Nature and origin of the Vani manganese deposit, Milos, Greece: an overview
Identifieur interne : 000204 ( Main/Exploration ); précédent : 000203; suivant : 000205Nature and origin of the Vani manganese deposit, Milos, Greece: an overview
Auteurs : A. Liakopoulos [Grèce] ; G. P Glasby [Japon, Grèce] ; C. T Papavassiliou [Grèce] ; J. Boulegue [France]Source :
- Ore Geology Reviews [ 0169-1368 ] ; 2001.
Descripteurs français
English descriptors
- KwdEn :
- Arseniosiderite, Barite, Bostrom, Boulegue, Cape vani, Cape vani manganese oxides, Central part, Centre, Coronadite, Cryptomelane, Dacite, Dacitic domes, Deposit, Deposition, Econ, Electron microprobe analysis, Epithermal, Epithermal gold, Epithermal vein deposits, Exact analogues, First generation, Fissure, Francisco manganese deposit, Fytikas, Galanopoulos, Geochemistry, Geol, Geology, Geothermal, Geothermal fluids, Glasby, Green horizon, Growth rate, Growth rates, Hauck, Hein, High contents, High mnrfe ratios, Hollandite, Host rock, Hydrohaeterolite, Hydrohetaerolite, Hydrothermal, Hydrothermal activity, Hydrothermal alteration, Hydrothermal fluid, Hydrothermal fluids, Hydrothermal manganese, Hydrothermal manganese deposit, Hydrothermal system, Iron oxides, Isomorphous series, Kaolinite, Lava, Liakopoulos, Magma chamber, Manganese, Manganese deposit, Manganese deposition, Manganese deposits, Manganese mineralization, Manganese oxide minerals, Manganese oxides, Marie curie, Marine deposits, Matrix, Microprobe, Milo, Milos island, Mineral deposits, Mineral exploration, Mineralization, Mineralized zone, Mnrfe, Mnrfe ratios, Montmorillonite, Normal faults, Optical microscope, Overlying volcaniclastic sandstone, Oxide, Papanikolaou, Papazachos, Pflumio, Phase separation, Plagioclase, Plimer, Pliocene, Porous volcaniclastic sandstone, Pyroclastic, Pyroclastic material, Pyrolusite, Quartz, Ramsdellite, Rapid uplift, Sandstone, Seawater, Second generation, Second hydrothermal fluid, Secondary minerals, Sericite, Siliceous matrix, Southern aegean, Stratabound, Strong tectonic activity, Submarine hydrothermal activity, Submarine hydrothermal manganese deposits, Sulphide, Tectonic, Tectonic regime, Tectonic uplift, Thick layer, Unaltered dacites, Uplift, Upper pliocene, Vani, Vani area, Vani basin, Vani deposit, Vani manganese deposit, Varnavas, Volcanic, Volcanic activity, Volcanic centres, Volcanic rocks, Volcaniclastic, Volcaniclastic sandstone, Western part, Western sector, White horizon, Yeary1.
- Teeft :
- Arseniosiderite, Barite, Bostrom, Boulegue, Cape vani, Cape vani manganese oxides, Central part, Centre, Coronadite, Cryptomelane, Dacite, Dacitic domes, Deposit, Deposition, Econ, Electron microprobe analysis, Epithermal, Epithermal gold, Epithermal vein deposits, Exact analogues, First generation, Fissure, Francisco manganese deposit, Fytikas, Galanopoulos, Geochemistry, Geol, Geology, Geothermal, Geothermal fluids, Glasby, Green horizon, Growth rate, Growth rates, Hauck, Hein, High contents, High mnrfe ratios, Hollandite, Host rock, Hydrohaeterolite, Hydrohetaerolite, Hydrothermal, Hydrothermal activity, Hydrothermal alteration, Hydrothermal fluid, Hydrothermal fluids, Hydrothermal manganese, Hydrothermal manganese deposit, Hydrothermal system, Iron oxides, Isomorphous series, Kaolinite, Lava, Liakopoulos, Magma chamber, Manganese, Manganese deposit, Manganese deposition, Manganese deposits, Manganese mineralization, Manganese oxide minerals, Manganese oxides, Marie curie, Marine deposits, Matrix, Microprobe, Milo, Milos island, Mineral deposits, Mineral exploration, Mineralization, Mineralized zone, Mnrfe, Mnrfe ratios, Montmorillonite, Normal faults, Optical microscope, Overlying volcaniclastic sandstone, Oxide, Papanikolaou, Papazachos, Pflumio, Phase separation, Plagioclase, Plimer, Pliocene, Porous volcaniclastic sandstone, Pyroclastic, Pyroclastic material, Pyrolusite, Quartz, Ramsdellite, Rapid uplift, Sandstone, Seawater, Second generation, Second hydrothermal fluid, Secondary minerals, Sericite, Siliceous matrix, Southern aegean, Stratabound, Strong tectonic activity, Submarine hydrothermal activity, Submarine hydrothermal manganese deposits, Sulphide, Tectonic, Tectonic regime, Tectonic uplift, Thick layer, Unaltered dacites, Uplift, Upper pliocene, Vani, Vani area, Vani basin, Vani deposit, Vani manganese deposit, Varnavas, Volcanic, Volcanic activity, Volcanic centres, Volcanic rocks, Volcaniclastic, Volcaniclastic sandstone, Western part, Western sector, White horizon, Yeary1.
