iŒöˆê˜YE–ìè’B¶E‘å“c”¹ˆê˜YE²“¡•ô“ìE–Ø‘ºƒˆêE’†‘ºŒª‘¾˜YE‰Á“¡‘׍_F•XŠú|ŠÔ•XŠúƒTƒCƒNƒ‹‚É‚¨‚¯‚éŒÅ‘Ì’n‹…‚̃tƒB[ƒhƒoƒbƒN‰ž“šFŠC—m Os “¯ˆÊ‘̃}ƒXƒoƒ‰ƒ“ƒX‚ÉŠî‚­§–ñD“ú–{’nŽ¿Šw‰ï (ŽRŒûC2019”N9ŒŽ)D
260. Î“c”üŒŽERurik RomeroEMathieu LeisenE’¹–{~ŽiE–ìè’B¶EˆÀì˜aFE“¡‰iŒöˆê˜YE’†‘ºŒª‘¾˜YEMartin ReichE‰Á“¡‘׍_F‰©“Sz‚Ì’n‹…‰»Šw“I“Á’¥‚ÉŠî‚­“ìŽFŒ^‹àz°‚Ì‹àz‰»ì—p‚̉𖾁D“ú–{’nŽ¿Šw‰ï (ŽRŒûC2019”N9ŒŽ)D
259. –ìè’B¶E’·£•q˜YE’¹–{~ŽiE‚’J—Y‘¾˜YEÎ‹´ƒˆê˜YE“‡“c˜a•FE“n粐³”VE³–Ø—TE–k“c”–çEÖ“¡½ŽjEŽğˆä‘•cE‰¡ŽR‹M‘åEHŽRŒh‘¾EŸNˆä‹Iˆ®E‰Ž‹´‹ï˜aE‹–³Œ›EŒF’J‰pŒ›E‘O“c—å“ŞE‚ˆäŒ¤F[ŠClH”M…E‚ğ—p‚¢‚½Œ»êz•¨’¾“aŽÀŒ±D“ú–{’nŽ¿Šw‰ï (ŽRŒûC2019”N9ŒŽ)D
258. ‘åXŒh‘¾E’·£•q˜YE–ìè’B¶EŒI—Ñ‹MOF‰«“êƒgƒ‰ƒtŠC’ê”M…ƒTƒCƒg‚̃`ƒ€ƒj[‰Šú¶¬‰ß’ö‚ÉŠÖ‚·‚éz•¨Šw“I‰ğÍD“ú–{z•¨‰ÈŠw‰ï (•Ÿ‰ªC2019”N9ŒŽ)D
257. ’·£•q˜YE–ìè’B¶E‚’J—Y‘¾˜YEÎ‹´ƒˆê˜YEŒF’J‰pŒ›E‘O“c—å“ŞF‰«“êHAKUREIƒTƒCƒg‚ÌŽ¥—°“Sz‰¼‘œ‘gD‚̉ğÍD“ú–{z•¨‰ÈŠw‰ï (•Ÿ‰ªC2019”N9ŒŽ)D
256. ‘å“c”¹ˆê˜YE²“¡•ô“ìE–ìè’B¶Eˆ°“c‰Ê“ށE‰Á“¡‘׍_F‹C‰»–@‚ÆCDD‚ğ—p‚¢‚½‚Šm“xE‚¸“xEv‘¬ƒIƒXƒ~ƒEƒ€“¯ˆÊ‘̔䕪ÍŽè–@‚ÌŠJ”­D“ú–{’n‹…‰»Šw‰ï (“Œ‹žC2019”N9ŒŽ)D
255. –ìè’B¶FŒ¤‹†ŽÒ‚Æ‚¢‚¤‚¨ŽdŽ–‚Ƃ́G’n‹…‰ÈŠwŒn‚ÌŒ¤‹†ŽÒ‚ğŽu‚·‹M•û‚½‚¿‚ցD“ú–{’n‹…‰»Šw‰ïƒVƒ‡[ƒgƒR[ƒX (“Œ‹žC2019”N9ŒŽ)D
254. ŽR–{³_Eì“c‰ÀŽjEŽ­“‡—T”VEİžÙ^从qE‰ºVˆä“cN‰îE’Jè–¾ŽqEŠ}’J‹MŽjE–ìè’B¶E‚ˆäŒ¤F[ŠC”M…Œn‚ÉŒ`¬‚³‚ê‚é“dê‚Æ“d‹C”÷¶•¨¶‘ÔŒn‚ÌŠÖŒW«D“ú–{”÷¶•¨¶‘ÔŠw‰ï (b•{C2019”N9ŒŽ)D
253. ˆäŒ´’q‘¥E”g’Ëv’B–çE–ìè’B¶E–k“c”–çE•“c–õFUVP‚ğ—p‚¢‚½ŠC’ê”M…•¬oEŽü‚è—¬“®‚̉Ž‹‰»D‰ÂŽ‹‰»î•ñƒVƒ“ƒ|ƒWƒEƒ€ (‹ž“sC2019”N7ŒŽ)D
252. ŠÖ‰®—EŽuE•Ä’ÍK‘¾˜YEThomas TindellEÎ‹´ƒˆê˜YE–ìè’B¶E¡ˆä—ºEŒü]MŠ°F‰«“êƒgƒ‰ƒtˆÉ¥–¼ŠCŒŠHakureiƒTƒCƒg‚É‚¨‚¯‚é—¬‘Ì•ï—L•¨‚ÌŒ¤‹†DŽ‘Œ¹’nŽ¿Šw‰ï (“Œ‹žC2019”N6ŒŽ)D
251. ’r“‡‘ñ˜YE‘å’|—ƒE²“¡“wEˆÉ“¡ˆ©E¬–ìCŽiEÎ‹´ƒˆê˜YE–ìè’B¶EŒF’J‰pŒ›E‘O“c—æ“ŞECK16-05æ‘DŽÒˆê“¯FˆÉ¥–¼ŠCŒŠŠC’ê”M…z°‚É‚¨‚¯‚ézÎz•¨‚Ì•ÏŽ¿ƒvƒƒZƒXF•zz°‚Æ‚Ì”äŠrDŽ‘Œ¹’nŽ¿Šw‰ï (“Œ‹žC2019”N6ŒŽ)D
250. ŒË’ˏC•½EÎ‹´ƒˆê˜YE–ìè’B¶E–Ø‘ºƒˆêEíÂE’r’[ŒcE“‡“c˜a•FE‹{–{‹ÄF‰«“êƒgƒ‰ƒt‚²‚ñ‚Ç‚¤ƒTƒCƒg‚É‚¨‚¯‚éƒRƒAŽŽ—¿’†‚Ì•û‰”z‚ÌPb“¯ˆÊ‘Ì”äDŽ‘Œ¹’nŽ¿Šw‰ï (“Œ‹žC2019”N6ŒŽ)D
249. ’·£•q˜YE–ìè’B¶E‚’J—Y‘¾˜YEÎ‹´ƒˆê˜YEŽRè“OE’¹–{~ŽiEŒË’ˏC•½E’r’[ŒcE•Ä’ÍK‘¾˜YETindell ThomasEŒF’J‰pŒ›E‘O“c—å“ŞFˆÉ¥–¼ŠCŒŠŒ@íƒRƒAzÎŽŽ—¿‚̍z•¨Šw“I‰ğÍDŽ‘Œ¹’nŽ¿Šw‰ï (“Œ‹žC2019”N6ŒŽ)D
248. –ìè’B¶E’·£•q˜YE’¹–{~ŽiE‚’J—Y‘¾˜YEÎ‹´ƒˆê˜YE“‡“c˜a•FE“n粐³”VE³–Ø—TE–k“c”–çEÖ“¡½ŽjEŽğˆä‘•cE‰¡ŽR‹M‘åEHŽRŒh‘¾EŸNˆä‹Iˆ®E‰Ž‹´‹ï˜aE‹–³Œ›EŒF’J‰pŒ›E‘O“c—å“ŞE‚ˆäŒ¤F[ŠClH”M…E‚ğ—p‚¢‚½in-situz•¨’¾“aŽÀŒ±DŽ‘Œ¹’nŽ¿Šw‰ï (“Œ‹žC2019”N6ŒŽ)D
247. ŠÖ‰®—EŽuEŒü]MŠ°E•Ä’ÍK‘¾˜YEThomas TindellEÎ‹´ƒˆê˜YE–ìè’B¶E¡ˆä—ºF‰«“êƒgƒ‰ƒtˆÉ¥–¼ŠCŒŠ”M…ˆæ‚É‚¨‚¯‚éÎ‰p‹y‚Ñ‘MˆŸ‰”z’†‚Ì—¬‘Ì•ï—L•¨DŽ‘Œ¹‘fŞŠw‰ï–kŠC“¹Žx•”t‹Gu‰‰‰ï (2019”N6ŒŽ)D
246. Kawaguchi, S., Yonezu, K., Tindell, T., Ishibashi, J.-i., Nozaki, T., Ohtomo, Y. and Watanabe, K.: Mineralogical features of silver-bearing minerals in chimney ore from Myojinsho Caldera, Myojin Knoll and Bayonnaise Knoll seafloor hydrothermal area, Izu-Bonin Arc. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2019”N‘å‰ï (–‹’£C2019”N5ŒŽ)D
245. Ishida, M., Romeo, R., Leisen, M., Torimoto, J., Nozaki, T., Yasukawa, K., Fujinaga, K., Nakamura, K., Reich, M. and Kato, Y.: Geochemical features of ginvisible goldh in pyrites from the Akeshi and Kasuga deposits, Kagoshima, Japan. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2019”N‘å‰ï (–‹’£C2019”N5ŒŽ)D
244. Tomimatsu, Y., Onoue, T., Yamashita, D., Nozaki, T. and Takaya, Y.: Formation of stratiform manganese deposits during the Carnian (Late Triassic) gpluvial eventh in the pelagic Panthalassa. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2019”N‘å‰ï (–‹’£C2019”N5ŒŽ)D
243. Kato, Y., Nakamura, K., Fujinaga, K., Yasukawa, K., Takaya, Y., Ohta, J., Tanaka, E., Mimura, K., Iijima, K., Machida, S., Nozaki, T., Kimura, J.-I. and Iwamori, H.: A general overview of the research progress on REY-rich mud. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2019”N‘å‰ï (–‹’£C2019”N5ŒŽ)D
242. Fujinaga, K., Yasukawa, K., Nozaki, T., Machida, S., Takaya, Y., Ohta, J., Yano, M., Shimomura, R., Tanaka, E., Horinouchi, K., Matsumoto, K., Usui, Y., Yamamoto, H., Nakamura, K., Kato, Y. and KM17-14C cruise members: Geochemistry and distribution of REY-rich mud in the eastern off the Takuyo-Daigo Seamount within the Minamitorishima EEZ. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2019”N‘å‰ï (–‹’£C2019”N5ŒŽ)D
241. Ikeshima, T., Otake, T., Sato, T., Ito, A., Ono, S., Ishibashi, J.-i., Nozaki, T., Kumagai, H., Maeda, L. and CK16-05 Onboard members: Transformation of ore minerals and their geochemical signatures in submarine hydrothermal ore deposits in Izena Hole, Okinawa Trough. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2019”N‘å‰ï (–‹’£C2019”N5ŒŽ)D
240. Kuwahara, Y., Yasukawa, K., Fujinaga, K., Nozaki, T., Ohta, J., Sato, H., Kimura, J.-I., Nakamura, K. and Kato, Y.: Os isotope record of the Quaternary seawater derived from pelagic sediment in the Lau Basin, western South Pacific Ocean, and its implications for global climate changes. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2019”N‘å‰ï (–‹’£C2019”N5ŒŽ)D
239. Nozaki, T., Nikaido, T., Onoue, T., Takaya, Y., Sato, K., Kimura, J.-I., Chang, Q., Yamashita, D., Sato, H., Suzuki, K., Kato, Y. and Matsuoka, A.: Triassic marine Os isotope record reconstructed from a pelagic chert succession, Sakahogi section, Mino Belt, southwest Japan. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2019”N‘å‰ï (–‹’£C2019”N5ŒŽ)D™µ‘ҍu‰‰™
238. “¡‰iŒöˆê˜YEûü’J—Y‘¾˜YE‰¤”üŠûE–ìè’B¶E’†‘ºŒª‘¾˜YE‰Á“¡‘׍_F•t‰Á‘Ì’†‚É•ª•z‚·‚é‘wó“Sƒ}ƒ“ƒKƒ“z°‚©‚ç‚̃ŒƒAƒA[ƒX’Šo‹Zp‚ÌŒŸ“¢DŠó“y—Ş“¢˜_‰ï (‘åãC2019”N5ŒŽ)D
237. “c’†‚¦‚è‚©EˆÀì˜aFE’†‘ºŒª‘¾˜YEŒ©çµ˜a‰pE“¡‰iŒöˆê˜YE”Ñ“‡kˆêE–ìè’B¶E‰Á“¡‘׍_F“ì’¹“‡ƒŒƒAƒA[ƒX“D‚̉»Šw‘w˜FƒŒƒAƒA[ƒX”ZW‹@\‚ɑ΂·‚鎦´DŠó“y—Ş“¢˜_‰ï (‘åãC2019”N5ŒŽ)D
236. ‰Á“¡‘׍_EˆÀì˜aFE’†‘ºŒª‘¾˜YE“¡‰iŒöˆê˜YEûü’J—Y‘¾˜YE‘å“c”¹ˆê˜YE’¬“cŽkŽ÷E“c’†‚¦‚è‚©EŒ©çµ˜a‰pE”Ñ“‡kˆêE–ìè’B¶E–Ø‘ºƒˆêEŠâXŒõF“ì’¹“‡Žü•ÓEEZ“à‚É‚¨‚¯‚郌ƒAƒA[ƒX“DŒ¤‹†‚̍őOüDŠó“y—Ş“¢˜_‰ï (‘åãC2019”N5ŒŽ)D
235. ˆÀì˜aFE‘å“c”¹ˆê˜YEŒ©çµ˜a‰pE“c’†‚¦‚è‚©E‚’J—Y‘¾˜YE‰Pˆä—mˆêE“¡‰iŒöˆê˜YE’¬“cŽkŽ÷E–ìè’B¶E”Ñ“‡kˆêE’†‘ºŒª‘¾˜YE‰Á“¡‘׍_FV‹KƒXƒJƒ“ƒWƒEƒ€Ž‘Œ¹‚Æ‚µ‚Ä‚Ì“ì’¹“‡ƒŒƒAƒA[ƒX“D‚̃|ƒeƒ“ƒVƒƒƒ‹DŠó“y—Ş“¢˜_‰ï (‘åãC2019”N5ŒŽ)D
234. ŽR–{³_Eì“c‰ÀŽjEŠ}’J‹MŽjEŽ­“‡—T”VEİžÙ^从qE‚’J—Y‘¾˜YEŽRŒûWE–k‘ä‹I•vE’†‘º—´•½E–ìè’B¶E‚ˆäŒ¤F[ŠC”M…ˆæ‚É‚¨‚¯‚é“d‹C¶‘ÔŒn‚Ì’T¸D¶–½‚Ì‹NŒ´‚¨‚æ‚ѐi‰»Šw‰ï (ŽO‘éC2019”N3ŒŽ)D
233. ŒI—Ñ‹MOE’·£•q˜YE–ìè’B¶EÎ‹´ƒˆê˜YE“‡“c˜a•FE´…³–¾E–å”njˆêFVz•¨hitachiite ‚ÌŒ‹»\‘¢‰ğÍDPFƒVƒ“ƒ|ƒWƒEƒ€ (‚‚­‚΁C2019”N3ŒŽ)D
232. •£“c–ÎŽiE“‡“c˜a•FEÎ‹´ƒˆê˜YE–ìè’B¶EŒF’J‰pŒ›E¼‰º”\FE‰zìŠCE‰Í’n³LFŠC’êz•¨Ž‘Œ¹ŠJ”­‚̊‹«‰e‹¿\”M…z°ŠJ”­‚É‚æ‚éŠC—m‹à‘®‰˜õ‚̉”\«‚ğl‚¦‚é|Dƒuƒ‹[ƒA[ƒXƒTƒCƒGƒ“ƒXEƒeƒN2019 (‰¡•lC2019”N2ŒŽ)D
231. Î‹´ƒˆê˜YE‹g—Ç—D—CE’ç‰f“úE’çÊ‹IE–ìè’B¶E‚’J—Y‘¾˜YECK14-04qŠCECK16-01qŠCæ‘DŽÒF‰«“êƒgƒ‰ƒtˆÉ•½‰®–kŠC‹u”M…ˆæŠC’ꉺ‚É‚¨‚¯‚é”M…•ÏŽ¿‚Ì“Á’¥D“ú–{’n‹…‰»Šw‰ï (“ß”eC2018”N9ŒŽ)D
230. “Vì—TŽjE[ŠC—Y‰îE’¹–{~ŽiE–ìè’B¶E”Ñ“‡kˆêE‰Pˆä˜NE—é–؏Ÿ•FF‘ñ—m‘æ5ŠCŽRŽü•ÓŠCˆæ‚ÌNd”Z“x‚Æ“¯ˆÊ‘Ì”ä‚Ì•ª•zD“ú–{’n‹…‰»Šw‰ï (“ß”eC2018”N9ŒŽ)D
229. ¼–{Œ«Ž¡E’†‘ºŒª‘¾˜YE’¬“cŽkŽ÷E‹àŽqƒ“ñE–k“c”–çE“¡‰iŒöˆê˜YEˆÀì˜aFE–ìè’B¶E”Ñ“‡kˆêE‰Á“¡‘׍_F‰¹‹¿’T¸ƒf[ƒ^‰ğÍ‚É‚æ‚é“ì’¹“‡EEZƒŒƒAƒA[ƒX“D‚ÌŽOŽŸŒ³•ª•z‚̉𖾁DŽ‘Œ¹‘fŞŠw‰ïH‹G‘å‰ï (•Ÿ‰ªC2018”N9ŒŽ)D
