Mineralogical and geochemical facets of the massive deposition of stibnite-metastibnite at a seafloor hydrothermal field (Wakamiko Crater, Kagoshima Bay, Ryukyu Volcanic Arc)
Stibnite precipitates in the form of massive boulders at two active hydrothermal mounds in the submarine Wakamiko Crater (Ryukyu Volcanic Arc) as opposed to commonly observed accessory stibnite in the seafloor hydrothermal deposits. The stibnite dimorph, metastibnite, found here for the first time o...
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| Published in | American Mineralogist Vol. 109; no. 10; pp. 1819 - 1833 |
|---|---|
| Main Authors | , , , , , , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Washington
Mineralogical Society of America
01.10.2024
Walter de Gruyter GmbH |
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| Online Access | Get full text |
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| Abstract | Stibnite precipitates in the form of massive boulders at two active hydrothermal mounds in the submarine Wakamiko Crater (Ryukyu Volcanic Arc) as opposed to commonly observed accessory stibnite in the seafloor hydrothermal deposits. The stibnite dimorph, metastibnite, found here for the first time on the seafloor, appears to always form whenever stibnite is precipitated under submarine hydrothermal conditions. Our study shows that hydrothermal conditions of low temperatures (<50 °C) and low values of pH (<6) are favorable for the precipitation of stibnite on the seafloor. The stibnite probably does not precipitate at the measured vent fluid temperatures (i.e., 177.6–187.0 °C) along the chimney conduits, but rather at temperatures <50 °C and at slightly reduced to slightly oxic conditions (
= –0.5 to +0.5 V) within the chimney walls and hydrothermal mounds. Metastibnite deposition appears to be the result of rapid quenching of hot hydrothermal fluid when mixed with cold seawater and rapid precipitation at the interface between stibnite and vent fluid. The low concentrations (usually below detection limits) of the trace elements (Cd, Co, Cr, Cu, Li, Mn, Mo, Ni, P, Pb, Sr, V, Zn) in the stibnite deposits from Wakamiko Crater are likely a result of the decreased metal-transporting capacity of the precipitating vent fluid due to its low chlorinity. Low-chlorinity venting implies sub-seafloor boiling and phase separation of the hydrothermal fluid. Sluggish hydrothermal fluid/seawater mixing within the walls of the chimneys and mounds favors the reduction of sulfate dissolved in the hydrothermal fluids and results in a heavy S isotope composition of the sulfate in the vent fluids. Sulfate reduction and disproportionation of magmatic SO
, both leading to heavy S isotope composition of sulfate in the vent fluids, seem to be common processes in volcanic arc/back-arc submarine hydrothermal settings. |
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| AbstractList | Stibnite precipitates in the form of massive boulders at two active hydrothermal mounds in the submarine Wakamiko Crater (Ryukyu Volcanic Arc) as opposed to commonly observed accessory stibnite in the seafloor hydrothermal deposits. The stibnite dimorph, metastibnite, found here for the first time on the seafloor, appears to always form whenever stibnite is precipitated under submarine hydrothermal conditions. Our study shows that hydrothermal conditions of low temperatures (<50 °C) and low values of pH (<6) are favorable for the precipitation of stibnite on the seafloor. The stibnite probably does not precipitate at the measured vent fluid temperatures (i.e., 177.6–187.0 °C) along the chimney conduits, but rather at temperatures <50 °C and at slightly reduced to slightly oxic conditions (Eh = –0.5 to +0.5 V) within the chimney walls and hydrothermal mounds. Metastibnite deposition appears to be the result of rapid quenching of hot hydrothermal fluid when mixed with cold seawater and rapid precipitation at the interface between stibnite and vent fluid. The low concentrations (usually below detection limits) of the trace elements (Cd, Co, Cr, Cu, Li, Mn, Mo, Ni, P, Pb, Sr, V, Zn) in the stibnite deposits from Wakamiko Crater are likely a result of the decreased metal-transporting capacity of the precipitating vent fluid due to its low chlorinity. Low-chlorinity venting implies sub-seafloor boiling and phase separation of the hydrothermal fluid. Sluggish hydrothermal fluid/seawater mixing within the walls of the chimneys and mounds favors the reduction of sulfate dissolved in the hydrothermal fluids and results in a heavy S isotope composition of the sulfate in the vent fluids. Sulfate reduction and disproportionation of magmatic SO2, both leading to heavy S isotope composition of sulfate in the vent fluids, seem to be common processes in volcanic arc/back-arc submarine hydrothermal settings. Stibnite precipitates in the form of massive boulders at two active hydrothermal mounds in the submarine Wakamiko Crater (Ryukyu Volcanic Arc) as opposed to commonly observed accessory stibnite in the seafloor hydrothermal deposits. The stibnite dimorph, metastibnite, found here for the first time on the seafloor, appears to always form whenever stibnite is precipitated under submarine hydrothermal conditions. Our study shows that hydrothermal conditions of low temperatures (<50 °C) and low values of pH (<6) are favorable