Abstract
Abstract: The Vani manganese deposit is located in the rugged NW sector of Milos Island. It occurs within the Vani volcano-sedimentary basin, which is underlain by dacitic domes and flows of Upper Pliocene age (3.5–2.0 Ma). The end of the emplacement of the dacites was marked by the collapse of the magma chamber, which resulted in a huge pyroclastic episode and the deposition of a thick layer of pyroclastic material within a shallow submarine basin. This pyroclastic material subsequently compacted to form the volcaniclastic sandstone, which became the host for the manganese ore beds which were about 4 m thick in the two sections studied. Hydrothermal fluids penetrated these sandstone horizons via fractures and fissures to produce the manganese deposit. The permeable nature of the sandstone facilitated the retention of the hydrothermal fluids within these layers. This permitted the fluids to cool slowly and deposit the manganese oxides almost quantitatively. Formation of the hydrothermal manganese deposit took place fairly rapidly over a period of several tens of thousands of years at most. Strong tectonic activity resulted in rapid uplift of the area which elevated the deposit above sea level. Two generations of manganese oxides have been identified within this deposit; the first generation consists of pyrolusite and ramsdellite; the second generation of oxides of the isostructural series cryptomelane–hollandite–coronadite plus hydrohetaerolite characterized by high contents of K, Ba, Pb and Zn, respectively. This sequence is the result of a two-stage process of formation of the manganese-oxide minerals in which a second high-salinity hydrothermal fluid enriched in Ba, Pb and Zn as a result of the dissolution of sulphide minerals remineralized the original manganese-oxide assemblage. It is this two-stage process of formation, which was mainly responsible for the unique characteristics of this deposit. Although formed in a submarine setting, the deposit shows marked differences in mineralogy and composition from known submarine hydrothermal manganese deposits and is most analogous to the epithermal vein deposits of the southwestern United States.
Url:
DOI: 10.1016/S0169-1368(01)00029-4
Affiliations:
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Liakopoulos</name><affiliation wicri:level="1"><country xml:lang="fr">Grèce</country><wicri:regionArea>Institute of Geology and Mineral Exploration (I.G.M.E.), 70 Messoghion St., 115 27 Athens</wicri:regionArea><wicri:noRegion>115 27 Athens</wicri:noRegion></affiliation></author><author><name sortKey="Glasby, G P" sort="Glasby, G P" uniqKey="Glasby G" first="G. P" last="Glasby">G. P Glasby</name><affiliation wicri:level="1"><country wicri:rule="url">Japon</country></affiliation><affiliation wicri:level="1"><country xml:lang="fr">Grèce</country><wicri:regionArea>Department of Economic Geology and Geochemistry, University of Athens, Panepistimioupoli, Zografou, Athens 157 84</wicri:regionArea><wicri:noRegion>Athens 157 84</wicri:noRegion></affiliation></author><author><name sortKey="Papavassiliou, C T" sort="Papavassiliou, C T" uniqKey="Papavassiliou C" first="C. T" last="Papavassiliou">C. 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Boulegue</name><affiliation wicri:level="4"><country xml:lang="fr">France</country><wicri:regionArea>Science de la Terre et Evolution des Milieux Naturels, Case 3000, Université Pierre et Marie Curie, 4, Place Jussieu, F-75252 Paris Cedex 05</wicri:regionArea><placeName><region type="region" nuts="2">Île-de-France</region><settlement type="city">Paris</settlement></placeName><orgName type="university">Université Pierre-et-Marie-Curie</orgName></affiliation></author></analytic><monogr></monogr><series><title level="j">Ore Geology Reviews</title><title level="j" type="abbrev">OREGEO</title><idno type="ISSN">0169-1368</idno><imprint><publisher>ELSEVIER</publisher><date