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226. ‰Á“¡‘׍_E‚’J—Y‘¾˜YEˆÀì˜aFE’†‘ºŒª‘¾˜YE“¡‰iŒöˆê˜YE‘å“c”¹ˆê˜YE’¬“cŽkŽ÷E“c’†‚¦‚è‚©EŒ©çµ˜a‰pE”Ñ“‡kˆêE–ìè’B¶E–Ø‘ºƒˆêEŠâXŒõF“ì’¹“‡ƒŒƒAƒA[ƒX“DŒ¤‹†‚̍ŐV¬‰ÊD“ú–{’nŽ¿Šw‰ï (ŽD–yC2018”N9ŒŽ)D
225. ˆÀì˜aFE‘å“c”¹ˆê˜YEŒ©çµ˜a‰pE“c’†‚¦‚è‚©E‚’J—Y‘¾˜YE‰Pˆä—mˆêE“¡‰iŒöˆê˜YE’¬“cŽkŽ÷E–ìè’B¶E”Ñ“‡kˆêE’†‘ºŒª‘¾˜YE‰Á“¡‘׍_F“ì’¹“‡ƒŒƒAƒA[ƒX“D‚̃XƒJƒ“ƒWƒEƒ€Ž‘Œ¹ƒ|ƒeƒ“ƒVƒƒƒ‹D“ú–{’nŽ¿Šw‰ï (ŽD–yC2018”N9ŒŽ)D
224. –ìè’B¶EŒF’J‰pŒ›EÎ‹´ƒˆê˜YE’rŒ´Œ¤EŽR“c‘׍LE–k“c”–çE^“c‰À“TE³–Ø—TE¬XÈŒáE‚’J—Y‘¾˜YEŽRè“OE’·£•q˜YE‘O“c—æ“ŞECK16-05qŠCæ‘DŽÒˆê“¯FCK16-05qŠC (Exp. 909) ˆÉ¥–¼ŠCŒŠŒ@íƒRƒAŽŽ—¿‚ÌŠâ‘Šƒ†ƒjƒbƒg‹æ•ª‚¨‚æ‚Ñ’nk”g’T¸‚Ƃ̏ƍ‡D“ú–{’nŽ¿Šw‰ï (ŽD–yC2018”N9ŒŽ)D
223. ’¹–{~ŽiE“¡Œ´‘א½E–ìè’B¶E‚’J—Y‘¾˜YEŒF’J‰pŒ›F‰«“êƒgƒ‰ƒtŽY—°‰»•¨ƒ`ƒ€ƒj[‚É‚¨‚¯‚éz•¨‘gD‚ƍz•¨‘g¬‚Ì‹óŠÔ“I•Ï‰»DŽ‘Œ¹’nŽ¿Šw‰ï (“Œ‹žC2018”N6ŒŽ)D
222. Œü]MŠ°E•Ä’ÍK‘¾˜YETindell ThomasE–ìè’B¶EÎ‹´ƒˆê˜YECK16-01‚¨‚æ‚Ñ05æ‘DŽÒˆê“¯F—¬‘Ì•ï—L•¨‚Æ—°‰©“¯ˆÊ‘Ì‚©‚猩‚½ˆÉ•½‰®–kŠC‹u”M…ˆæ‚É‚¨‚¯‚é”M…‚Ì“Á’¥DŽ‘Œ¹’nŽ¿Šw‰ï (“Œ‹žC2018”N6ŒŽ)D
221. Î‹´ƒˆê˜YE’ç‰f“úE“yŠò’mOE‚’J—Y‘¾˜YE–ìè’B¶EŒF’J‰pŒ›E‘O“c—æ“ŞECK16-05æ‘DŽÒˆê“¯F‰«“êƒgƒ‰ƒtˆÉ¥–¼ŠCŒŠ”M…ˆæ‚æ‚蓾‚ç‚ꂽŒ@íƒRƒA‚Ì’n‹…‰»Šw“I“Á’¥DŽ‘Œ¹’nŽ¿Šw‰ï (“Œ‹žC2018”N6ŒŽ)D
220. ŒF’J‰pŒ›E–ìè’B¶EÎ‹´ƒˆê˜YE’rŒ´Œ¤EŽR“c‘׍LE–k“c”–çE^“c‰À“TE³–Ø—TE¬XÈŒáE‚’J—Y‘¾˜YEŽRè“OE’·£•q˜YE‘O“c—æ“ŞECK16-05æ‘DŽÒˆê“¯FˆÉ¥–¼ŠCŒŠuŽŸ¢‘ãŠC—mŽ‘Œ¹’²¸‹ZpvŒ@íƒRƒA‚̍ČŸ“¢‚É‚à‚Ƃ¢‚½‘ΔäDŽ‘Œ¹’nŽ¿Šw‰ï (“Œ‹žC2018”N6ŒŽ)D
219. Ö“¡ŽÀ“āE^“c‰À“TEà_“c—m•½EŽR“c‘׍LE–ìè’B¶EŒF’J‰pŒ›EÎ‹´ƒˆê˜YFŒ@íEŒŸ‘w‚É‚æ‚éŠC’ê”M…Šˆ“®ˆæ‚Ì’²¸F‰«“êƒgƒ‰ƒtˆÉ•½‰®–kŠC‹u‚Ì—áDŽ‘Œ¹’nŽ¿Šw‰ï (“Œ‹žC2018”N6ŒŽ)D™µ‘ҍu‰‰™
218. ¬XÈŒáE³–Ø—TE’¹–{~ŽiEâV“¡½ŽjEKakda KretE“ìo‘tE‘å–쐳•vEŽR–{_•¶E@Iona McIntoshE’Jì˜jE–ìè’B¶EŒF’J‰pŒ›EÎ‹´ƒˆê˜YE‘O“c—æ“ŞECK16-05qŠCæ‘DŽÒˆê“¯FˆÉ¥–¼ŠCŒŠ,ŠC’ê”M…z°ŽŽ—¿‚Ì“d‹C•¨«F‚¿‚«‚イŒ@íCK16-05DŽ‘Œ¹’nŽ¿Šw‰ï (“Œ‹žC2018”N6ŒŽ)D
217DìŒû^Ž¡E•Ä’ÍK‘¾˜YEThomas TindellEÎ‹´ƒˆê˜YE–ìè’B¶E‘å—F—zŽqE‘å’|—ƒE“n粌öˆê˜YFˆÉ“¤¬Š}Œ´ŒÊƒxƒˆƒl[ƒXŠC‹uƒ`ƒ€ƒj[zÎŒ`¬‰ß’ö‚É‚¨‚¯‚é‹âz•¨‚Ì’¾“a‰ß’öDŽ‘Œ¹’nŽ¿Šw‰ï (“Œ‹žC2018”N6ŒŽ)D
216. ’r“‡‘ñ˜YE‘å’|—ƒE²“¡“wE¬–ìCŽiEÎ‹´ƒˆê˜YE–ìè’B¶EŒF’J‰pŒ›E‘O“c—æ“ŞECK16-05æ‘DŽÒˆê“¯F‰«“êƒgƒ‰ƒtˆÉ¥–¼ŠCŒŠŠC’ê”M…z°‚É‚¨‚¯‚ézÎz•¨‚Ì•ÏŽ¿ƒvƒƒZƒXDŽ‘Œ¹’nŽ¿Šw‰ï (“Œ‹žC2018”N6ŒŽ)D
215. ŒË’ˏC•½EÎ‹´ƒˆê˜YE–ìè’B¶E–Ø‘ºƒˆêEíÂE“‡“c˜a•FFLA-MC-ICP-MS‚ğ—p‚¢‚½”M…ˆæŒ@íŽŽ—¿’†‚Ì•û‰”z‚ÌPb“¯ˆÊ‘̔䑪’èDŽ‘Œ¹’nŽ¿Šw‰ï (“Œ‹žC2018”N6ŒŽ)D™Šw¶u‰‰ÜŽóÜ™
214. Kato, Y., Nakamura, K., Fujinaga, K., Yasukawa, K., Takaya, Y., Ohta, J., Tanaka, E., Mimura, K., Iijima, K., Machida, S., Nozaki, T., Kimura, J.-I. and Iwamori, H.: The progress of researches on REY-rich mud - A general overview -. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2018”N‘å‰ï (–‹’£C2018”N5ŒŽ)D
213. Matsumoto, K., Nakamura, K., Machida, S., Kaneko, J., Kitada, K., Fujinaga, K., Yasukawa, K., Nozaki, T., Iijima, K. and Kato, Y.: Acoustic characterization of REY-rich mud in the Minamitorishima EEZ using high-resolution sub-bottom profiler data. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2018”N‘å‰ï (–‹’£C2018”N5ŒŽ)D
212. Fujii, M., Sato, H., Nozaki, T. and Takaya, Y.: Rock magnetism for characterization of submarine volcanism in the Okinawa Trough. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2018”N‘å‰ï (–‹’£C2018”N5ŒŽ)D
211. Otake, T., Ikeshima, T., Sato, T., Ishibashi, J.-I., Nozaki, T., Kumagai, H., Maeda, L. and CK16-05 Cruise onboard members: Ore formation processes in a submarine hydrothermal ore deposit in Hakurei site, Izena Hole, Okinawa Trough: comparison with Kuroko deposits. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2018”N‘å‰ï (–‹’£C2018”N5ŒŽ)D
210. Horinouchi, K., Shimomura, R., Nakamura, K., Machida, S., Yasukawa, K., Fujinaga, K., Nozaki, T., Torimoto, J. and Kato, Y.: Geochemical features of ferromanganese nodules in the Minamitorishima EEZ. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2018”N‘å‰ï (–‹’£C2018”N5ŒŽ)D
209. Totsuka, S., Ishibashi, J.-I., Nozaki, T., Shimada, K., Kimura, J.-I. and Chang, Q.: Pb isotope analysis of galena from hydrothermal deposits in the mid-Okinawa Trough using Laser Ablation-Inductively Coupled Plasma-Mass Spectrometry. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2018”N‘å‰ï (–‹’£C2018”N5ŒŽ)D™Šw¶—DG”­•\ÜŽóÜ™
208. Kumagai, H., Nozaki, T., Ishibashi, J.-I., Ikehara, K., Yamada, Y., Sanada, Y., Kitada, K., Komori, S., Yamasaki, T., Masaki, Y., Takaya, Y., Nagase, T., Maeda, L. and On-board member of CK16-05 cruise: A correlation between logging and drilled cores at Izena Hole: CK16-05. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2018”N‘å‰ï (–‹’£C2018”N5ŒŽ)D
207. Amakawa, H., Fukami, Y., Torimoto, J., Nozaki, T., Iijima, K., Usui, A. and Suzuki, K.: Vertical profile of neodymium isotopic composition in the oceanic region close to the Takuyo-Daigo Seamount. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2018”N‘å‰ï (–‹’£C2018”N5ŒŽ)D
206. Torimoto, J., Kawagucci, S., Fujiwara, T., Kumagai, H., Nozaki, T., Takai, K., Suzuki, K., Yamamoto, H., Machiyama, H. and Yamamoto, F.: A Raman spectroscopic study on sphalerite from seafloor hydrothermal deposit. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2018”N‘å‰ï (–‹’£C2018”N5ŒŽ)D
205. ûü‹´•üŽqEƒ\[ƒ“ƒgƒ“ ƒuƒŒƒAE²“¡ E‹g–쑏ˆêE‚’J—Y‘¾˜YE–ìè’B¶E‘å–؍FˆêE‘å–؏r•FEì‰Ô“N•vFƒŒ[ƒU[—U‹N”j‰ó•ªŒõ–@‚É‚æ‚é[ŠCƒŠƒAƒ‹ƒ^ƒCƒ€ŠâÎ‰»Šw•ªÍƒZƒ“ƒT‚ÌŠJ”­DƒŒ[ƒU[Šw‰ïŠwpu‰‰‰ï‘æ38‰ñ”NŽŸ‘å‰ï (‹ž“sC2018”N1ŒŽ)D™µ‘ҍu‰‰™
204. •£“c–ÎŽiEŽRŠİ—²”ŽE‰zìŠCE‰Í’n³LE•ŸŒ´’B—YE“‡“c˜a•FEÎ‹´ƒˆê˜YEŒF’J‰pŒ›E–ìè’B¶E‘O“c—æ“ŞECK16-05æ‘DŽÒˆê“¯F‚¿‚«‚イ‘Dã‚ÅŽÀŽ{‚µ‚½”M…z°ŠJ”­‚É”º‚¤ŠC—mŠÂ‹«‚ւ̉e‹¿’²¸\”M…«zÎ‚̏d‹à‘®—noƒ|ƒeƒ“ƒVƒƒƒ‹‚Æ—no‹à‘®Œ³‘f‚ÌŠî‘b¶ŽYŽÒ‚ւ̉e‹¿|Dƒuƒ‹[ƒA[ƒXƒTƒCƒGƒ“ƒXEƒeƒN2018 (‰¡•lC2018”N1ŒŽ)D
203. ’ç‰f“úEÎ‹´ƒˆê˜YE“yŠò’mOE‚’J—Y‘¾˜YE–ìè’B¶ECK16-05æ‘DŽÒˆê“¯F’n‹…‰»Šw“I‰ğÍ‚ÉŠî‚­’†•”‰«“êƒgƒ‰ƒt‚Ì”M…•ÏŽ¿ì—pDInterRidge-JapanŒ¤‹†W‰ï (”C2017”N11ŒŽ)D
202. ŒË’ˏC•½EÎ‹´ƒˆê˜YE–ìè’B¶E“‡“c˜a•FE–Ø‘ºƒˆêEíÂF‰”“¯ˆÊ‘̔䂩‚猩‚½’†•”‰«“êƒgƒ‰ƒt‚Ì”M…z‰»ì—pDInterRidge-JapanŒ¤‹†W‰ï (”C2017”N11ŒŽ)D
201. –ìè’B¶EŒF’J‰pŒ›EÎ‹´ƒˆê˜YE‚’J—Y‘¾˜YE‘O“c—æ“ŞECK16-05qŠCæ‘DŽÒˆê“¯FˆÉ¥–¼ŠCŒŠ‚̉ȊwŒ@í‚ªŒê‚éŠC’ꉺz‰»ì—pDInterRidge-JapanŒ¤‹†W‰ï (”C2017”N11ŒŽ)D
200. ‰Á“¡‘׍_E’†‘ºŒª‘¾˜YE“¡‰iŒöˆê˜YEˆÀì˜aFE‚’J—Y‘¾˜YE‘å“c”¹ˆê˜YE“c’†‚¦‚è‚©EŒ©çµ˜a‰pE”Ñ“‡kˆêE’¬“cŽkŽ÷E–ìè’B¶E–Ø‘ºƒˆêEŠâXŒõFƒŒƒAƒA[ƒX“DŒ¤‹†‚̍ŐV¬‰Ê‚Æ“ì’¹“‡EEZ‚É‚¨‚¯‚éŠJ”­‚ÌŽÀŒ»‚ÉŒü‚¯‚½Žæ‚è‘g‚݁D“ú–{’nŽ¿Šw‰ï (¼ŽRC2017”N9ŒŽ)D
199. –ìè’B¶E³–Ø—TE’·£•q˜YE’¹–{~ŽiEÖ“¡½ŽjEûü’J—Y‘¾˜YEÎ‹´ƒˆê˜YE“‡“c˜a•FE“n粐³”VE‰¡ŽR‹M‘åEHŽRŒh‘¾EŸNˆä‹Iˆ®E‰Ž‹´‹ï˜aE‹–³Œ›EŒF’J‰pŒ›E‘O“c—æ“ŞE‚ˆäŒ¤FKR16-17qŠC‚ʼnñŽû‚µ‚½•z—{B‘•’u‚̃Zƒ“ƒT[ƒf[ƒ^‚¨‚æ‚Ñ’¾“a•¨FlH”M…E‚Ì’·Šúƒ‚ƒjƒ^ƒŠƒ“ƒO‚Ɛ͏oŽÀŒ±D“ú–{’nŽ¿Šw‰ï (¼ŽRC2017”N9ŒŽ)D
198. “yŠò’mOE‘å’|—ƒEÎ‹´ƒˆê˜YE¼ˆä—m•½EìŒûT‰îE‰Á“¡‘å˜aE•£“c–ÎŽiE‹{Œ´—æ“ŞE’ç‰f“úE’†‘ºs‰îEìŠì“c—³•½E‰FÀ‘å‹MEãŒ´—́EVé—³ˆêE–ìè’B¶EŒF’J‰pŒ›E‘O“c—æ“ŞECK16-05æ‘DŽÒˆê“¯FˆÉ¥–¼ŠCŒŠ‚É‚¨‚¯‚éŠC’ꉺz‘ÌŽü•Ó‚Ì”M…«¬•ª‚Ì•ª•zD“ú–{’n‹…‰»Šw‰ï (‰¡•lC2017”N9ŒŽ)D
197. ŒË’ˏC•½EÎ‹´ƒˆê˜YE–ìè’B¶E“‡“c˜a•FE–Ø‘ºƒˆêEíÂFŠC’ê”M…ˆæŒ@íŽŽ—¿‚ÉŠÜ‚Ü‚ê‚é•û‰”z‚ÌLA-MC-ICP-MS‰”“¯ˆÊ‘̔䑪’èD“ú–{’n‹…‰»Šw‰ï (‰¡•lC2017”N9ŒŽ)D
196. ŒI—Ñ‹MOE’·£•q˜YE–ìè’B¶EÎ‹´ƒˆê˜YE“‡“c˜a•FE–å”njˆêFˆïéŒ§“ú—§zŽRŽYtetradymite—l–¢’mz•¨‚ÌŒ‹»\‘¢D“ú–{z•¨‰ÈŠw‰ï (¼ŽRC2017”N9ŒŽ)D
