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80 results on '"Takaya, Yutaro"'

55. A Miocene impact ejecta layer in the pelagic Pacific Ocean

Author

Nozaki, Tatsuo, primary, Ohta, Junichiro, additional, Noguchi, Takaaki, additional, Sato, Honami, additional, Ishikawa, Akira, additional, Takaya, Yutaro, additional, Kimura, Jun-Ichi, additional, Chang, Qing, additional, Shimada, Kazuhiko, additional, Ishibashi, Jun-ichiro, additional, Yasukawa, Kazutaka, additional, Kimoto, Katsunori, additional, Iijima, Koichi, additional, and Kato, Yasuhiro, additional

Published
2019
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56. 深海熱水域における電気生態系の探査

Author

Yamamoto, Masahiro, Kawada, Yoshifumi, Kasaya, Takafumi, Kashima, Hiroyuki, Shitara, Mariko, Tanizaki, Akiko, Takaya, Yutaro, Yamaguchi, Akira, Kitadai, Norio, Nakamura, Ryuhei, Nozaki, Tatsuo, and Takai, Ken

Published
2019

57. Subseafloor sulphide deposit formed by pumice replacement mineralisation.

Author

Nozaki, Tatsuo, Nagase, Toshiro, Takaya, Yutaro, Yamasaki, Toru, Otake, Tsubasa, Yonezu, Kotaro, Ikehata, Kei, Totsuka, Shuhei, Kitada, Kazuya, Sanada, Yoshinori, Yamada, Yasuhiro, Ishibashi, Jun-ichiro, Kumagai, Hidenori, Maeda, Lena, the D/V Chikyu Expedition 909 Scientists, Fuchida, Shigeshi, Fukuhara, Tatsuo, Kato, Hirokazu, Kawachi, Masanobu, and Kawaguchi, Shinji

Subjects
PRECIOUS metals, BIOMINERALIZATION, PYRITES, SULFIDES, DATA analysis
Abstract

Seafloor massive sulphide (SMS) deposits, modern analogues of volcanogenic massive sulphide (VMS) deposits on land, represent future resources of base and precious metals. Studies of VMS deposits have proposed two emplacement mechanisms for SMS deposits: exhalative deposition on the seafloor and mineral and void space replacement beneath the seafloor. The details of the latter mechanism are poorly characterised in detail, despite its potentially significant role in global metal cycling throughout Earth's history, because in-situ studies require costly drilling campaigns to sample SMS deposits. Here, we interpret petrographic, geochemical and geophysical data from drill holes in a modern SMS deposit and demonstrate that it formed via subseafloor replacement of pumice. Samples from the sulphide body and overlying sediment at the Hakurei Site, Izena Hole, middle Okinawa Trough indicate that sulphides initially formed as aggregates of framboidal pyrite and matured into colloform and euhedral pyrite, which were replaced by chalcopyrite, sphalerite and galena. The initial framboidal pyrite is closely associated with altered material derived from pumice, and alternating layers of pumiceous and hemipelagic sediments functioned as a factory of sulphide mineralisation. We infer that anhydrite-rich layers within the hemipelagic sediment forced hydrothermal fluids to flow laterally, controlling precipitation of a sulphide body extending hundreds of meters. [ABSTRACT FROM AUTHOR]

Published
2021
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59. 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

Author

Takaya Yutaro, Watanabe Masayuki, Ishibashi Jun‐ichiro, Saruhashi Tomokazu, Shimada Kazuhiko, Torimoto Junji, Nozaki Tatsuo, Masaki Yuka, Kyo Masanori, and Nagase Toshiro

Subjects
chemistry.chemical_classification, Mineralization (geology), Oceanography, Sulfide, chemistry, Trough (geology), Core sample, Deep sea, Seafloor spreading, Geology, Natural (archaeology), Hydrothermal vent
Published
2017

60. The tremendous potential of deep-sea mud as a source of rare-earth elements

Author

Takaya, Yutaro, primary, Yasukawa, Kazutaka, additional, Kawasaki, Takehiro, additional, Fujinaga, Koichiro, additional, Ohta, Junichiro, additional, Usui, Yoichi, additional, Nakamura, Kentaro, additional, Kimura, Jun-Ichi, additional, Chang, Qing, additional, Hamada, Morihisa, additional, Dodbiba, Gjergj, additional, Nozaki, Tatsuo, additional, Iijima, Koichi, additional, Morisawa, Tomohiro, additional, Kuwahara, Takuma, additional, Ishida, Yasuyuki, additional, Ichimura, Takao, additional, Kitazume, Masaki, additional, Fujita, Toyohisa, additional, and Kato, Yasuhiro, additional

Published
2018
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62. Depositional Age of a Fossil Whale Bone from São Paulo Ridge, South Atlantic Ocean, Based on Os Isotope Stratigraphy of a Ferromanganese Crust

Author

Nozaki, Tatsuo, primary, Takaya, Yutaro, additional, Toyofuku, Takashi, additional, Tokumaru, Ayaka, additional, Goto, Kosuke T., additional, Chang, Qing, additional, Kimura, Jun-ichi, additional, Kato, Yasuhiro, additional, Suzuki, Katsuhiko, additional, Augustin, Adolpho Herbert, additional, and Kitazato, Hiroshi, additional