type="published" when="2001">2001</date><biblScope unit="volume">18</biblScope><biblScope unit="issue">3–4</biblScope><biblScope unit="page" from="181">181</biblScope><biblScope unit="page" to="209">209</biblScope></imprint><idno type="ISSN">0169-1368</idno></series></biblStruct></sourceDesc><seriesStmt><idno type="ISSN">0169-1368</idno></seriesStmt></fileDesc><profileDesc><textClass><keywords scheme="KwdEn" xml:lang="en"><term>Arseniosiderite</term><term>Barite</term><term>Bostrom</term><term>Boulegue</term><term>Cape vani</term><term>Cape vani manganese oxides</term><term>Central part</term><term>Centre</term><term>Coronadite</term><term>Cryptomelane</term><term>Dacite</term><term>Dacitic domes</term><term>Deposit</term><term>Deposition</term><term>Econ</term><term>Electron microprobe analysis</term><term>Epithermal</term><term>Epithermal gold</term><term>Epithermal vein deposits</term><term>Exact analogues</term><term>First generation</term><term>Fissure</term><term>Francisco manganese deposit</term><term>Fytikas</term><term>Galanopoulos</term><term>Geochemistry</term><term>Geol</term><term>Geology</term><term>Geothermal</term><term>Geothermal fluids</term><term>Glasby</term><term>Green horizon</term><term>Growth rate</term><term>Growth rates</term><term>Hauck</term><term>Hein</term><term>High contents</term><term>High mnrfe ratios</term><term>Hollandite</term><term>Host rock</term><term>Hydrohaeterolite</term><term>Hydrohetaerolite</term><term>Hydrothermal</term><term>Hydrothermal activity</term><term>Hydrothermal alteration</term><term>Hydrothermal fluid</term><term>Hydrothermal fluids</term><term>Hydrothermal manganese</term><term>Hydrothermal manganese deposit</term><term>Hydrothermal system</term><term>Iron oxides</term><term>Isomorphous series</term><term>Kaolinite</term><term>Lava</term><term>Liakopoulos</term><term>Magma chamber</term><term>Manganese</term><term>Manganese deposit</term><term>Manganese deposition</term><term>Manganese deposits</term><term>Manganese mineralization</term><term>Manganese oxide minerals</term><term>Manganese oxides</term><term>Marie curie</term><term>Marine deposits</term><term>Matrix</term><term>Microprobe</term><term>Milo</term><term>Milos island</term><term>Mineral deposits</term><term>Mineral exploration</term><term>Mineralization</term><term>Mineralized zone</term><term>Mnrfe</term><term>Mnrfe ratios</term><term>Montmorillonite</term><term>Normal faults</term><term>Optical microscope</term><term>Overlying volcaniclastic sandstone</term><term>Oxide</term><term>Papanikolaou</term><term>Papazachos</term><term>Pflumio</term><term>Phase separation</term><term>Plagioclase</term><term>Plimer</term><term>Pliocene</term><term>Porous volcaniclastic sandstone</term><term>Pyroclastic</term><term>Pyroclastic material</term><term>Pyrolusite</term><term>Quartz</term><term>Ramsdellite</term><term>Rapid uplift</term><term>Sandstone</term><term>Seawater</term><term>Second generation</term><term>Second hydrothermal fluid</term><term>Secondary minerals</term><term>Sericite</term><term>Siliceous matrix</term><term>Southern aegean</term><term>Stratabound</term><term>Strong tectonic activity</term><term>Submarine hydrothermal activity</term><term>Submarine hydrothermal manganese deposits</term><term>Sulphide</term><term>Tectonic</term><term>Tectonic regime</term><term>Tectonic uplift</term><term>Thick layer</term><term>Unaltered dacites</term><term>Uplift</term><term>Upper pliocene</term><term>Vani</term><term>Vani area</term><term>Vani basin</term><term>Vani deposit</term><term>Vani manganese deposit</term><term>Varnavas</term><term>Volcanic</term><term>Volcanic activity</term><term>Volcanic centres</term><term>Volcanic rocks</term><term>Volcaniclastic</term><term>Volcaniclastic sandstone</term><term>Western part</term><term>Western sector</term><term>White horizon</term><term>Yeary1</term></keywords><keywords