195. Œü]MŠ°E•Ä’ÍK‘¾˜YEThomas TindellEÎ‹´ƒˆê˜YE–ìè’B¶E‚ˆäŒ¤ECK14-04‹y‚ÑCK16-01æ‘DŽÒˆê“¯F‰«“êƒgƒ‰ƒtˆÉ•½‰®–kŠC‹u”M…ˆæ‚Ì—¬‘Ì•ï—L•¨ƒ}ƒCƒNƒƒT[ƒ‚ƒƒgƒŠ[‚ƍz‰»ì—pDŽ‘Œ¹’nŽ¿Šw‰ï (“Œ‹žC2017”N6ŒŽ)D
194. ŒË’ˏC•½EÎ‹´ƒˆê˜YE–ìè’B¶E“‡“c˜a•FE–Ø‘ºƒˆêEíÂF‰ÈŠwŒ@íŽŽ—¿‰ğÍ‚ÉŠî‚­‰«“êƒgƒ‰ƒt”M…ˆæŠC’ꉺ‚̍z•¨Œ`¬ŠÂ‹«‚̉𖾁DŽ‘Œ¹’nŽ¿Šw‰ï (“Œ‹žC2017”N6ŒŽ)D
193. ’¹–{~ŽiEŽR–{Œ[”VEìŒûT‰îEŒF’J‰pŒ›E–ìè’B¶EŒË’ˏC•½F‰«“êƒgƒ‰ƒt‘æŽO‹v•ÄŠC‹u‚Ì—°‰»•¨ƒ`ƒ€ƒj[‚Ì‹LÚŠw“I“Á’¥DŽ‘Œ¹’nŽ¿Šw‰ï (“Œ‹žC2017”N6ŒŽ)D
192. –ìè’B¶EŒF’J‰pŒ›EÎ‹´ƒˆê˜YE‚’J—Y‘¾˜YE‘O“c—æ“ŞECK16-05qŠCæ‘DŽÒˆê“¯FCK16-05qŠC‚ÌŒ@íƒRƒAŽŽ—¿‚©‚王‚鉫“êƒgƒ‰ƒtˆÉ¥–¼ŠCŒŠ‚ÌŠC’ꉺz‰»ì—pDŽ‘Œ¹’nŽ¿Šw‰ï (“Œ‹žC2017”N6ŒŽ)D
191. Î‹´ƒˆê˜YEŒF’J‰pŒ›E–ìè’B¶E‘O“c—æ“ŞF‰ÈŠwŒ@í‚É‚æ‚è–¾‚ç‚©‚É‚È‚Á‚½‰«“êƒgƒ‰ƒt”M…ˆæ‚ÌŠC’ꉺ’nŽ¿\‘¢D•¨—’T¸Šw‰ï (“Œ‹žC2017”N6ŒŽ)D™µ‘ҍu‰‰™
190. ^“c‰À“TEÖ“¡ŽÀ“āEà_“c—m•½E–،˂䂩‚èEŽR“c‘׍LE–k“c”–çE–ìè’B¶EŒF’J‰pŒ›EÎ‹´ƒˆê˜YE‘O“c—æ“ŞECK14-04CCK16-01CCK16-05æ‘DŽÒˆê“¯F‰«“êƒgƒ‰ƒtŠC’ê”M…z°‚É‚¨‚¯‚錟‘w’²¸D•¨—’T¸Šw‰ï (“Œ‹žC2017”N6ŒŽ)D
189. Kinoshita, M., Masaki, Y., Tanikawa, W.., Hamada, Y., Nozaki, T., Kumagai, H., Maeda, L. and Yamamoto, H.: Challenge to monitor the nearby hydrological response to the drilling into hydrothermal venting area: A case for mid-Okinawa Trough Noho hydrothermal site. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2017”N‘å‰ï (–‹’£C2017”N5ŒŽ)D
188. Kawaguchi, S., Yonezu, K., Tindell, T., Ishibashi, J.-I., Shimada, K. and Nozaki, T.: Mineralization of Ag-rich sulfide minerals in chimney samples at Bayonnaise Knoll, Izu-bonin Arc. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2017”N‘å‰ï (–‹’£C2017”N5ŒŽ)D
187. Toki, T., Otake, T., Ishibashi, J.-I., Matsui, Y., Kato, H., Fuchida, S., Miyahara, R., Tsutsumi, A., Nakamura, S., Kawakida, R., Uza, H., Uehara, R., Shinjo, R., Nozaki, T., Kumagai, H., Maeda, L. and CK16-05 Onboard Scientists: Chemical and isotopic compositions of interstitial water from the Izena hydrothermal field. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2017”N‘å‰ï (–‹’£C2017”N5ŒŽ)D
186. Yano, M., Fujinaga, K., Yasukawa, K., Nozaki, T., Kuroda, J., Kuwahara, K. and Kato, Y.: Lithological and geochemical features of the Permian-Triassic boundary at the Gujo-Hachiman section in the Mino-Tanba belt, central Japan. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2017”N‘å‰ï (–‹’£C2017”N5ŒŽ)D
185. Kato, Y., Nakamura, K., Fujinaga, K., Yasukawa, K., Takaya, Y., Ohta, J., Tanaka, E., Mimura, K., Iijima, K., Machida, S., Nozaki, T., Kimura, J.-I. and Iwamori, H.: The latest research on REY-rich mud in the Pacific Ocean. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2017”N‘å‰ï (–‹’£C2017”N5ŒŽ)D
184. Masaki, Y., Komori, S., Saitoh, M., Kret, K., Minamide, K., Ohno, M., Yamamoto, H., McIntosh, I., Tanikawa, W., Nozaki, T., Kumagai, H., Ishibashi, J.-I., Maeda, L. and CK16-05 on board member: Results of physical property measurements obtained during the CHIKYU cruise CK16-05 of hydrothermal fields at the middle Okinawa Trough. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2017”N‘å‰ï (–‹’£C2017”N5ŒŽ)D
183. Fujinaga, K., Yasukawa, K., Nozaki, T., Machida, S., Iijima, K., Tateno, H., Kawasaki, T., Takahashi, A., Amakawa, H., Torimoto, J., Fukami, Y., Suzuki, K., Nakamura, K., Kato, Y. and MR15-02 cruise members: Lateral distribution of extremely REY-rich mud layer in the southern part of the Minamitorishima EEZ. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2017”N‘å‰ï (–‹’£C2017”N5ŒŽ)D
182. Fuchida, S., Yamagishi, T., Koshikawa, H., Kawachi, M., Fukuhara, T., Kumagai, H., Nozaki, T., Ishibashi, J.-I., Maeda, L. and CK16-05 shipboard scientists: Evaluation of metal dissolution from fresh hydrothermal core samples collected at Izena Hole during CK16-05 and rapid detection of their toxicity on marine phytoplankton community; Environmental impact assessment for seafloor metal-mining. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2017”N‘å‰ï (–‹’£C2017”N5ŒŽ)D
181. Totsuka, S., Ishibashi, J.-I., Nozaki, T., Shimada, K. and Kimura, J.-I.: Estimation of subseafloor mineralization condition at active hydrothermal fields in the Okinawa Trough based on mineralogical and geochemical analysis. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2017”N‘å‰ï (–‹’£C2017”N5ŒŽ)D
180. Komori, S., Masaki, Y., Tanikawa, W., Torimoto, J., Ota, Y., Makio, M., Maeda, L., Ishibashi, J.-I., Nozaki, T., Kumagai, H., Tadai, O., CK16-01 Cruise member: Electrical features of the submarine hydrothermal system around the north Iheya Knoll area, Okinawa, Japan, inferred from resistivity and IP properties of drilling samples form the Chikyu CK16-01 cruise. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2017”N‘å‰ï (–‹’£C2017”N5ŒŽ)D
179. Sanada, Y., Yamada, Y., Kitada, K., Nozaki, T., Kumagai, H., Ishibashi, J.-I., Maeda, L. and CK16-05 on-board member: Discussion on gamma ray and temperature downhole logging data at sea-floor hydrothermal deposit in Izena Hole off-shore Okinawa. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2017”N‘å‰ï (–‹’£C2017”N5ŒŽ)D
178. Kumagai, H., Ishibashi, J.-I., Nozaki, T., Maeda, L., Yamada, Y., Saruhashi, T., Kyo, M. and CK16-05 On-board Member: Preliminary results of the CK16-05 Cruise: Scientific drilling in Okinawa Trough of coring, logging using geothermal tool and refit of Long-term monitoring apparatus. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2017”N‘å‰ï (–‹’£C2017”N5ŒŽ)D
177. Œü]MŠ°E•Ä’ÍK‘¾˜YEThomas TindellEÎ‹´ƒˆê˜YE–ìè’B¶E‚ˆäŒ¤E“n粌öˆê˜YF‰«“êƒgƒ‰ƒtˆÉ•½‰®–kŠC‹u”M…ˆæ‚É‚¨‚¯‚é—¬‘Ì•ï—L•¨‹ÏŽ¿‰»‰·“x‚Æ•ÏŽ¿z•¨‚ÉŠÖ‚·‚錤‹†Dƒuƒ‹[ƒA[ƒXƒVƒ“ƒ|ƒWƒEƒ€2017 (“Œ‹žC2017”N3ŒŽ)D
176. “¡Œ´‘א½E–L“cVE“à“c”TEÎ‹´ƒˆê˜YE–ìè’B¶FˆÉ“¤E¬Š}Œ´ŒÊŠC’ê”M…ˆæ‚É‚¨‚¯‚ézÎ‚ÌESR‹y‚Ñ•úŽË”ñ•½t”N‘㌈’èDƒuƒ‹[ƒA[ƒXƒVƒ“ƒ|ƒWƒEƒ€2017 (“Œ‹žC2017”N3ŒŽ)D
175. ¬XÈŒáE‘å“c—D‰îE³–Ø—TE’Jì˜jE’¹–{~ŽiE–Š”ö‰ëlE‘O“c—æ“ŞEÎ‹´ƒˆê˜YE–ìè’B¶EŒF’J‰pŒ›ECK16-01æ‘DŽÒˆê“¯F‰«“ꌧ‰«ŠC’ê”M…ˆæ‚É‚¨‚¯‚éŒ@íŽŽ—¿‚Ì”ä’ïREIP“Á«i‚¿‚«‚イCK16-01qŠCjD•¨—’T¸Šw‰ï (Žº—–C2016”N10ŒŽ)D
174. ‘å‹´—D仁EŒõ‰„¹Eâ“c¹OE—é–Ø—D”üE–q“cŠ°ŽqE–ìè’B¶EìŒûT‰îF[ŠC’ê‚Å‚Ì”÷¶•¨Œ»ê”|—{ŽÀŒ±‚©‚ç•R‰ğ‚­“S‚ğŠî”Õ‚Æ‚µ‚½ŠC’ꉺ”÷¶•¨Œ—F •úŽËŒõŒ¹Xü•ªÍ–@‚ğ‹ìŽg‚µ‚½”÷¶•¨‚É‚æ‚é’nŠk“àƒGƒlƒ‹ƒM[Šl“¾í—ª‚̉𖾁D“ú–{”÷¶•¨¶‘ÔŠw‰ï (‰¡{‰êC2016”N10ŒŽ)D
173. ’·£•q˜YE–ìè’B¶EÎ‹´ƒˆê˜YEŽR“c—ºˆêE‚ˆäŒ¤EìŒûT‰îEŒI—Ñ‹MOFƒEƒ‹ƒcz‚Ì‘gD‚ÆŒ`¬‰ß’öD“ú–{z•¨‰ÈŠw‰ï (‹à‘òC2016”N9ŒŽ)D
172. “¡Œ´‘א½E–L“cVE“à“c”TEÎ‹´ƒˆê˜YE–ìè’B¶FˆÉ“¤E¬Š}Œ´ŒÊ‚©‚çÌŽæ‚³‚ꂽ”M…«zÎ‚ÉŠÜ‚Ü‚ê‚éd»Î‚Ì”N‘㑪’èD“ú–{’n‹…‰»Šw‰ï (‘åãC2016”N9ŒŽ)D
171. XàV—F”ŽE“¡‰iŒöˆê˜YEˆÀì˜aFEìèŒ’Š°E‰Á“¡‘׍_E–ìè’B¶E”Ñ“‡kˆêE–kæt¹Ž÷EŒäŽèô‹`•vEŒKŒ´‘ñ”nF“ì’¹“‡‰«…[–ñ5,700m ‚ÌŠC’ê–ʉº‚©‚çÌŽæ‚µ‚½ƒŒƒAƒA[ƒX“D‚ÌŠî–{“I•¨«D‘æ51‰ñ’n”ՍHŠwŒ¤‹†”­•\‰ï (‰ªŽRC2016”N9ŒŽ)D
170. ³–Ø—TE’Jì˜jE¬XÈŒáE’¹–{~ŽiE–Š”ö‰ëlE‘å“c—Y‰îEà_“c—m•½E–ìè’B¶EÎ‹´ƒˆê˜YEŒF’J‰pŒ›ECK16-01 Leg 2 æ‘DŽÒˆê“¯F‚¿‚«‚イ (CK16-01) qŠC‚É‚¨‚¯‚鉫“êŠC’ê”M…ˆæŒ@íŽŽ—¿‚Ì‘Dã•¨«‘ª’èD“ú–{’nŽ¿Šw‰ï (“Œ‹žC2016”N9ŒŽ)D
169. “¡‰iŒöˆê˜YEˆÀì˜aFE’†‘ºŒª‘¾˜YEûü’J—Y‘¾˜YE‘å“c”¹ˆê˜YE‘å–î˜aFE’¬“cŽkŽ÷E–ìè’B¶E”Ñ“‡kˆêE‰Á“¡‘׍_F“ì’¹“‡EEZ“ì•”‚É‚¨‚¯‚é’´‚”Z“xƒŒƒAƒA[ƒX“D‚Ì’n‹…‰»Šw“I“Á’¥‚¨‚æ‚Ñ•ª•zó‹µD“ú–{’nŽ¿Šw‰ï (“Œ‹žC2016”N9ŒŽ)D