for the precipitation of stibnite on the seafloor. The stibnite probably does not precipitate at the measured vent fluid temperatures (i.e., 177.6–187.0 °C) along the chimney conduits, but rather at temperatures <50 °C and at slightly reduced to slightly oxic conditions ( = –0.5 to +0.5 V) within the chimney walls and hydrothermal mounds. Metastibnite deposition appears to be the result of rapid quenching of hot hydrothermal fluid when mixed with cold seawater and rapid precipitation at the interface between stibnite and vent fluid. The low concentrations (usually below detection limits) of the trace elements (Cd, Co, Cr, Cu, Li, Mn, Mo, Ni, P, Pb, Sr, V, Zn) in the stibnite deposits from Wakamiko Crater are likely a result of the decreased metal-transporting capacity of the precipitating vent fluid due to its low chlorinity. Low-chlorinity venting implies sub-seafloor boiling and phase separation of the hydrothermal fluid. Sluggish hydrothermal fluid/seawater mixing within the walls of the chimneys and mounds favors the reduction of sulfate dissolved in the hydrothermal fluids and results in a heavy S isotope composition of the sulfate in the vent fluids. Sulfate reduction and disproportionation of magmatic SO , both leading to heavy S isotope composition of sulfate in the vent fluids, seem to be common processes in volcanic arc/back-arc submarine hydrothermal settings. |
| Author | Luca Bindi Yasuhiro Kato Motoaki Morita Andrea Koschinsky Kazutaka Yasukawa Yukako Furuma Dan Asael Lukas Klose Toshiro Yamanaka Vesselin Dekov Bernhard Pracejus Bleuenn Guéguen |
| Author_xml | – sequence: 1 givenname: Vesselin orcidid: 0000-0002-2369-0337 surname: Dekov fullname: Dekov, Vesselin email: vdekov0@kaiyodai.ac.jp organization: Department of Ocean Sciences, Tokyo University of Marine Science and Technology, 4-5-7 Konan, Minato-ku, Tokyo 108-8477, Japan – sequence: 2 givenname: Yukako surname: Furuma fullname: Furuma, Yukako organization: Department of Ocean Sciences, Tokyo University of Marine Science and Technology, 4-5-7 Konan, Minato-ku, Tokyo 108-8477, Japan – sequence: 3 givenname: Bleuenn surname: Guéguen fullname: Guéguen, Bleuenn organization: CNRS, University Brest, UMS 3113, F-29280 Plouzané, France – sequence: 4 givenname: Lukas surname: Klose fullname: Klose, Lukas organization: Department of Physics and Earth Sciences, Constructor University Bremen gGmbH, Campus Ring 1, 28759 Bremen, Germany – sequence: 5 givenname: Kazutaka surname: Yasukawa fullname: Yasukawa, Kazutaka organization: Department of Systems Innovation, School of Engineering, The University of Tokyo, 7-3-1 Hongo, Bunkyo-ku, Tokyo 113-8656, Japan – sequence: 6 givenname: Motoaki surname: Morita fullname: Morita, Motoaki organization: Department of Marine Electronics and Mechanical Engineering, Tokyo University of Marine Science and Technology, 2-1-6 Etchujima, Koto-ku, Tokyo 135-8533, Japan – sequence: 7 givenname: Dan surname: Asael fullname: Asael, Dan organization: Department of Geology and Geophysics, Yale University, New Haven, Connecticut 06520, U.S.A – sequence: 8 givenname: Toshiro surname: Yamanaka fullname: Yamanaka, Toshiro organization: Department of Ocean Sciences, Tokyo University of Marine Science and Technology, 4-5-7 Konan, Minato-ku, Tokyo 108-8477, Japan – sequence: 9 givenname: Luca orcidid: 0000-0003-1168-7306 surname: Bindi fullname: Bindi, Luca organization: Dipartimento di Scienze della Terra, Università degli Studi di Firenze, Via Giorgio La Pira 4, I-50121, Firenze, Italy – sequence: 10 givenname: Andrea surname: Koschinsky fullname: Koschinsky, Andrea organization: Department of Physics and Earth Sciences, Constructor University Bremen gGmbH, Campus Ring 1, 28759 Bremen, Germany – sequence: 11 givenname: Bernhard surname: Pracejus fullname: Pracejus, Bernhard organization: Department of Earth Sciences, Sultan Qaboos University, PO Box 36, 123 Al-Khoud, Muscat, Sultanate of Oman – sequence: 12 givenname: Yasuhiro surname: Kato fullname: Kato, Yasuhiro organization: Submarine Resources Research Center, Research Institute for Marine Resources Utilization, Japan Agency for Marine-Earth Science and Technology (JAMSTEC), 2-15 Natsushima-cho, Yokosuka, Kanagawa 237-0061, Japan |
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| Snippet | Stibnite precipitates in the form of massive boulders at two active hydrothermal mounds in the submarine Wakamiko Crater (Ryukyu Volcanic Arc) as opposed to... |
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| SubjectTerms | Boulders Cadmium Chemical composition Chimneys Chlorinity Chromium Craters Deposition Detection limits Disproportionation Fluids Heavy metals Hydrothermal Hydrothermal deposits Hydrothermal fields Isotope composition Low concentrations Low temperature Manganese metastibnite Mounds Ocean floor Oxic conditions Phase separation Precipitates Precipitation Rapid quenching (metallurgy) Seawater Stibnite stibnite; metastibnite; hydrothermal alteration; seafloor; Japan; sulfate reduction; Wakamiko Crater Sulfate reduction Sulfates Sulfur dioxide Sulphate reduction Trace elements Wakamiko Crater |
| Title | Mineralogical and geochemical facets of the massive deposition of stibnite-metastibnite at a seafloor hydrothermal field (Wakamiko Crater, Kagoshima Bay, Ryukyu Volcanic Arc) |
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