80 results on '"Takaya, Yutaro"'
Search Results
52. A Combination of Geostatistical Methods and Principal Components Analysis for Detection of Mineralized Zones in Seafloor Hydrothermal Systems
53. Fish Debris and Rare-Earth Deposition Event in the Latest Eocene Revealed by Osmium Isotope Stratigraphy
54. Chemical Leaching Characteristics of Umber Ore Samples Showing their Forming Processes
55. A Miocene impact ejecta layer in the pelagic Pacific Ocean
56. 深海熱水域における電気生態系の探査
57. Subseafloor sulphide deposit formed by pumice replacement mineralisation.
58. Unique Environmental Conditions Required for Dawsonite Formation: Implications from Dawsonite Synthesis Experiments under Alkaline Conditions
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
60. The tremendous potential of deep-sea mud as a source of rare-earth elements
61. Long-Term Reaction Characteristics of CO2 -Water-Rock Interaction: Insight into the Potential Groundwater Contamination Risk from Underground CO2 Storage
62. Depositional Age of a Fossil Whale Bone from São Paulo Ridge, South Atlantic Ocean, Based on Os Isotope Stratigraphy of a Ferromanganese Crust
63. Major and trace element compositions and resource potential of ferromanganese crust at Takuyo Daigo Seamount, northwestern Pacific Ocean
64. Rapid growth of mineral deposits at artificial seafloor hydrothermal vents
65. Geological factors responsible for REY-rich mud in the western North Pacific Ocean: Implications from mineralogy and grain size distributions
66. Chemical leaching of rare earth elements from highly REY-rich mud
67. Rare-earth, major, and trace element geochemistry of deep-sea sediments in the Indian Ocean: Implications for the potential distribution of REY-rich mud in the Indian Ocean
68. Long-Term Reaction Characteristics of CO2-Water-Rock Interaction: Insight into the Potential Groundwater Contamination Risk from Underground CO2 Storage.
69. Dissolution of altered tuffaceous rocks under conditions relevant for CO2 storage
70. Re–Os isotope geochemistry in the surface layers of ferromanganese crusts from the Takuyo Daigo Seamount, northwestern Pacific Ocean
71. Post-Drilling Changes in Seabed Landscape and Megabenthos in a Deep-Sea Hydrothermal System, the Iheya North Field, Okinawa Trough
72. Exploration and Development of “REY-Rich Mud”: A New Deep-Sea Mineral Resource
73. Uranium isotope systematics of ferromanganese crusts in the Pacific Ocean: Implications for the marine 238U/235U isotope system
74. A Study on the Recovery Method of Rare-Earth Elements from REY-Rich Mud toward the Development and the Utilization of REY-Rich Mud
75. Post-drilling changes in fluid discharge pattern, mineral deposition, and fluid chemistry in the Iheya North hydrothermal field, Okinawa Trough
76. Geological, geochemical and social-scientific assessment of basaltic aquifers as potential storage sites for CO2
77. Simplified Prediction of the Proceeding of Mineral Trapping of CO2 Based on Experimental Study
78. Deep-sea mud in the Pacific Ocean as a potential resource for rare-earth elements
79. Geochemical Trapping of CO2 in Basaltic Aquifers: Implications from CO2-Water-Rock Interaction Experiments
80. Experiments on Rare-Earth Element Extractions from Umber Ores for Optimizing the Grinding Process.
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