168. ‰Á“¡‘׍_EŠâXŒõE’†‘ºŒª‘¾˜YE”öã“NŽ¡E–ìè’B¶E“¡‰iŒöˆê˜YE’¬“cŽkŽ÷E‚’J—Y‘¾˜YEˆÀì˜aFE‘å“c”¹ˆê˜YFŠC‚̍z•¨Ž‘Œ¹‚Ì‘S—e‰ğ–¾‚ÖŒü‚¯‚½V‚µ‚¢ŽŽ‚݁D“ú–{’nŽ¿Šw‰ï (“Œ‹žC2016”N9ŒŽ)D
167. ’¬“cŽkŽ÷E”Ñ“‡kˆêE‰º‘º—ɁEˆÀì˜aFE“¡‰iŒöˆê˜YE–ìè’B¶E‹àŽqƒ“ñE‘å“c”¹ˆê˜YEŽR–{_•¶E‚’J—Y‘¾˜YEÎˆä‹PHE²“¡‘¾ˆêE’†‘ºŒª‘¾˜YE‰Á“¡‘׍_F“ì’¹“‡EEZ“ì“Œ•”‘Sˆæ‚É•ª•z‚·‚éƒ}ƒ“ƒKƒ“ƒmƒWƒ…[ƒ‹`YK16-01qŠC‘¬•ñ`D“ú–{’nŽ¿Šw‰ï (“Œ‹žC2016”N9ŒŽ)D
166. ²“¡•ô“ìE–ìè’B¶EÎìWE”öã“NŽ¡E–Ø‘ºƒˆêEíÂE—é–؏Ÿ•FFŽOô‹IŒãŠúƒm[ƒŠƒAƒ“‚̉“—m«‘͐ϊâ‚ğ—p‚¢‚½ƒIƒXƒ~ƒEƒ€“¯ˆÊ‘Ì•Ï“®‚©‚ç‚İ‚é’n‹…ŠO•¨Ž¿•t‰Á‚ÌŒŸ“¢D“ú–{’nŽ¿Šw‰ï (“Œ‹žC2016”N9ŒŽ)D
165. –ìè’B¶E’·£•q˜YE’¹–{~ŽiEûü’J—Y‘¾˜YEÎ‹´ƒˆê˜YE“‡“c˜a•FE“n粐³”VE³–Ø—TE‰¡ŽR‹M‘åEHŽRŒh‘¾EŸNˆä‹Iˆ®E‰Ž‹´‹ï˜aE‹–³Œ›EŒF’J‰pŒ›E‘O“c—æ“ŞE‚ˆäŒ¤F‰«“êƒgƒ‰ƒtˆÉ•½‰®–kŠC‹u‚̐lH”M…E‚©‚çÌŽæ‚³‚ꂽ—°‰»•¨ƒRƒAŽŽ—¿FŠC’ꉺz‰»ì—p‚̍Č»D“ú–{’nŽ¿Šw‰ï (“Œ‹žC2016”N9ŒŽ)D
164. Œü]MŠ°E•Ä’ÍK‘¾˜YEThomas TindellEÎ‹´ƒˆê˜YE–ìè’B¶E‚ˆäŒ¤E“n粌öˆê˜YF‰«“êƒgƒ‰ƒtˆÉ•½‰®–kŠC‹u”M…ˆæ‚É‚¨‚¯‚é—¬‘Ì•ï—L•¨Œ¤‹†‚ƍz•¨‘g‡‚¹DŽ‘Œ¹’nŽ¿Šw‰ï (“Œ‹žC2016”N6ŒŽ)D
163. ’·£•q˜YEŽR“c—ºˆêE–ìè’B¶EÎ‹´ƒˆê˜YEŒI—Ñ‹MOF•zzÎ‘gD‚ÌEBSD‰ğÍDŽ‘Œ¹’nŽ¿Šw‰ï (“Œ‹žC2016”N6ŒŽ)D
162. ŒF’J‰pŒ›E–ìè’B¶EÎ‹´ƒˆê˜YEÖ“¡ŽÀ“āEŽRè“OE‘O“c—æ“ŞECK16-01æ‘DŽÒˆê“¯FCK16-01qŠC‚É‚¨‚¯‚éŒ@í“¯ŽžŒŸ‘w‚ƍ̎æƒRƒAŠT•ñDŽ‘Œ¹’nŽ¿Šw‰ï (“Œ‹žC2016”N6ŒŽ)D
161. Î‹´ƒˆê˜YE’çÊ‹IE“‡“c˜a•FEŽOD—zŽqE‚’J—Y‘¾˜YE–ìè’B¶E‚ˆäŒ¤EŒF’J‰pŒ›F‰«“êƒgƒ‰ƒtŠC’ê”M…ˆæ‚É‚¨‚¯‚é”M…«ƒJƒIƒŠƒ“z•¨‚ÌŽYó‚ÆŒ`¬‰ß’öDŽ‘Œ¹’nŽ¿Šw‰ï (“Œ‹žC2016”N6ŒŽ)D
160. ’¹–{~ŽiE–ìè’B¶E‚ˆäŒ¤E —é–؏Ÿ•FFCharacteristics of hydrothermal deposits from the Aki- and Natsu-sites, Iheya North Knoll, Okinawa TroughDŽ‘Œ¹’nŽ¿Šw‰ï (“Œ‹žC2016”N6ŒŽ)D
159. ŒË’ˏC•½EÎ‹´ƒˆê˜YE“‡“c˜a•FE–ìè’B¶E’r’[ŒcFˆÉ•½‰®¬ŠC—ä–ì•áƒTƒCƒg‚ÌŒ@íƒRƒA‚ğŠÜ‚Ş”M…«zÎŽŽ—¿‚̍z•¨Šw“I“Á’¥DŽ‘Œ¹’nŽ¿Šw‰ï (“Œ‹žC2016”N6ŒŽ)D
158. ‰¡ŽR‹M‘åE‰Ž‹´‹ï˜aE‹–³Œ›EŸNˆä‹Iˆ®EHŽRŒh‘¾E–ìè’B¶F”M…z°¬ˆöƒ‚ƒjƒ^ƒŠƒ“ƒOƒVƒXƒeƒ€‚ÌŠJ”­DÎ–û‹Zp‹¦‰ït‹Gu‰‰‰ï (H“cC2016”N6ŒŽ)D
157. Totsuka, S., Ishibashi, J.-I., Nozaki, T. and Simada, K.: Mineralogical and Geochemical Study of Hydrothermal Deposits from the Noho Site in the mid-Okinawa Trough. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2016”N‘å‰ï (–‹’£C2016”N5ŒŽ)D
156. Sato, H., Nozaki, T., Onoue, T., Kimura, J.-I., Chang, Q., Takaya, Y., Kato, Y. and Suzuki, K.: Marine osmium isotope record across the Middle-Upper Norian transition in the Upper Triassic deep-sea deposits from Mino belt, Japan. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2016”N‘å‰ï (–‹’£C2016”N5ŒŽ)D™µ‘ҍu‰‰™
155. Kinoshita, M., Masaki, Y., Hamada, Y., Tanikawa, W., Kumagai, H. and Nozaki, T.: Spatio-temporal scale of seafloor hydrothermal systems: Constraints from borehole and seafloor observations in the Mid-Okinawa Trough. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2016”N‘å‰ï (–‹’£C2016”N5ŒŽ)D
154. Kato, Y., Fujinaga, K., Nakamura, K., Yasukawa, K., Ohta, J., Takaya, Y., Iijima, K., Machida, S., Nozaki, T., Kimura, J.-I., Suzuki, K., Iwamori, H.: The progress of research on REY-rich mud within the Minamitorishima EEZ. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2016”N‘å‰ï (–‹’£C2016”N5ŒŽ)D
153. Fujinaga, K., Yasukawa, K., Machida, S., Nozaki, T., Takaya, Y., Ohta, J., Oya, K., Niikuma, D., Nishio, Y., Masaki, Y., Usui, Y., Haraguchi, S., Amakawa, H., Iijima, K., Nakamura, K., Suzuki, K., Kato, Y. and MR15-E01 Leg. 2 cruise members: Distribution of extremely REY-rich mud in the southern part of the Minamitorishima EEZ. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2016”N‘å‰ï (–‹’£C2016”N5ŒŽ)D
152. Tsutsumi, S., Ishibashi, J.-I., Nozaki, T. and Takaya, Y.: Occurrence and formation process of kaolin minerals in seafloor hydrothermal fields in the Okinawa Trough. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2016”N‘å‰ï (–‹’£C2016”N5ŒŽ)D
151. Saito, S., Hamada, Y., Tsuji, T., Shiraishi, K., Hsiung, K. H., Eng, C., Yoshimoto, K., Kido, Y., Sanada, Y., Kumagai, H., Nozaki, T., Ishibashi, J.-I., Maeda, L. and CK16-01 Shipboard Party: Deployment of logging while drilling at hydrothermal fields in Okinawa Trough: Preliminary results of CK16-01 Cruise. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2016”N‘å‰ï (–‹’£C2016”N5ŒŽ)D
150. Kumagai, H., Nozaki, T., Ishibashi, J.-I., Maeda, L. and CK16-01 Cruise Member: Preliminary results of the CK16-01 Cruise: Scientific drilling in Okinawa Trough using Logging While Drilling tools and installation of long-term monitoring apparatus. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2016”N‘å‰ï (–‹’£C2016”N5ŒŽ)D
149. Nozaki, T., Ishibashi, J.-I., Kumagai, H., Maeda, L. and CK16-01 Cruise members: Preliminary results of the CK16-01 Cruise: Scientific drilling operations of coring, in-situ thermometer and geothermal logging tool. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2016”N‘å‰ï (–‹’£C2016”N5ŒŽ)D
148. –ìè’B¶EŒF’J‰pŒ›EÎ‹´ƒˆê˜YE‘O“c—æ“ŞECK16-01æ‘DŽÒˆê“¯FCK16-01qŠC‘¬•ñFLWDCMWDC•z—{B‘•’uİ’uCŒŸ‘wƒc[ƒ‹CƒRƒAƒŠƒ“ƒO‚ÌŒ‹‰ÊDŽYŠwŠ¯˜AŒgŒ¤‹†ƒ[ƒNƒVƒ‡ƒbƒv2uŠC’ê”M…z°FŽĞ‰ï‚ğˆÀS‚³‚¹‚é‹à‘®Ž‘Œ¹v(å‘äC2016”N3ŒŽ)D
147. ŒË’ˏC•½E’çÊ‹IEÎ‹´ƒˆê˜YE“‡“c˜a•FE–ìè’B¶E‚’J—Y‘¾˜YEŽRè“OE‚ˆäŒ¤EŒF’J‰pŒ›EìŒûT‰îE‹{è~ˆêE³–Ø—TE‹v•Û—Y‰îE—é–؏Ÿ•FFCK14-04 qŠC‚©‚çÌŽæ‚³‚ꂽ‰«“êƒgƒ‰ƒtŒ@íƒRƒAŽŽ—¿’†‚Ì—°‰»z•¨D“ú–{’n‹…‰»Šw‰ï (‰¡•lC2015”N9ŒŽ)D
146. ‘å‹´—D仁EŒõ‰„¹Eâ“c¹OE—é–Ø—D”üE–q“cŠ°ŽqE–ìè’B¶EìŒûT‰îF[ŠC’ê‚Å‚Ì”÷¶•¨Œ»ê”|—{ŽÀŒ±‚©‚ç•R‰ğ‚­“S‚ğŠî”Õ‚Æ‚µ‚½ŠC’ꉺ”÷¶•¨Œ—F •úŽËŒõŒ¹Xü•ªÍ–@‚ğ‹ìŽg‚µ‚½”÷¶•¨‚É‚æ‚é’nŠk“àƒGƒlƒ‹ƒM[Šl“¾í—ª‚̉𖾁D“ú–{’n‹…‰»Šw‰ï (‰¡•lC2015”N9ŒŽ)D
145. –ìè’B¶EÎ‹´ƒˆê˜YE“‡“c˜a•FE’·£•q˜YEûü’J—Y‘¾˜YE‰Á“¡‘׍_EìŒûT‰îE˜a’Ò’q˜YEa’JŠx‘¢EŽR“c—ºˆêE‰Ž‹´‹ï˜aE‹–³Œ›E‚ˆäŒ¤F‰«“êƒgƒ‰ƒtˆÉ•½‰®–kŠC‹u‚̐lH”M…E‚ğ—˜—p‚µ‚½•z—{BƒvƒƒWƒFƒNƒgD“ú–{’n‹…‰»Šw‰ï (‰¡•lC2015”N9ŒŽ)D
144. ”öã“NŽ¡E²“¡•ô“ìE–ìè’B¶E—é–؏Ÿ•FE’†‘º’qŽ÷E”’ˆä’¼Ž÷EŠC˜VŒ´[FƒWƒ…ƒ‰‹I•t‰Á‘Ì’†‚̃yƒ‹ƒ€Œn|ƒWƒ…ƒ‰Œn‘wóƒ`ƒƒ[ƒg‚É‹L˜^‚³‚ꂽ’n‹…ŠO•¨Ž¿‚Ì•t‰ÁD“ú–{’nŽ¿Šw‰ï (’·–ìC2015”N9ŒŽ)D
143. ‰Á“¡‘׍_EŠâXŒõE’†‘ºŒª‘¾˜YE”öã“NŽ¡E–ìè’B¶E“¡‰iŒöˆê˜YE’¬“cŽkŽ÷E‚’J—Y‘¾˜YEˆÀì˜aFE‘å“c”¹ˆê˜YFŠC‚̍z•¨Ž‘Œ¹‚̉Ȋw‚ƍHŠw‚̐V“WŠJD“ú–{’nŽ¿Šw‰ï (’·–ìC2015”N9ŒŽ)D
142. ‘å–î˜aFEˆÀì˜aFE‘å“c”¹ˆê˜YE“¡‰iŒöˆê˜YE‚’J—Y‘¾˜YE’†‘ºŒª‘¾˜YE–ìè’B¶E”Ñ“‡kˆêE‰Á“¡‘׍_F“ì’¹“‡EEZ“ì•ûŠCˆæ‚É‚¨‚¯‚郌ƒAƒA[ƒXŽ‘Œ¹ƒ|ƒeƒ“ƒVƒƒƒ‹•]‰¿D“ú–{’nŽ¿Šw‰ï (’·–ìC2015”N9ŒŽ)D
141. –ìè’B¶EÎ‹´ƒˆê˜YE“‡“c˜a•FE’·£•q˜YEûü’J—Y‘¾˜YE‰Á“¡‘׍_EìŒûT‰îE˜a’Ò’q˜YEa’JŠx‘¢EŽR“c—ºˆêE‰Ž‹´‹ï˜aE‹–³Œ›E‚ˆäŒ¤F‰«“êƒgƒ‰ƒtˆÉ•½‰®–kŠC‹u‚̐lH”M…E‚ğ—˜—p‚µ‚½•z—{BƒvƒƒWƒFƒNƒgD“ú–{’nŽ¿Šw‰ï (’·–ìC2015”N9ŒŽ)D
140. –ìè’B¶E‰Á“¡‘׍_E—é–؏Ÿ•FF•ÊŽqŒ^z°‚ÌRe-Os”N‘ã‚©‚ç“Ç‚İ‰ğ‚­Œ»¢ŠC’ê”M…z°‚Ì’T¸ŽwjDŽ‘Œ¹‘fŞŠw‰ïH‹G‘å‰ï (¼ŽRC2015”N9ŒŽ)D™µ‘ҍu‰‰™
139. ŒË’ˏC•½E’çÊ‹IEÎ‹´ƒˆê˜YE“‡“c˜a•FE–ìè’B¶E‚’J—Y‘¾˜YEŽRè“OE‚ˆäŒ¤EŒF’J‰pŒ›EìŒûT‰îE‹{è~ˆêE³–Ø—TE‹v•Û—Y‰îE—é–؏Ÿ•FECK14-04qŠCæ‘DŽÒˆê“¯FCK14-04qŠC‚©‚çÌŽæ‚³‚ꂽ‰«“êƒgƒ‰ƒtŒ@íƒRƒAŽŽ—¿’†‚Ì—°‰»z•¨DŽ‘Œ¹’nŽ¿Šw‰ï (“Œ‹žC2015”N6ŒŽ)D
138. Î‹´ƒˆê˜YEŒË’ˏC•½E“‡“c˜a•FE“yŠò’mOE–ìè’B¶F‰«“êƒgƒ‰ƒt”µŠÔŠC‹uŠC’ê”M…ˆæ‚É‚¨‚¯‚é”M…‰»Šw‚ƍz‰»ì—pDŽ‘Œ¹’nŽ¿Šw‰ï (“Œ‹žC2015”N6ŒŽ)D
137. ‚’J—Y‘¾˜YE–ìè’B¶EŽR“c—ºˆêE‰Á“¡‘׍_E—é–؏Ÿ•FFRe-Os“¯ˆÊ‘Ì‚É‚æ‚鏼•ôz°‚Ì”N‘㌈’èDŽ‘Œ¹’nŽ¿Šw‰ï (“Œ‹žC2015”N6ŒŽ)D
136. –ìè’B¶E‚’J—Y‘¾˜YEŽRè“OEŒË’ˏC•½E’çÊ‹IEÎ‹´ƒˆê˜YE‚ˆäŒ¤EŒF’J‰pŒ›EÖ“¡ŽÀ“āEìŒûT‰îE‹{è~ˆêE³–Ø—TE‹v•Û—Y‰îE—é–؏Ÿ•FECK14-04qŠCæ‘DŽÒˆê“¯FCK14-04qŠC‚©‚çÌŽæ‚³‚ꂽ‰«“êƒgƒ‰ƒtŒ@íƒRƒAŽŽ—¿‚ÌŠâ‘ŠE\¬z•¨‹y‚Ñ‘SŠâ‰»Šw‘g¬DŽ‘Œ¹’nŽ¿Šw‰ï (“Œ‹žC2015”N6ŒŽ)D