Published
2017
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64. Rapid growth of mineral deposits at artificial seafloor hydrothermal vents

Author

Nozaki, Tatsuo, primary, Ishibashi, Jun-Ichiro, additional, Shimada, Kazuhiko, additional, Nagase, Toshiro, additional, Takaya, Yutaro, additional, Kato, Yasuhiro, additional, Kawagucci, Shinsuke, additional, Watsuji, Tomoo, additional, Shibuya, Takazo, additional, Yamada, Ryoichi, additional, Saruhashi, Tomokazu, additional, Kyo, Masanori, additional, and Takai, Ken, additional

Published
2016
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68. Long-Term Reaction Characteristics of CO2-Water-Rock Interaction: Insight into the Potential Groundwater Contamination Risk from Underground CO2 Storage.

Author

Takaya, Yutaro, Nakamura, Kentaro, and Kato, Yasuhiro

Subjects
CARBON sequestration, GROUNDWATER pollution, WATER-rock interaction, CARBON dioxide mitigation, AQUIFERS
Abstract

CO2 sequestration into saline aquifers is considered to be one of the most promising options for reducing industrial CO2 emissions to the atmosphere. However, there are still many uncertainties regarding the storage of CO2 in the subsurface because of a lack of knowledge about CO2-water-rock interaction within CO2 reservoirs and the potential risk of CO2 leakage. In this study, we construct a semi-open type experimental system that can reproduce the interactions under conditions close to those of actual CO2 reservoirs. Using the system, we conduct CO2-water-rock interaction experiments for 8 months to monitor the long-term reaction and the mobilization of harmful metal elements. Altered tuffaceous rock is used in the experiment because these tuffaceous rock formations (called 'Green Tuff') are a potential candidate for CO2 storage in Japan. The results show that the major-element water composition will converge to the point where host rock dissolution and secondary mineral precipitation are balanced; then, the interaction will proceed under a certain groundwater composition. In addition, we found that groundwater contamination by some metal elements (Ni, Ba, and Mn) may reach unsafe levels for drinking water as a result of CO2-water-rock interaction. [ABSTRACT FROM AUTHOR]

Published
2018
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73. Uranium isotope systematics of ferromanganese crusts in the Pacific Ocean: Implications for the marine 238U/235U isotope system

Author

Goto, Kosuke T., primary, Anbar, Ariel D., additional, Gordon, Gwyneth W., additional, Romaniello, Stephen J., additional, Shimoda, Gen, additional, Takaya, Yutaro, additional, Tokumaru, Ayaka, additional, Nozaki, Tatsuo, additional, Suzuki, Katsuhiko, additional, Machida, Shiki, additional, Hanyu, Takeshi, additional, and Usui, Akira, additional

Published
2014
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75. Post-drilling changes in fluid discharge pattern, mineral deposition, and fluid chemistry in the Iheya North hydrothermal field, Okinawa Trough

Author

Kawagucci, Shinsuke, primary, Miyazaki, Junichi, additional, Nakajima, Ryota, additional, Nozaki, Tatsuo, additional, Takaya, Yutaro, additional, Kato, Yasuhiro, additional, Shibuya, Takazo, additional, Konno, Uta, additional, Nakaguchi, Yuzuru, additional, Hatada, Kenta, additional, Hirayama, Hisako, additional, Fujikura, Katsunori, additional, Furushima, Yasuo, additional, Yamamoto, Hiroyuki, additional, Watsuji, Tomo-o, additional, Ishibashi, Jun-ichiro, additional, and Takai, Ken, additional

Published
2013
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80. Experiments on Rare-Earth Element Extractions from Umber Ores for Optimizing the Grinding Process.

Author

Takaya, Yutaro, Wang, Meiqi, Fujinaga, Koichiro, Uchida, Etsuo, Nozaki, Tatsuo, and Kato, Yasuhiro

Subjects
*MINES & mineral resources, *ORES, *RARE earth metals, *ORE sampling & estimation, *YTTRIUM, *PARTICLES
Abstract

Ancient hydrothermal metalliferous sediments (umber) have recently attracted attention as a new rare-earth element resource. We conducted chemical leaching experiments on three different umber ores to optimize the hydrometallurgical extraction process, especially regarding the grinding process. The three umber ore samples, which were collected from Japanese accretionary complexes (Kuminiyama and Aki umber) and Troodos ophiolite (Cyprus umber), had different chemical, mineral, and physical properties, and showed different leaching behaviors. The experimental results revealed that the physical properties (density and P-wave propagation velocity) principally controlled the extent of REY (lanthanides and yttrium) extraction from the umber ore samples, and REY extraction from umber samples clearly increased with the decrease in the density and P-wave propagation velocity. The differences in physical properties of the umber samples are attributable to the pressure and thermal history of each ore sample, and it was revealed that umber samples which underwent strong metamorphism are not suitable for actual development. The results also suggested that the optimum particle size (optimum grinding level) of umber samples is simply predictable based on the physical properties. The results of this study should be valuable for future efforts to procure these important mineral resources. [ABSTRACT FROM AUTHOR]

Published
2019
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