135. Kuroda, J., Jimenez-Espejo, F., Nozaki, T., Yoshimura, T. and Okouchi, N.: Miocene to Pliocene osmium isotopic record of Mediterranean sediments: new insights into the Messinian Salinity Crisis. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2015”N‘å‰ï (–‹’£C2015”N5ŒŽ)D
134. Tsutsumi, S., Ishibashi, J.-I., Uehara, S., Shimada, K., Miyoshi, Y., Nozaki, T. and Takaya, Y.: Occurrence of hydrothermal kaolin minerals beneath the Iheya North Knoll hydrothermal field in the Okinawa Trough. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2015”N‘å‰ï (–‹’£C2015”N5ŒŽ)D
133. Ishibashi, J.-I., Inoue, H., Totsuka, S., Tsutsumi, S., Misyohi, Y., Nozaki, T., Takaya, Y., Takai, K., Suzuki, K. and CK14-04 Scientific party: Hydrothermal sulfide/sulfate and alteration minerals obtained by drilling below the Iheya North Knoll hydrothermal field. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2015”N‘å‰ï (–‹’£C2015”N5ŒŽ)D
132. Suzuki, K., Goto, K. T., Nozaki, T., Kashiwabara, T., Iijima, K. and Usui, A.: Geochemistry of ferromanganese crust: recent scientific results. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2015”N‘å‰ï (–‹’£C2015”N5ŒŽ)D
131. Kato, Y., Fujinaga, K., Nakamura, K., Yasukawa, K., Ohta, J., Takaya, Y., Iijima, K., Nozaki, T., Kimura, J.-I., Suzuki, K. and Iwamori, H.: REY-rich mud within the Minamitorishima EEZ - A general overview of the latest research results -. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2015”N‘å‰ï (–‹’£C2015”N5ŒŽ)D
130. Kumagai, H., Takai, K., Kubo, Y., Saito, S., Nozaki, T., Yamamoto, H., Yamasaki, T., Suzuki, K. and CK14-04 Cruise members: A kick-off drilling expedition at Iheya-North Knoll in Ore Genesis study of Ocean Resources in SIP. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2015”N‘å‰ï (–‹’£C2015”N5ŒŽ)D
129. Totsuka, S., Nakano, H., Shimada, K., Ishibashi, J.-I. and Nozaki, T.: Mineralogical and Geochemical Study of Hydrothermal Ores from the Hatoma Knoll Hydrothermal Field in the Okinawa Trough. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2015”N‘å‰ï (–‹’£C2015”N5ŒŽ)D
128. Nozaki, T., Takaya, Y., Yamasaki, T., Totsuka, S., Tsutsumi, S., Ishibashi, J.-I., Takai, K., Kumagai, H., Kawagucci, S., Miyazaki, J., Masaki, Y., Kubo, Y., Suzuki, K. and CK14-04 Cruise members: Lithology, constituent mineral, geochemical composition of the drilled core obtained by CK14-04 Cruise, Okinawa Trough. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2015”N‘å‰ï (–‹’£C2015”N5ŒŽ)D
127. ’†“ˆ—º‘¾EŽR–{Œ[”VEìŒûT‰îE‚’J—Y‘¾˜YE–ìè’B¶EChong ChenE“¡‘qŽ‘¥EŽO—Ö“O–çE‚ˆäŒ¤F‰«“êƒgƒ‰ƒtˆÉ•½‰®–k”M…ƒtƒB[ƒ‹ƒh‚É‚¨‚¯‚éŒ@íŒã‚ÌŠC’êŠÂ‹«‚ƃƒKƒxƒ“ƒgƒX‘Š‚̕ω»D“ú–{ŠC—mŠw‰ï 2015”N“xt‹G‘å‰ï (“Œ‹žC2015”N3ŒŽ)D
126. –ìè’B¶E‚’J—Y‘¾˜YEŽRè“OEŒË’ˏC•½E’çÊ‹I EÎ‹´ƒˆê˜YE‚ˆäŒ¤EŒF’J‰pŒ›EìŒûT‰îE‹{è~ˆêE³–Ø—TE‹v•Û—Y‰îE—é–؏Ÿ•FECK14-04qŠCæ‘DŽÒˆê“¯F‰«“êƒgƒ‰ƒtŒ@íƒRƒAŽŽ—¿‚ÌŠâ‘ŠE\¬z•¨‹y‚Ñ‘SŠâ‰»Šw‘g¬Dƒuƒ‹[ƒA[ƒXƒVƒ“ƒ|ƒWƒEƒ€2015 (“Œ‹žC2015”N3ŒŽ)D
125. ‚ˆäŒ¤EŽRè“OEŒF’J‰pŒ›E‹v•Û—Y‰îEÖ“¡ŽÀ“āE–ìè’B¶EŽR–{Œ[”VE—é–؏Ÿ•FECK14-04æ‘DŽÒˆê“¯Fö“ª«”M…z°¬ˆö˜_‚É‚Ş‚¯‚½ŠC’ꉺ”M…Œn‚́u‚¿‚«‚イvŒ@í‚ÌŽŽ‚݁`CK14-04 SIP HOT I gPathfinderh‚ÌŠT—v`Dƒuƒ‹[ƒA[ƒXƒVƒ“ƒ|ƒWƒEƒ€2015 (“Œ‹žC2015”N3ŒŽ)D
124. ûü‹´•üŽqEƒuƒŒƒA ƒ\[ƒ“ƒgƒ“E²“¡ E‘å–؏r•FE–ìè’B¶E—é–؏Ÿ•FEì‰Ô“N•vF[ŠCƒPƒ~ƒJƒ‹ƒJƒƒ‰‚É‚æ‚éŠâÎE‘͐ϕ¨‚ÌŒ»ê‰»Šw¬•ªÍDƒuƒ‹[ƒA[ƒXƒVƒ“ƒ|ƒWƒEƒ€2015 (“Œ‹žC2015”N3ŒŽ)D
123. ’†“ˆ—º‘¾EŽR–{Œ[”VEìŒûT‰îE‚’J—Y‘¾˜YE–ìè’B¶EChon ChengE“¡‘qŽ‘¥EŽO—Ö“O–çE‚ˆäŒ¤F‰«“êƒgƒ‰ƒtˆÉ•½‰®–k”M…ƒtƒB[ƒ‹ƒh‚É‚¨‚¯‚éIODP331Œ@íŒã‚ÌŠC’êŠÂ‹«‚Ɛ¶•¨‘Š‚̕ω»Dƒuƒ‹[ƒA[ƒXƒVƒ“ƒ|ƒWƒEƒ€2015 (“Œ‹žC2015”N3ŒŽ)D
122. ûü’J—Y‘¾˜YE–ìè’B¶EŽR“c—ºˆêE‰Á“¡‘׍_E—é–؏Ÿ•FFRe-Os“¯ˆÊ‘Ì‚É‚æ‚鍕zz°‚Ì”N‘㌈’è‚ÌŽŽ‚݁DŽYŠwŠ¯˜AŒgŒ¤‹†ƒ[ƒNƒVƒ‡ƒbƒvuŠC’ê”M…z°FŽĞ‰ï‚ğˆÀS‚³‚¹‚é‹à‘®Ž‘Œ¹v(å‘äC2015”N2ŒŽ)D
121. ’·£•q˜YEŽR“c—ºˆêEŒI—Ñ‹MOE–ìè’B¶EÎ‹´ƒˆê˜YE‚ˆäŒ¤EìŒûT‰îF“dŽqŒ°”÷‹¾‚É‚æ‚é—°‰»ˆŸ‰”z•¨‚ÌŠÏŽ@‚ƍz°’T¸DŽYŠwŠ¯˜AŒgŒ¤‹†ƒ[ƒNƒVƒ‡ƒbƒvuŠC’ê”M…z°FŽĞ‰ï‚ğˆÀS‚³‚¹‚é‹à‘®Ž‘Œ¹v(å‘äC2015”N2ŒŽ)D
120. –ìè’B¶EÎ‹´ƒˆê˜YE“‡“c˜a•FE’·£•q˜YE‚’J—Y‘¾˜YE‰Á“¡‘׍_EìŒûT‰îE˜a’Ò’q˜YEa’JŠxŽOEŽR“c—ºˆêE‰Ž‹´‹ï˜aE‹–³Œ›E‚ˆäŒ¤FŠC’ê”M…z°‚̐¬ˆöE’n‹…‰»Šw“I“Á’¥‚ƍ•z—{BƒvƒƒWƒFƒNƒg‚̏ЉîDŽYŠwŠ¯˜AŒgŒ¤‹†ƒ[ƒNƒVƒ‡ƒbƒvuŠC’ê”M…z°FŽĞ‰ï‚ğˆÀS‚³‚¹‚é‹à‘®Ž‘Œ¹v(å‘äC2015”N2ŒŽ)D
119. –ìè’B¶E‰Á“¡‘׍_E—é–؏Ÿ•FFRe-Os“¯ˆÊ‘Ì‚É‚æ‚é•ÊŽqŒ^z°‚̐¶¬”N‘㌈’è‚Ɛ¬ˆö‚̉𖾁DŽYŠwŠ¯˜AŒgŒ¤‹†ƒ[ƒNƒVƒ‡ƒbƒvuŠC’ê”M…z°FŽĞ‰ï‚ğˆÀS‚³‚¹‚é‹à‘®Ž‘Œ¹v(å‘äC2015”N2ŒŽ)D
118. —é–؏Ÿ•FEŒã“¡F‰îE–ìè’B¶E”Œ´‹P•FE”Ñ“‡kˆêE‰Pˆä˜NE‰Y•Ó“O˜YFƒ}ƒ“ƒKƒ“ƒNƒ‰ƒXƒg‚̐¬’·‘¬“x‚ÆŒ³‘f”ZWƒƒJƒjƒYƒ€|ÅV‚̉ȊwŒ¤‹†¬‰Ê‚æ‚è|DTechno-Ocean 2014@(_ŒËC2014”N10ŒŽ)D
117. ‰Á“¡‘׍_E—é–؏Ÿ•FE’†‘ºŒª‘¾˜YE“¡‰iŒöˆê˜YEûü’J—Y‘¾˜YE’¬“cŽkŽ÷EˆÀì˜aFE‘å“c”¹ˆê˜YE”Ñ“‡kˆêE”Œ´‹P•FE–ìè’B¶E–Ø‘ºƒˆêEŠâXŒõF“ì’¹“‡ƒŒƒAƒA[ƒX“DFŒ¤‹†‚̍őOü‚ÆŠJ”­‚É‚Ş‚¯‚½Žæ‚è‘g‚݁DTechno-Ocean 2014@(_ŒËC2014”N10ŒŽ)D
116. —é–؏Ÿ•FE–ìè’B¶E”Ñ“‡kˆêE‚’J—Y‘¾˜YE“¡‰iŒöˆê˜YE‰Á“¡‘׍_FOs“¯ˆÊ‘Ì‘w˜‚É‚æ‚é“ì’¹“‡Žü•Ó‚̐ԐF”S“y‘͐ϕ¨‚̑͐ϔN‘㌈’è‚ÌŽŽ‚݁D“ú–{’n‹…‰»Šw‰ï (•xŽRC2014”N9ŒŽ)D
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114. ”öã“NŽ¡E²“¡•ô“ìE’rŒ´ŽÀE‚’J—Y‘¾˜YE–ìè’B¶E“¡‰iŒöˆê˜YE‰Á“¡‘׍_FŽOô‹IŒãŠú覐ΏՓ˃Cƒxƒ“ƒg‚É‚¨‚¯‚鐶•¨¶ŽY•Ï“®‚Æ•úŽU’ŽŒQW‘g¬‚̕ω»D“ú–{’nŽ¿Šw‰ï (Ž­Ž™“‡C2014”N9ŒŽ)D
113. ²“¡•ô“ìE”öã“NŽ¡Eûü’J—Y‘¾˜YE“¡‰iŒöˆê˜YE‰Á“¡‘׍_E–ìè’B¶E´ì¹ˆêFŽOô‹IŒãŠú覐ΏՓ˃Cƒxƒ“ƒg‚É‚¨‚¯‚é‘wóƒ`ƒƒ[ƒg‚ÌŽå—vE”÷—ÊŒ³‘f‘g¬D“ú–{’nŽ¿Šw‰ï (Ž­Ž™“‡C2014”N9ŒŽ)D
112. —é–؏Ÿ•FE–ìè’B¶E”Ñ“‡kˆêE‚’J—Y‘¾˜YE“¡‰iŒöˆê˜YE‰Á“¡‘׍_FOs “¯ˆÊ‘Ì‘w˜‚É‚æ‚é“ì’¹“‡Žü•Ó‚̃ŒƒAƒA[ƒX‘͐ϕ¨‚̑͐ϔN‘ãD“ú–{’nŽ¿Šw‰ï (Ž­Ž™“‡C2014”N9ŒŽ)D
111. “¡‰iŒöˆê˜YE‰Á“¡‘׍_E’†‘ºŒª‘¾˜YE—é–؏Ÿ•FEûü’J—Y‘¾˜YE’¬“cŽkŽ÷EˆÀì˜aFE‘å“c”¹ˆê˜YEr–؏C•½E—«Š¿·E‰F²”ü—ȁE–q—º‘¾EŒ´ŒûŒåE”Ñ“‡kˆêE’¬ŽR‰hÍE–ìè’B¶E¼”ö‰Ã˜NE‰Pˆä—mˆêEŽRèrŽkF“ì’¹“‡EEZ‚Å”­Œ©‚³‚ꂽƒŒƒAƒA[ƒX“D‚Ì’n‹…‰»Šw“I“Á’¥D“ú–{’nŽ¿Šw‰ï (Ž­Ž™“‡C2014”N9ŒŽ)D
110. ‰Á“¡‘׍_E—é–؏Ÿ•FE’†‘ºŒª‘¾˜YEûü’J—Y‘¾˜YE’¬“cŽkŽ÷EˆÀì˜aFE‘å“c”¹ˆê˜YE–ìè’B¶E”Ñ“‡kˆêEŠâXŒõF“ì’¹“‡EEZ‚̃ŒƒAƒA[ƒX“Dz°‚ÌŠJ”­‚ğ–ÚŽw‚µ‚āD“ú–{’nŽ¿Šw‰ï (Ž­Ž™“‡C2014”N9ŒŽ)D
109. –ìè’B¶E“ñŠK“°’Eûü’J—Y‘¾˜YE—é–؏Ÿ•FE‰Á“¡‘׍_E”öã“NŽ¡E²“¡•ô“ìE¼‰ª“āF”ü”Z‘эâjƒZƒNƒVƒ‡ƒ“‚Ì‘wóƒ`ƒƒ[ƒg‚©‚ç•œŒ³‚µ‚½ŽOô‹IŠC…Os“¯ˆÊ‘Ì”ä•Ï“®D“ú–{’nŽ¿Šw‰ï (Ž­Ž™“‡C2014”N9ŒŽ)D
108. –ìè’B¶EŒã“¡F‰îEûü’J—Y‘¾˜YE—é–؏Ÿ•FE‰º“cŒºE–Ø‘ºƒˆêEíÂE’¬“cŽkŽ÷EÎˆä‹PHE´…Œ’“ñE•½–ì’¼lF“ì’¹“‡EEZ“Œ•”‚É•ª•z‚·‚éMn’c‰ò‚ÌOs”N‘㌈’èD“ú–{’nŽ¿Šw‰ï (Ž­Ž™“‡C2014”N9ŒŽ)D
107. ’·£•q˜YE–ìè’B¶EÎ‹´ƒˆê˜YEŽR“c—ºˆêE‚ˆäŒ¤EìŒûT‰îEŒI—Ñ‹MOF‰«“êƒgƒ‰ƒtgzero-age chimneyh‚ł̃Eƒ‹ƒcz‚Ì‘gD‚ÆŒ`¬‰ß’öDŽ‘Œ¹’nŽ¿Šw‰ï (“Œ‹žC2014”N6ŒŽ)D
106. –ìè’B¶Eûü’J—Y‘¾˜YEÎ‹´ƒˆê˜YE’·Œ´³lE‚ˆäŒ¤ENT11-20qŠCæ‘DŒ¤‹†ŽÒENT13-09qŠCæ‘DŒ¤‹†ŽÒF“ú–{‚ÌEEZ‚Ɉʒu‚·‚éŠC’ê”M…z°‚Ì’n‹…‰»Šw“I“Á’¥DŽ‘Œ¹’nŽ¿Šw‰ï (“Œ‹žC2014”N6ŒŽ)D
105. –ìè’B¶E‰Á“¡‘׍_E—é–؏Ÿ•FFRe-Os•úŽË‰ó•ÏŒn‚ğ—˜—p‚µ‚½z°‚̐¶¬”N‘㌈’èF‚»‚ÌŒ´—‚Ɖž—pDŽ‘Œ¹’nŽ¿Šw‰ï (“Œ‹žC2014”N6ŒŽ)D™µ‘ҍu‰‰™
104. Nakamura, K., Machida, S., Fujinaga, K., Kato, Y., Suzuki, K., Takaya, Y., Yasukawa, K., Ota, J., Haraguchi, S., Araki, S., Liu, H., Usami, R., Maki, R., Iujima, K., Nishio, Y., Usui, Y., Nozaki, T., MR13-E02 Leg 2 Cruise members and KR14-02 Cruise members: Distribution and characteristics of REY-rich mud in the Minamitorishima EEZ inferred by sub-bottom profiling. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2014”N‘å‰ï (‰¡•lC2014”N4ŒŽ).
103. Suzuki, K., Iijima, K., Kato, Y., Fujinaga, K., Kashiwabara, T., Nakamura, K., Machida, S., Nozaki, T., Takaya, Y., Yasukawa, K., Ota, J., Haraguchi, S., Araki, S., Liu, H., Nishio, Y. and Usui, Y.: REY-rich mud deposits around Minamitorishima Island -General overview and future research plan-.“ú–{’n‹…˜f¯‰ÈŠw˜A‡2014”N‘å‰ï (‰¡•lC2014”N4ŒŽ).
102. Fujinaga, K., Kato, Y., Nakamura, K., Suzuki, K., Machida, S., Takaya, Y., Yasukawa, K., Ohta, J., Haraguchi, S., Araki, S., Liu, H., Usami, R., Maki, R., Iijima, K., Nishio, Y., Usui, Y., Nozaki, T., MR13-E02 Leg. 2 cruise members and KR14-02 cruise members: Geochemical features of rare-earth elements and yttrium-rich mud from the north region of the Minamitorishima EEZ. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2014”N‘å‰ï (‰¡•lC2014”N4ŒŽ).
101. Tokumaru, A., Zhu, Y., Nozaki, T., Takaya, Y., Goto, K., Suzuki, K., Chang, Q., Kimura, J.-I., Kato, Y., Usui, A., Urabe, T. and Suzuki, Y.: Comparing rare earth elements in the surface layers of ferromanganese crusts and ambient seawater from the Takuyo Daigo Seamount. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2014”N‘å‰ï (‰¡•lC2014”N4ŒŽ).
100. Sato, H., Yamashita, K., Yoneda, S., Shirai, N., Ebihara, M., Nozaki, T., Suzuki, K. and Onoue, T.: Geochemical identification of projectile from the Upper Triassic ejecta deposits in Japan. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2014”N‘å‰ï (‰¡•lC2014”N4ŒŽ).
99. Goto, K. T., Ito, T., Suzuki, K., Kashiwabara, T., Takaya,, Y., Shimoda, G., Nozaki, T., Kiyokawa, S., Tetteh, G. M. and Nyame, F. K.: Geochemistry of the Nsuta Mn deposit in Ghana: Implications for the Paleoproterozoic ocean redox state. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2014”N‘å‰ï (‰¡•lC2014”N4ŒŽ).
98. Goto, K. T., Anbar, A. D., Gordon, G. W., Romaniello, S. J., Shimoda, G., Takaya, Y., Tokumaru, A., Nozaki, T., Suzuki, K., Machia, S., Hanyu,T. and Usui, A.: Uranium isotope composition in ferromanganese crusts: Implications for the paleocean redox proxy. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2014”N‘å‰ï (‰¡•lC2014”N4ŒŽ).
97. Nozaki, T., Goto, K. T., Tokumaru, A., Takaya, Y., Suzuki, K., Chang, Q., Kimura, J.-I., Kato, Y., Shimoda, G., Toyofuku, T., Usui, A. and Urabe, T.: Is the growth hiatus of ferromanganese crusts a local or global event? “ú–{’n‹…˜f¯‰ÈŠw˜A‡2014”N‘å‰ï (‰¡•lC2014”N4ŒŽ).
96. Nozaki, T., Goto, K. T., Tokumaru, A., Takaya, Y., Suzuki, K., Chang, Q., Kimura, J.-I., Kato, Y., Shimoda, G., Toyofuku, T., Usui, A. and Urabe, T.: Os isotope stratigraphy of a ferromanganese crust: Its principles and applications. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2014”N‘å‰ï (‰¡•lC2014”N4ŒŽ).
95. ‘åéŒõ—mE‚”¨’¼lE²–ì—LŽiEŽ­Ž™“‡ÂŒåE–ìè’B¶E’·Œ´³lEÎ‹´ƒˆê˜YF”M…«zÎ‚Ì—¬‘Ì•ï—L•¨’†‚Ì“¯ˆÊ‘Ì‘g¬‚©‚猩‚½’¾‚ݍž‚İ‘Ñ‚É‚¨‚¯‚éŠö”­«Œ³‘f‚Ì•¨Ž¿zŠÂD“ú–{Ž¿—Ê•ªÍŠw‰ï“¯ˆÊ‘̔䕔‰ï (L“‡C2013”N12ŒŽ)D
94. –ìè’B¶F’n‹…‰»Šw‚ÆROV‚ªØ‚è‘ñ‚­ƒRƒoƒ‹ƒgƒŠƒbƒ`ƒNƒ‰ƒXƒgŒ¤‹†‚̍őOüD“ú–{‰»Šw‰ïH‹GŽ–‹ÆCSJ‰»ŠwƒtƒFƒXƒ^2013 (“Œ‹žC2013”N10ŒŽ)D™µ‘ҍu‰‰™
93. —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–ìè’B¶EKR13-02 æ‘DŽÒˆê“¯F“ì’¹“‡Žü•Ó‚É‚¨‚¯‚鍂”Z“xƒŒƒAƒA[ƒX“D‚Ì•ª•zó‹µ‚Ɖ»Šw“I“Á’¥D“ú–{’nŽ¿Šw‰ï (å‘äC2013”N9ŒŽ)D™µ‘ҍu‰‰™
92. ‰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“¯F“ì’¹“‡ƒŒƒAƒA[ƒX“DŒ¤‹†‚̍őOüD“ú–{’nŽ¿Šw‰ï (å‘äC2013”N9ŒŽ)D™µ‘ҍu‰‰™
91. àV–Ø—C‰îE–ìè’B¶Eå“c—ÊŽqE—é–؏Ÿ•FE¬‹{„FƒGƒfƒBƒAƒJƒ‰‹IŒãŠúAƒJƒ“ƒuƒŠƒA‹I‰Šú‚ÌŽ_‰»“IŠC—mD“ú–{’nŽ¿Šw‰ï (å‘äC2013”N9ŒŽ)D
90. ”öã“NŽ¡E²“¡•ô“ìE–ìè’B¶E”’ˆä’¼Ž÷EŠC˜VŒ´[E—é–؏Ÿ•FFŽOô‹IV¢‚Ì覐ΏՓˑw€‚É‚¨‚¯‚é‘͐ϑŠ‚¨‚æ‚Ñ•úŽU’ŽŒQW‘g¬‚̐‚’¼•Ï‰»D“ú–{’nŽ¿Šw‰ï (å‘äC2013”N9ŒŽ)D
89. ²“¡•ô“ìE”’ˆä’¼Ž÷EŠC˜VŒ´[E–ìè’B¶E—é–؏Ÿ•FE”öã“NŽ¡F‰“—m«‘͐ϊ⒆‚Ì”’‹à‘°Œ³‘f‘g¬‚É‚à‚Ƃ­ŽOô‹IV¢Õ“Ë覐΂̋NŒ¹‚ƃTƒCƒYŒˆ’èD“ú–{’nŽ¿Šw‰ï (å‘äC2013”N9ŒŽ)D
88. —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–ìè’B¶EKR13-02 æ‘DŽÒˆê“¯FKR13-02 ’²¸qŠC‚Å“¾‚ç‚ꂽ“ì’¹“‡Žü•Ó‚É‚¨‚¯‚鍂”Z“xƒŒƒAƒA[ƒX“D‚Ì‹óŠÔ•ª•z‚Ɖ»Šw“I“Á’¥D“ú–{’n‹…‰»Šw‰ï (’}”gC2013”N9ŒŽ)D
87. ‘åéŒõ—mEŽ­Ž™“‡ÂŒåE‚”¨’¼lE²–ì—LŽiE’·Œ´³lE–ìè’B¶EÎ‹´ƒˆê˜YF”M…«zÎ”M…«zÎ‚Ì—¬‘Ì•ï—L•¨’†—¬‘Ì•ï—L•¨’†‚Ì’‚‘f“¯ˆÊ‘Ì”ä‚Æ’‚‘f‚Ì‹NŒ¹D“ú–{’n‹…‰»Šw‰ï (’}”gC2013”N9ŒŽ)D
86. ”Œ´‹P•FEŒË“c—²ˆêEˆÀì˜aFE“¡‰iŒöˆê˜YE’†‘ºŒª‘¾˜YE–ìè’B¶E‚‹´‰Ã•vE—é–؏Ÿ•FE‰Á“¡‘׍_F•úŽËŒõ‚ğ—p‚¢‚½“ì“Œ‘¾•½—mƒŒƒAƒA[ƒX“D‚ւ̃ŒƒAƒA[ƒX”ZWƒƒJƒjƒYƒ€‚̉𖾁D“ú–{’n‹…‰»Šw‰ï (’}”gC2013”N9ŒŽ)D
85. Œã“¡F‰îEˆÉ“¡FE—é–؏Ÿ•FE”Œ´‹P•FEûü’J—Y‘¾˜YE‰º“cŒºE–ìè’B¶Eå“c—ÊŽqE´ì¹ˆêFrank K. NyameFŒ´¶‘ã‘OŠúƒK[ƒiEƒGƒ“ƒXƒ^ƒ}z°‚Ì’n‹…‰»Šw“I“Á’¥FŠC—mŽ_‰»ŠÒŒ³ŠÂ‹«‚Ö‚ÌŽ¦´D“ú–{’n‹…‰»Šw‰ï (’}”gC2013”N9ŒŽ)D
84. ”öã“NŽ¡E²“¡•ô“ìE–ìè’B¶E—é–؏Ÿ•FFŽOô‹IŒãŠú‚Ì覐ΏՓ˃Cƒxƒ“ƒg‚Æ•úŽU’ŽŒQW•Ï‰»D“ú–{ŒÃ¶•¨Šw‰ï”N‰ï (ŒF–{C2013”N6ŒŽ)D
83. ‰Á“¡‘׍_E–ìè’B¶Eûü’J—Y‘¾˜YE“¡‰iŒöˆê˜YE’¬“cŽkŽ÷E’†‘ºŒª‘¾˜YFƒRƒoƒ‹ƒgƒŠƒbƒ`ƒNƒ‰ƒXƒg‚ÌŽ‘Œ¹ƒ|ƒeƒ“ƒVƒƒƒ‹‚¨‚æ‚ÑŠJ”­‰Â”\«‚̍ČŸ“¢DŽ‘Œ¹’nŽ¿Šw‰ï (“Œ‹žC2013”N6ŒŽ)D
82. ”Œ´‹P•FEŒË“c—²ˆêEˆÀì˜aFE“¡‰iŒöˆê˜YE’†‘ºŒª‘¾˜YE–ìè’B¶E‚‹´‰Ã•vE—é–؏Ÿ•FE‰Á“¡‘׍_F•úŽËŒõ‚ğ—p‚¢‚½ƒzƒXƒg‘Š“¯’è‚ÉŠî‚­ƒŒƒAƒA[ƒX“D‚̐¶¬ƒƒJƒjƒYƒ€DŽ‘Œ¹’nŽ¿Šw‰ï (“Œ‹žC2013”N6ŒŽ)D
81. “¡‰iŒöˆê˜YE‰Á“¡‘׍_E’†‘ºŒª‘¾˜YE—é–؏Ÿ•FE’¬“cŽkŽ÷EŒ´ŒûŒåEˆÀì˜aFE‘å“c”¹ˆê˜YE”Ñ“‡kˆêE’¬ŽR‰hÍE¼”ö‰Ã˜NE–ìè’B¶EKR13-02 æ‘DŽÒˆê“¯F“ì’¹“‡EEZ “à‚Å”­Œ©‚³‚ꂽ’´‚”Z“xƒŒƒAƒA[ƒX“DDŽ‘Œ¹’nŽ¿Šw‰ï (“Œ‹žC2013”N6ŒŽ)D
80. —é–؏Ÿ•FE‰Á“¡‘׍_E”Ñ“‡kˆêE’†‘ºŒª‘¾˜YE¼”ö‰Ã˜NE’¬ŽR‰hÍE“¡‰iŒöˆê˜YE’¬“cŽkŽ÷EŒ´ŒûŒåEˆÀì˜aFE‘å“c”¹ˆê˜YE–ìè’B¶EKR13-02 æ‘DŽÒˆê“¯F“ì’¹“‡Žü•Ó‚É‚¨‚¯‚鍂”Z“xƒŒƒAƒA[ƒX“D‚Ì•ª•zó‹µDŽ‘Œ¹’nŽ¿Šw‰ï (“Œ‹žC2013”N6ŒŽ)D
79. ‰Á“¡‘׍_E“¡‰iŒöˆê˜YE’†‘ºŒª‘¾˜YE—é–؏Ÿ•FE’¬“cŽkŽ÷EŒ´ŒûŒåEˆÀì˜aFE‘å“c”¹ˆê˜YE”Ñ“‡kˆêE’¬ŽR‰hÍE¼”ö‰Ã˜NE–ìè’B¶EŠâXŒõEKR13-02 æ‘DŽÒˆê“¯F“ì’¹“‡ƒŒƒAƒA[ƒX“Dz°‚̍ŐV‚ÌŒ¤‹†¬‰Ê‚ÆŠJ”­‚ÉŒü‚¯‚½Žæ‚è‘g‚݁DŽ‘Œ¹’nŽ¿Šw‰ï (“Œ‹žC2013”N6ŒŽ)D
78. –ìè’B¶EÎ‹´ƒˆê˜YE“‡“c˜a•FEûü’J—Y‘¾˜YE‰Á“¡‘׍_EìŒûT‰îEa’JŠx‘¢E’·£•q˜YEŽR“c—ºˆêE‚ˆäŒ¤F‰«“êƒgƒ‰ƒtgzero-age chimneyh‚Ì‹LÚŠw“IE’n‹…‰»Šw“I“Á’¥‚ÉŠî‚­•zz°‚̐¬ˆöƒ‚ƒfƒ‹DŽ‘Œ¹’nŽ¿Šw‰ï (“Œ‹žC2013”N6ŒŽ)D
77. Kato, Y., Suzuki, K., Fujinaga, K., Nakamura, K., Machida, S., Haraguchi, S., Yasukawa, K., Ohta, J., Iijima, K., Machiyama, H., Nishio, Y., Nozaki, T., Iwamori, H. and KR13-02 cruise members: REY-rich deposits around Minamitorishima -General overview-.“ú–{’n‹…˜f¯‰ÈŠw˜A‡2013”N‘å‰ï (–‹’£C2013”N5ŒŽ). ™µ‘ҍu‰‰™
76. Suzuki, K., Kato, Y., Iijima, K., Nakamura, K., Nishio, Y., Machiyama, H., Fujinaga, K., Machida, S., Haraguchi, S., Yasukawa, K., Ohta, J., Nozaki, T. and KR13-02 cruise members. Reports from KR13-02 cruise on spacial discribution of REY-rich mud on deep-sea floor around Minami-Tori-Shima Island. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2013”N‘å‰ï (–‹’£C2013”N5ŒŽ).
75. Fujinaga, K., Kato, Y., Nakamura, K., Suzuki, K., Machida, S., Haraguchi, S., Yasukawa, K., Ohta, J., Iijima, K., Machiyama, H., Nishio, Y., Nozaki, T. and KR13-02 cruise members: Geochemical features and origin of REY-rich mud in the Minami-torishima EEZ. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2013”N‘å‰ï (–‹’£C2013”N5ŒŽ).
74. Nakamura, K., Machida, S., Iijima, K., Nishio, Y., Machiyama, H., Suzuki, K., Kato, Y., Fujinaga, K., Haraguchi, S., Yasukawa, K., Ohta, J., Nozaki, T. and KR13-02 cruise members: Areal survey of rare-earth mud using sub-bottom profiler in the Minami-torishima EEZ. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2013”N‘å‰ï (–‹’£C2013”N5ŒŽ).
73. Usui, A., Sato, H., Nishi, K., Sakaguchi, A., Inoue, M., Takahashi, Y., Thornton, B., Tokumaru, A., Urabe, T., Nitahara, S., Goto, K., Oda, H., Morishita, Y., Yamaoka, K., Kashiwabara, T., Nozaki, T., Suzuki, K. and Ito, T.: Growth Process and Metal Accumulation of Hydrogenetic Ferromanganese Crusts: Joint Study in the NW Pacific Seamounts. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2013”N‘å‰ï (–‹’£C2013”N5ŒŽ).
72. Kuroda, J., Francisco J. Jimenez-Espejo, Nozaki, T. and Suzuki, K.: Neogene history of Mediterranean hydrology based on sedimentary osmium isotopic records. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2013”N‘å‰ï (–‹’£C2013”N5ŒŽ).
71. Goto, K., Ito, T., Suzuki, K., Takaya, Y., Shimoda, G., Nozaki, T., Senda, R., Kiyokawa, S. and Nyame, F. K.: Geochemistry of the Paleoproterozoic Nsuta Mn deposit of Ghana: Implication to the atmosphere and ocean redox state. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2013”N‘å‰ï (–‹’£C2013”N5ŒŽ).
70. Goto, K., Nozaki, T., Suzuki, K., Tokumaru, A., Usui, A., Chang, Q., Kimura, J.-I. and Urabe, T.: Growth history of Fe-Mn crusts in the northwest Pacific Ocean: Insights from trace element and Os isotope geochemistry. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2013”N‘å‰ï (–‹’£C2013”N5ŒŽ).
69. Onoue, T., Sato, H., Nozaki, T., Kuroda, J. and Suzuki, K.: Meteorite impact, volcanism, and radiolarian faunal turnover recorded in the Upper Triassic bedded chert in Japan. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2013”N‘å‰ï (–‹’£C2013”N5ŒŽ).
68. Nozaki, T., Goto, K., Tokumaru, A., Takaya, Y., Suzuki, K., Chang, Q., Kimura, J.-I., Kato, Y., Shimoda, G., Usui, A. and Urabe, T.: Os isotope stratigraphy of ferromanganese crust in the Pacific Ocean and Philippine Sea. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2013”N‘å‰ï (–‹’£C2013”N5ŒŽ).
67. –ìè’B¶EÎ‹´ƒˆê˜YE“‡“c˜a•FEûü’J—Y‘¾˜YE‰Á“¡‘׍_EìŒûT‰îEa’JŠx‘¢E‚ˆäŒ¤F—{B•z‰ğ‘̐V‘Dƒuƒ‹[ƒA[ƒXƒVƒ“ƒ|ƒWƒEƒ€2013 (“Œ‹žC2013”N3ŒŽ)D
66. Î‹´ƒˆê˜YE–ìè’B¶Ea’JŠx‘¢E‚ˆäŒ¤F‰«“êƒgƒ‰ƒt”M…Šˆ“®ˆæ‚©‚çÌŽæ‚³‚ꂽ”M…«zÎ‚Ì”÷—ÊŒ³‘f‘g¬Dƒuƒ‹[ƒA[ƒXƒVƒ“ƒ|ƒWƒEƒ€2013 (“Œ‹žC2013”N3ŒŽ)D
65. •“cˆê˜YEFrancisco J. Jimenez-EspejoE–ìè’B¶E—é–؏Ÿ•FF’†V¢‚Ì’nŠCŒÇ—§‚Əö”­DŒÃŠC—mƒVƒ“ƒ|ƒWƒEƒ€ (“Œ‹žC2013”N1ŒŽ)D
64. Œã“¡F‰îE–ìè’B¶E—é–؏Ÿ•FE“¾ŠÛˆº‰ÁE‰Pˆä˜NEíÂE–Ø‘ºƒˆêE‰Y•Ó“O˜YENT09-02‹y‚ÑKY11-02qŠCæ‘DŽÒˆê“¯F“Sƒ}ƒ“ƒKƒ“ƒNƒ‰ƒXƒg‚ÌOs“¯ˆÊ‘Ì”ä‘w˜F¬’·ƒnƒCƒGƒ^ƒX‰¼à‚ÌŒŸØ‚ÉŒü‚¯‚āD“ú–{’nŽ¿Šw‰ï (‘åãC2012”N9ŒŽ)D
63. ²“¡•ô“ìE”öã“NŽ¡E–ìè’B¶E—é–؏Ÿ•FF”ü”Z‘Ñ‘wóƒ`ƒƒ[ƒg‚ÌOs“¯ˆÊ‘Ì‘g¬‚©‚ç•œŒ³‚³‚ꂽŽOô‹IŒãŠú“V‘̏Փ˃Cƒxƒ“ƒgD“ú–{’nŽ¿Šw‰ï (‘åãC2012”N9ŒŽ)D
62. –ìè’B¶F‚¢‚܁C‚Ó‚½‚½‚т̍z°Šw‚ցD“ú–{’n‹…‰»Šw‰ïŽáŽèƒVƒ“ƒ|ƒWƒEƒ€ (•Ÿ‰ªC2012”N9ŒŽ)D™µ‘ҍu‰‰™
61. Œã“¡F‰îE–ìè’B¶E—é–؏Ÿ•FE“¾ŠÛˆº‰ÁE‰Pˆä˜NEíÂE–Ø‘ºƒˆêE‰Y•Ó“O˜YENT09-02‚¨‚æ‚ÑKY11-02qŠCæ‘DŽÒˆê“¯F“Sƒ}ƒ“ƒKƒ“ƒNƒ‰ƒXƒg‚ÌOs“¯ˆÊ‘Ì”ä‘w˜D“ú–{’n‹…‰»Šw‰ï (•Ÿ‰ªC2012”N9ŒŽ)D
60. •“cˆê˜YEJimenez-Espejo, F. J.E–ìè’B¶E—é–؏Ÿ•FFƒIƒXƒ~ƒEƒ€“¯ˆÊ‘Ì‚©‚ç‚İ‚½’n’†ŠCƒƒbƒVƒjƒAƒ“‰–•ªŠë‹@D“ú–{’n‹…‰»Šw‰ï (•Ÿ‰ªC2012”N9ŒŽ)D
59. ³–Ø—TEa’JŠx‘¢E‹gè‚à‚ÆŽqE–ìè’B¶E—é–؏Ÿ•FE‚ˆäŒ¤F”µŠÔŠC‹u”M…ˆæ‚©‚çÌŽæ‚³‚ꂽƒfƒCƒTƒCƒg‚ğ—p‚¢‚½”M…”½‰žŽÀŒ±‚Ì‘g¬•ªÍŒ‹‰ÊD“ú–{’n‹…‰»Šw‰ï (•Ÿ‰ªC2012”N9ŒŽ)D
58. –ìè’B¶EÎ‹´ƒˆê˜YE²“¡•¶Š°E¼—Ñ—C^E–L“cVEˆé•””ŽŽuEa’JŠx‘¢E‚ˆäŒ¤E²“¡’¨E—é–؏Ÿ•FENT11-20qŠCæ‘DŒ¤‹†ŽÒFNT11-20qŠC•ñF‰«“êƒgƒ‰ƒtŠC’ê”M…z°‚Ì’n‹…‰»Šw“I“Á’¥DŽ‘Œ¹’nŽ¿Šw‰ï (“Œ‹žC2012”N6ŒŽ)D
57. –ìè’B¶E‰Á“¡‘׍_E—é–؏Ÿ•FE‰Á£Ž—YF“ú—§•s“®‘êz°‚¨‚æ‚Ñ“¡Œ©z°‚ÌRe-Os”N‘㌈’èF“ú–{—ñ“‡ÅŒÃ‚̍z°DŽ‘Œ¹’nŽ¿Šw‰ï (“Œ‹žC2012”N6ŒŽ)D
56. Œã“¡F‰îE–ìè’B¶E—é–؏Ÿ•FE“¾ŠÛˆº‰ÁE‰Pˆä˜NEíÂE–Ø‘ºƒˆêE‰Y•Ó“O˜YENT09-02æ‘DŽÒˆê“¯FOs“¯ˆÊ‘Ì”ä‘g¬‚ÉŠî‚­Fe-MnƒNƒ‰ƒXƒg‚̐¶¬”N‘㌈’èDŽ‘Œ¹’nŽ¿Šw‰ï (“Œ‹žC2012”N6ŒŽ)D
55. Î‹´ƒˆê˜YE“‡“c˜a•FE–ìè’B¶Eûü’J—Y‘¾˜YE‰Á“¡‘׍_EìŒûT‰îE˜a’Ò’q˜YE‚ˆäŒ¤FlH”M…•¬oE‚ɐ¬’·‚µ‚½”M…«ƒ`ƒ€ƒj[‚̍z•¨Šw“IE‰»Šw“I“Á’¥DŽ‘Œ¹’nŽ¿Šw‰ï (“Œ‹žC2012”N6ŒŽ)D
54. Nozaki, T., Goto, K., Tokumaru, A., Takaya, Y., Suzuki, K., Chang, Q., Kimura, J.-I., Kato, Y., Usui, A., Urabe, T. and NT09-02 Cruise Member: Deciphering the chemical evolution of the Cenozoic seawater using ferromanganese crust. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2012”N‘å‰ï (–‹’£C2012”N5ŒŽ).
53. Goto, K., Nozaki, T., Suzuki, K., Tokumaru, A., Usui, A., Chang, Q., Kimura, J.-I., Urabe, T. and NT09-02 cruise member: Temporal and spatial variation in growth rates of Fe-Mn crusts from the #5 Takuyo Smt using osmium isotope compositions. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2012”N‘å‰ï (–‹’£C2012”N5ŒŽ).
52. Nozaki, T., Kato, Y., Suzuki, K. and Kase, K.: Re-Os geochronology of the Hitachi VMS deposit, Ibaraki Prefecture: The oldest sulfide deposit in the Japanese Island. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2012”N‘å‰ï (–‹’£C2012”N5ŒŽ).
51. Tokumaru, A., Nozaki, T., Suzuki, K., Goto, K., Takaya, Y., Chang, Q., Kato, Y., Usui, A., Urabe, T. and NT09-02 cruise member: Growth rate determination of ferromanganese crusts from the Takuyo Daigo Seamount using an osmium isotope stratigraphy. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2012”N‘å‰ï (–‹’£C2012”N5ŒŽ).
50. Ooki, M., Miyoshi, Y., Shimada, K., Ishibashi, J. and Nozaki, T.: Mineralogy and geochemistry of hydrothermal ores collected from active hydrothermal fields in shallow water depth. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2012”N‘å‰ï (–‹’£C2012”N5ŒŽ).
49. Ishibashi, J., Ooki, M., Shimada, K., Nozaki, T., Yoshizumi, R. and Urabe, T.: Diversity of seafloor massive sulfide ores in the Okinawa Trough. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2012”N‘å‰ï (–‹’£C2012”N5ŒŽ).
48. Î‹´ƒˆê˜YE‘åéŒõ—mEŽOD—zŽqE“‡“c˜a•FE‹gZ—ºlE‹àXr‘¾˜YE‰Y•Ó“O˜YE–ìè’B¶E²“¡•¶Š°E–L“cVE¼—Ñ—C^Eˆé•””ŽŽuE‰¡£‹v–FE²“¡’¨ENT11-15 qŠCENT11-20 qŠCæ‘DŒ¤‹†ŽÒF‰«“êƒgƒ‰ƒt”M…•¬oˆæ‚É•ª•z‚·‚é”M…«zÎ‚Ì‘½—l«Dƒuƒ‹[ƒA[ƒXƒVƒ“ƒ|ƒWƒEƒ€2012 (“Œ‹žC2012”N2ŒŽ)D
47. –ìè’B¶E“¾ŠÛˆº‰ÁEŒã“¡F‰îEûü’J—Y‘¾˜YE—é–؏Ÿ•FEíÂE‰Á“¡‘׍_E‰Pˆä˜NE‰Y•Ó“O˜YENT09-02 æ‘DŒ¤‹†ŽÒFOs “¯ˆÊ‘Ì‚ğ—p‚¢‚½Fe-Mn ƒNƒ‰ƒXƒg‚̐¶¬”N‘㌈’èDƒuƒ‹[ƒA[ƒXƒVƒ“ƒ|ƒWƒEƒ€2012 (“Œ‹žC2012”N2ŒŽ)D
46. –ìè’B¶FTizapa•zz°‚̏Љî‚ÆRe-Os•úŽË‰ó•ÏŒn‚É‚æ‚éVMSz°EÎ–ûz°‚̐¶¬”N‘㌈’èD‘æ7‰ñJOGMEC‹à‘®Ž‘Œ¹ŠÖ˜A¬‰Ê”­•\‰ï (“Œ‹žC2011”N9ŒŽ)D
45. “¾ŠÛˆº‰ÁE–ìè’B¶E—é–؏Ÿ•FE‚’J—Y‘¾˜YE“¡‰iŒöˆê˜YE‰Á“¡‘׍_EíÂE‰Y•Ó“O˜YE‰Pˆä˜NF‘ñ—m‘æ5ŠCŽR‚É•ª•z‚·‚éFe-MnƒNƒ‰ƒXƒg•\–ÊŽŽ—¿‚ÌOs“¯ˆÊ‘̔䂨‚æ‚Ñ”÷—ÊŒ³‘f‘g¬‚Ì’n‹…‰»Šw“I“Á’¥D“ú–{’n‹…‰»Šw‰ï (ŽD–yC2011”N9ŒŽ)D
44. Tejada, M. L. G.E—é–؏Ÿ•FEÎìWE–ìè’B¶Eå“c—ÊŽqCRavizza G.E–Ø‘ºƒˆêFOs isotope and platinum group elements as tracers of bolide impact in Early Cretaceous oceansD“ú–{’n‹…‰»Šw‰ï (ŽD–yC2011”N9ŒŽ)D
43. ’¬“cŽkŽ÷E“¡‰iŒöˆê˜YE‰Á“¡‘׍_EÎˆä‹PHE–ìè’B¶E•½–ì’¼lF“ì’¹“‡Žü•Ó‚Ì”r‘¼“IŒoÏ…ˆæ“à‚ÅŒ©‚‚©‚Á‚½ƒ}ƒ“ƒKƒ“ƒmƒWƒ…[ƒ‹ƒtƒB[ƒ‹ƒhDŽ‘Œ¹’nŽ¿Šw‰ïC(“Œ‹žC2011”N6ŒŽ)D
42. –ìè’B¶E‰Á“¡‘׍_E—é–؏Ÿ•FEûü’J—Y‘¾˜YE’†ŽRŒ’F–kŠC“¹‰ºì‚¨‚æ‚Ñ‹{èŒ§ê •ô•ÊŽqŒ^z°‚ÌRe-Os”N‘ã|KulaŠC—ä’¾‚ݍž‚İŒ»Û‚̒ǐՁ|DŽ‘Œ¹’nŽ¿Šw‰ïC(“Œ‹žC2011”N6ŒŽ)D
41. Goto, K., Sekine, Y., Suzuki, K., Tajika, E., Senda, R., Nozaki, T., Tada, R., Goto, K., Maruoka, T. and Yamamoto, S.: A rise of atmospheric oxygen triggered by the Paleoproterozoic deglaciations: Insights from osmium isotopes. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2011”N‘å‰ï (–‹’£C2011”N5ŒŽ).
40. Fujinaga, K., Kato, Y., Nozaki, T. and Suzuki, K.: Marine Os isotopic variations during the glacial-interglacial cycles as inferred from the Lau basin carbonates. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2011”N‘å‰ï (–‹’£C2011”N5ŒŽ).
39. Nozaki, T., Kato, Y., Suzuki, K., Takaya, Y. and Nakayama, K.: Re-Os age of Besshi-type sulfide deposit associated with in-situ basalt as an age constraint for ridge subduction. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2011”N‘å‰ï (–‹’£C2011”N5ŒŽ).
38. Nozaki, T., Nikaido, T., Takaya, T., Suzuki, K., Kato, Y. and Matsuoka, A.: Reconstruction of Os isotope record of the Triassic seawater based on chert samples from the Sakahogi Section, Mino Belt. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2011”N‘å‰ï (–‹’£C2011”N5ŒŽ).
37. Tokumaru, A., Urabe, T., Usui, A., Nozaki, T., Suzuki, K. and NT09-02 cruise member: Major and trace elements geochemistry of Co-rich ferromanganese crust from the #5 Takuyo Seamount, northwestern Pacific. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2011”N‘å‰ï (–‹’£C2011”N5ŒŽ).
36. –ìè’B¶E‰Á“¡‘׍_E—é–؏Ÿ•FFRe-Os•úŽË‰ó•ÏŒn‚É‚æ‚é•ÊŽqŒ^z°‚̐¶¬”N‘㌈’è‚ÆŒ°¶‘ã‚̃Oƒ[ƒoƒ‹ŠC—mŠÂ‹«•Ï‘JD“ú–{’nŽ¿Šw‰ï (•xŽRC2010”N9ŒŽ)D™µ‘ҍu‰‰™
35. Œã“¡F‰îEŠÖªNlE—é–؏Ÿ•FE“c‹ß‰pˆêEå“c—ÊŽqE–ìè’B¶E‘½“c—²Ž¡EŒã“¡˜a‹vEŽR–{MŽ¡FƒJƒiƒ_‚̃qƒ…[ƒƒjƒAƒ“—İ‘wŒQ‚É‚¨‚¯‚éOs“¯ˆÊ‘Ì”ä‚ÉŠî‚­Œ´¶‘㏉Šú•X‰ÍŠúŒã‚ÌŽ_‘f”Z“x‚̏㏸D“ú–{’n‹…‰»Šw‰ï (ŒF’JC2010”N9ŒŽ)D
34. Suzuki, K. and Nozaki, T.: The Re-Os isotopic system as a tool for dating of oil and its host black shale. IODP‰º–k‰«Œ@íWS (“Œ‹žC2010”N8ŒŽ).
33. –ìè’B¶E‰Á“¡‘׍_E—é–؏Ÿ•FEûü’J—Y‘¾˜YE’†ŽRŒ’F‹{èŒ§ê •ô•ÊŽqŒ^z°‚ÌRe-Os”N‘ãF”’ˆŸ‹IŒãŠúŠC—ä’¾‚ݍž‚İŽžŠú‚̐§–ñDŽ‘Œ¹’nŽ¿Šw‰ï (“Œ‹žC2010”N6ŒŽ)D
32. Goto, K., Sekine, Y., Suzuki, K., Tajika, E., Senda, R., Nozaki, T., Tada, R., Goto K. and Yamamoto, S.: Constraints from Os isotope on fluctuations of atmospheric oxygen levels during the Great Oxidation Event. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2010”N‘å‰ï (–‹’£C2010”N5ŒŽ).
31. Kato, Y., Fujinaga, K., Nozaki, T. and Suzuki, K.: Age distribution of strata-bound ore deposits in the Japanese accretionary complexes and its implication for mineral deposits on modern seafloor. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2010”N‘å‰ï (–‹’£C2010”N5ŒŽ)D
30. Nozaki, T., Suzuki, K., Ravizza, G., Kimura, J. I. and Chang, Q.: A rapid determination method for Re and Os isotope compositions using MC-ICP-MS combined with sparging method. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2010”N‘å‰ï (–‹’£C2010”N5ŒŽ)D
29. –ìè’B¶E—é–؏Ÿ•FERavizza, G.E–Ø‘ºƒˆêEíÂFMC-ICP-MS ‚Æ‹C‰»–@‚ğ—p‚¢‚½Re-Os “¯ˆÊ‘Ì‘g¬v‘¬‘ª’è•û–@‚ÌŠJ”­D2009”N“x “ú–{Ž¿—Ê•ªÍŠw‰ï“¯ˆÊ‘̔䕔‰ï (” ªC2009”N12ŒŽ)D
28. ‰Á“¡‘׍_E“¡‰iŒöˆê˜YE–ìè’B¶E—é–؏Ÿ•FFRe-Os •úŽË‰ó•ÏŒn‚ğ—˜—p‚µ‚½Œ°¶‘ã‚ÌŠC—mŠÂ‹«•Ï“®‚̉𖾁D“ú–{’n‹…‰»Šw‰ï (L“‡C2009”N9ŒŽ)D
27. –ìè’B¶E—é–؏Ÿ•FERavizza, GE–Ø‘ºƒˆêEíÂFMC-ICP-MS ‚Æ‹C‰»–@‚ğ—p‚¢‚½Re-Os “¯ˆÊ‘Ì‘g¬v‘¬‘ª’è•û–@‚ÌŠJ”­ (—\•ñ)D“ú–{’n‹…‰»Šw‰ï (L“‡C2009”N9ŒŽ)D
26. ’†‘ºŒª‘¾˜YE‹{‰ºƒ•vE‘«—§‰ÀŽqEª”ö‰Ä‹IE“¡‰iŒöˆê˜YE–ìè’B¶E’W˜HrìE‚’J—Y‘¾˜YE‰Á“¡‘׍_FƒIƒ}[ƒ“ƒIƒtƒBƒIƒ‰ƒCƒgã•”ƒKƒuƒƒ†ƒjƒbƒg‚ɏoŒ»‚·‚é—ΓDÎŠâ‚̐¬ˆöDŽ‘Œ¹’nŽ¿Šw‰ï (“Œ‹žC2009”N6ŒŽ)D
25. Nozaki, T., Kato, Y. and Suzuki, K.: Redox history of the Phanerozoic ocean based on the Re-Os ages of Besshi-type massive sulfide deposits in the Sanbagawa Belt. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2009”N‘å‰ï (–‹’£C2009”N5ŒŽ)D
24. Nozaki, T., Kato, Y. and Suzuki, K.: Re-Os age distribution of Besshi-type massive sulfide deposits as an indicator for paleo-redox of deep-sea environment. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2009”N‘å‰ï (–‹’£C2009”N5ŒŽ)D
23. Nakamura, K., Miyashita, S., Adachi, Y., Neo, N., Fujinaga, K., Nozaki, T., Awaji,S., Takaya, Y. and Kato, Y.: Theoretical constraints on the origin of chloritite at the uppermost gabbro unit in the Oman ophiolite. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2009”N‘å‰ï (–‹’£C2009”N5ŒŽ)D
22. Inoue, K., Fujinaga, K., Nozaki, T., Nakayama, K. and Kato, Y.:Origin of the Aki stratiform Fe-Mn deposits and their potential evaluation as rare earth resources. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2009”N‘å‰ï (–‹’£C2009”N5ŒŽ)D
21. –ìè’B¶E‰Á“¡‘׍_E—é–؏Ÿ•FFRe-Os“¯ˆÊ‘Ì‚É‚æ‚é•ÊŽqŒ^‰òó—°‰»•¨z°‚̐¶¬”N‘㌈’èD“ú–{’n‹…‰»Šw‰ï (“Œ‹žC2008”N9ŒŽ)D
20. –ìè’B¶E‰Á“¡‘׍_E—é–؏Ÿ•FE’†ŽRŒ’FŽO”gì‘Ñ‚É•ª•z‚·‚é•ÊŽqŒ^z°‚ÌRe-Os”N‘ãDŽ‘Œ¹’nŽ¿Šw‰ï (“Œ‹žC2008”N6ŒŽ)D™Šw¶u‰‰ÜŽóÜ™
19. ˆäã‹¿‘¾E“¡‰iŒöˆê˜YE–ìè’B¶E’†ŽRŒ’E‰Á“¡‘׍_F‚’mŒ§ˆÀŒ|Fe-Mnz°‚̐¬ˆö‚¨‚æ‚ÑŠó“y—ŞŽ‘Œ¹‚Æ‚µ‚Ẵ|ƒeƒ“ƒVƒƒƒ‹•]‰¿DŽ‘Œ¹’nŽ¿Šw‰ï (“Œ‹žC2008”N6ŒŽ)D
18. “¡‰iŒöˆê˜YE–ìè’B¶E‰Á“¡‘׍_FŽO”gì‘Ñ’·“Ò’nˆæ‚ÉŽY‚·‚éÔ“S•ĞŠâ‚Ì’n‹…‰»ŠwDŽ‘Œ¹’nŽ¿Šw‰ï (“Œ‹žC2008”N6ŒŽ)D
17. Nozaki, T., Nakamura, K. and Kato, Y.FCarbonatization of oceanic crust during seafloor alteration: Constraints from greenstones from the Japanese accretionary complexesD“ú–{’n‹…˜f¯‰ÈŠw˜A‡2008”N‘å‰ï (–‹’£C2008”N5ŒŽ)D
16. Nozaki, T., Kato, Y. and Suzuki, K.FRe-Os geochronology of the Besshi-type volcanogenic massive sulfide depositsD“ú–{’n‹…˜f¯‰ÈŠw˜A‡2008”N‘å‰ï (–‹’£C2008”N5ŒŽ)D
15. Kato, Y., Fujinaga, K., Nozaki, T., Nakamura, K., Suzuki, K. and Komuro, K.FAge of strata-bound ore deposits in the Japanese accretionary complexes and a secular change of marine redox conditionD“ú–{’n‹…˜f¯‰ÈŠw˜A‡2008”N‘å‰ï (–‹’£C2008”N5ŒŽ)D
14. “¡‰iŒöˆê˜YE’†‘ºm”üE–ìè’B¶E’W˜HrìEXŒûŒb”üE‰Á“¡‘׍_F–kŠC“¹í˜C‘Ñ‚Ì‘wóFe-MnCMnz°‚̐¶¬ê‚Ɖ»Šw‘g¬ƒoƒŠƒG[ƒVƒ‡ƒ“DŽ‘Œ¹’nŽ¿Šw‰ï (“Œ‹žC2007”N6ŒŽ)D
13. –ìè’B¶E‰Á“¡‘׍_E—é–؏Ÿ•FFRe-Os•úŽË‰ó•ÏŒn‚É‚æ‚é•ÊŽqz°‚̐¶¬”N‘㌈’èDŽ‘Œ¹’nŽ¿Šw‰ï (“Œ‹žC2007”N6ŒŽ)D
12. Nozaki, T., Nakamura, K., Awaji, S. and Kato, Y.FWhole-rock chemical composition of basic schists from the Sanbagawa BeltD“ú–{’n‹…˜f¯‰ÈŠw˜A‡2007”N‘å‰ï (–‹’£C2007”N5ŒŽ)D
11. Saiki, Y., Kuzukami, K., Nozaki, T., Chang, Y. S. and Rex, R.FProposal for an effective utilization system of rice residual in JapanD21COE7‘åŠw‹’“_‡“¯ƒVƒ“ƒ|ƒWƒEƒ€ (L“‡C2007”N3ŒŽ)D
10. –ìè’B¶F“ú–{—ñ“‡•t‰Á‘Ì’†‚ÌŠC—m’nŠk’f•Ğ |ƒOƒ[ƒoƒ‹’Y‘fzŠÂ‚É‚¨‚¯‚é‚»‚̈Ӌ`‚Æ CO2ŠC—m’nŠkŠu—£‚Ì’ñˆÄ|D21¢‹ICOE‹@ŠBƒVƒXƒeƒ€EƒCƒmƒx[ƒVƒ‡ƒ“‘“àƒVƒ“ƒ|ƒWƒEƒ€ (“Œ‹žC2007”N3ŒŽ)D
9. Nozaki, T., Kuzukami, K., Nozaki, T., Chang, Y. S. and Rex, R.FProposal for an effective utilization system of rice residual in JapanDêU‰¡’fŒ^u‹`u‹@ŠBƒVƒXƒeƒ€EƒCƒmƒx[ƒVƒ‡ƒ“ICIIv‡“¯ÅI¬‰Ê•ñ‰ï (“Œ‹žC2007”N1ŒŽ)D™Å—DGÜŽóÜ™
8. ’W˜HrìE’†‘ºŒª‘¾˜YE–ìè’B¶EXŒûŒb”üE‰Á“¡‘׍_FƒAƒ‹ƒJƒŠ—Z‰ğ–@‚ğ—p‚¢‚½ICP-MS‚É‚æ‚鍂¸“xŠÈˆÕ•ªÍ–@‚ÌŠm—§DŽ‘Œ¹’nŽ¿Šw‰ï (“Œ‹žC2006”N6ŒŽ)D
7. “¡‰iŒöˆê˜YE–ìè’B¶E¼“à—²ƒEŒKŒ´Šó¢ŽqE‰Á“¡‘׍_F‚’mŒ§ŒŠ“à’nˆæ‚ÉŽY‚·‚éƒyƒ‹ƒ€‹I‘wóMnz°‚Ì’n‹…‰»ŠwDŽ‘Œ¹’nŽ¿Šw‰ï (“Œ‹žC2006”N6ŒŽ)D
6. –ìè’B¶E’†‘ºŒª‘¾˜YE’W˜HrìE¼“à—²ƒEXŒûŒb”üE‰Á“¡‘׍_FƒAƒ‹ƒJƒŠ—Z‰ğ–@‚ğ—p‚¢‚½•ÊŽq’nˆæ‚̗ΐF•ĞŠâ‚Ì‘SŠâ‰»Šw‘g¬DŽ‘Œ¹’nŽ¿Šw‰ï (“Œ‹žC2006”N6ŒŽ)D
5. Nozaki, T., Nakamura, K., and Kato, Y.: Carbon contents in the remnants of oceanic crust from the Japanese accretionary complexes. “ú–{’n‹…˜f¯‰ÈŠw˜A‡2006”N‘å‰ï (–‹’£C2006”N5ŒŽ)D
4. –ìè’B¶F’•ƒzŽRŽü•Ó‚É‚¨‚¯‚é’n‹…‰»Šw}‚̍쐬|‹x”pŽ~zŽR‚̊‹«ƒ‚ƒjƒ^ƒŠƒ“ƒO|D21¢‹ICOE‹@ŠBƒVƒXƒeƒ€EƒCƒmƒx[ƒVƒ‡ƒ“‘“àƒVƒ“ƒ|ƒWƒEƒ€ (“Œ‹žC2006”N3ŒŽ)D
3. –ìè’B¶E’†‘ºŒª‘¾˜YEXŒûŒb”üE‰Á“¡‘׍_F•t‰Á‘Ì’†‚ÌŠC—m’nŠk’f•Ğ‚Ì’Y‘fŠÜ—L—ʂƃOƒ[ƒoƒ‹’Y‘fzŠÂ‚É‚¨‚¯‚é‚»‚̈Ӌ`DŽ‘Œ¹’nŽ¿Šw‰ï (“Œ‹žC2005”N6ŒŽ)D
2. –ìè’B¶E’†‘ºŒª‘¾˜YEXŒûŒb”üE‰Á“¡‘׍_F“ú–{—ñ“‡•t‰Á‘Ì’†‚ÌŠC—m’nŠk’f•Ğ|ƒOƒ[ƒoƒ‹’Y‘fzŠÂ‚É‚¨‚¯‚é‚»‚̈Ӌ`|DŽ‘Œ¹’nŽ¿Šw‰ï (“Œ‹žC2004”N6ŒŽ)D
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5. •½¬21`22”N“x‰ÈŠw‹ZpŒ¤‹†”ïŽáŽèŒ¤‹† (ƒXƒ^[ƒgƒAƒbƒv) ‚ÉÌ‘ğ‚³‚ê‚é (Œv270.4–œ‰~F‘ã•\ŽÒ)
4. Ž‘Œ¹’nŽ¿Šw‰ï‘æ59‰ñ”N‰ï‚É‚¨‚¢‚ÄŒ¤‹†§—ãÜ‚ğŽóÜ‚·‚é (2009”N6ŒŽ)
3. Ž‘Œ¹’nŽ¿Šw‰ï‘æ58‰ñ”N‰ï‚É‚¨‚¢‚ÄŠw¶u‰‰Ü‚ğŽóÜ‚·‚é (2008”N6ŒŽ)
2. •½¬19”N“x“ú–{ŠwpU‹»‰ï“Á•ÊŒ¤‹†ˆõ‚ɍ̗p‚³‚ê‚é (DC2¨PD) (Œv180–œ‰~F‘ã•\ŽÒ)
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21. “ú–{’n‹…˜f¯‰ÈŠw˜A‡’n‹…lŠÔŒ—ƒZƒNƒVƒ‡ƒ“ƒ{[ƒh§—ã (•\²) WGƒƒ“ƒo[ R3.4.1`
20. “ú–{’n‹…˜f¯‰ÈŠw˜A‡’n‹…lŠÔŒ—ƒZƒNƒVƒ‡ƒ“ƒ{[ƒhƒƒ“ƒo[ R2.4.1`
19. “ú–{’n‹…˜f¯‰ÈŠw˜A‡’n‹…lŠÔŒ—ƒZƒNƒVƒ‡ƒ“‘ã‹cˆõR2.4.1`
18. ’n‹…‰»Šw•ÒWˆÏˆõR2.1.1`
17. ’n‹…‰»ŠwEŽ‘Œ¹’nŽ¿‡“¯“ÁW†Guest Editor H29.12.1`R3.3.31
16. Geochemical Journal“ÁW†Guest Editor H26.12.1`H28.11.30
15. Resource Geology Vice Editor-in-Chief R2.4.1`
14. Resource Geology Associate Editor H27.7.1`
13. Ž‘Œ¹’nŽ¿•›•ÒW’·R2.4.1`
12. Ž‘Œ¹’nŽ¿Šw‰ïí–±ˆÏˆõ’·R3.4.1`R4.3.31
11. Ž‘Œ¹’nŽ¿Šw‰ï‘–±ˆÏˆõ’·R2.4.1`R3.3.31
10. Ž‘Œ¹’nŽ¿Šw‰ïŒ¤‹†‹³ˆç„iˆÏˆõH29.4.1`H31.3.31CR3.4.1`R5.3.31
9. Ž‘Œ¹’nŽ¿Šw‰ï˜A—ˆÏˆõ (“ú–{’n‹…˜f¯‰ÈŠw˜A‡) H26.4.1`
8. Ž‘Œ¹’nŽ¿Šw‰ïŽáŽè‰ïsŽ–ˆÏˆõ’· H23.6.24`H24.6.27
7. Ž‘Œ¹’nŽ¿Šw‰ïŽáŽè‰ï‰ï’· H21.4.1`H23.6.23
6. Ž‘Œ¹’nŽ¿Šw‰ïŠw‰ïÜR¸ˆÏˆõH24.4.1`H26.3.31CH27.4.1`H29.3.31CH31.4.1`R2.3.31
5. Ž‘Œ¹’nŽ¿Šw‰ïŒ¤‹†•¬‹àR¸ˆÏˆõ’·H31.4.1`R.2.3.31
4. Ž‘Œ¹’nŽ¿Šw‰ïŒ¤‹†•¬‹àR¸ (“Á•ÊŠî‹à‰^‰c) ˆÏˆõH23.4.1`H24.3.31CH25.4.1`H26.3.31CH29.4.1`H30.3.31CH31.4.1`R.2.3.31
3. Ž‘Œ¹’nŽ¿Šw‰ï•]‹cˆõH23.4.1`H26.3.31CH27.4.1`H30.3.31CH31.4.1`R3.3.31
2. Ž‘Œ¹’nŽ¿Šw‰ï‘I‹“ŠÇ—ˆÏˆõH22.4.1`H23.3.31
1. ‘Û˜f¯’n‹…”NŽ‘Œ¹ƒ[ƒLƒ“ƒOƒOƒ‹[ƒvˆÏˆõH22.4.1`H23.3.31