scheme="Teeft" xml:lang="en"><term>Arseniosiderite</term><term>Barite</term><term>Bostrom</term><term>Boulegue</term><term>Cape vani</term><term>Cape vani manganese oxides</term><term>Central part</term><term>Centre</term><term>Coronadite</term><term>Cryptomelane</term><term>Dacite</term><term>Dacitic domes</term><term>Deposit</term><term>Deposition</term><term>Econ</term><term>Electron microprobe analysis</term><term>Epithermal</term><term>Epithermal gold</term><term>Epithermal vein deposits</term><term>Exact analogues</term><term>First generation</term><term>Fissure</term><term>Francisco manganese deposit</term><term>Fytikas</term><term>Galanopoulos</term><term>Geochemistry</term><term>Geol</term><term>Geology</term><term>Geothermal</term><term>Geothermal fluids</term><term>Glasby</term><term>Green horizon</term><term>Growth rate</term><term>Growth rates</term><term>Hauck</term><term>Hein</term><term>High contents</term><term>High mnrfe ratios</term><term>Hollandite</term><term>Host rock</term><term>Hydrohaeterolite</term><term>Hydrohetaerolite</term><term>Hydrothermal</term><term>Hydrothermal activity</term><term>Hydrothermal alteration</term><term>Hydrothermal fluid</term><term>Hydrothermal fluids</term><term>Hydrothermal manganese</term><term>Hydrothermal manganese deposit</term><term>Hydrothermal system</term><term>Iron oxides</term><term>Isomorphous series</term><term>Kaolinite</term><term>Lava</term><term>Liakopoulos</term><term>Magma chamber</term><term>Manganese</term><term>Manganese deposit</term><term>Manganese deposition</term><term>Manganese deposits</term><term>Manganese mineralization</term><term>Manganese oxide minerals</term><term>Manganese oxides</term><term>Marie curie</term><term>Marine deposits</term><term>Matrix</term><term>Microprobe</term><term>Milo</term><term>Milos island</term><term>Mineral deposits</term><term>Mineral exploration</term><term>Mineralization</term><term>Mineralized zone</term><term>Mnrfe</term><term>Mnrfe ratios</term><term>Montmorillonite</term><term>Normal faults</term><term>Optical microscope</term><term>Overlying volcaniclastic sandstone</term><term>Oxide</term><term>Papanikolaou</term><term>Papazachos</term><term>Pflumio</term><term>Phase separation</term><term>Plagioclase</term><term>Plimer</term><term>Pliocene</term><term>Porous volcaniclastic sandstone</term><term>Pyroclastic</term><term>Pyroclastic material</term><term>Pyrolusite</term><term>Quartz</term><term>Ramsdellite</term><term>Rapid uplift</term><term>Sandstone</term><term>Seawater</term><term>Second generation</term><term>Second hydrothermal fluid</term><term>Secondary minerals</term><term>Sericite</term><term>Siliceous matrix</term><term>Southern aegean</term><term>Stratabound</term><term>Strong tectonic activity</term><term>Submarine hydrothermal activity</term><term>Submarine hydrothermal manganese deposits</term><term>Sulphide</term><term>Tectonic</term><term>Tectonic regime</term><term>Tectonic uplift</term><term>Thick layer</term><term>Unaltered dacites</term><term>Uplift</term><term>Upper pliocene</term><term>Vani</term><term>Vani area</term><term>Vani basin</term><term>Vani deposit</term><term>Vani manganese deposit</term><term>Varnavas</term><term>Volcanic</term><term>Volcanic activity</term><term>Volcanic centres</term><term>Volcanic rocks</term><term>Volcaniclastic</term><term>Volcaniclastic sandstone</term><term>Western part</term><term>Western sector</term><term>White horizon</term><term>Yeary1</term></keywords><keywords scheme="Wicri" type="topic" xml:lang="fr"><term>Géochimie</term><term>Géologie</term><term>Manganèse</term><term>Oxyde</term></keywords></textClass><langUsage><language ident="en">en</language></langUsage></profileDesc></teiHeader><front><div type="abstract" xml:lang="en">Abstract: The Vani manganese deposit is located in the rugged NW sector of Milos Island. It occurs within the Vani volcano-sedimentary basin, which is underlain by dacitic domes and flows of Upper Pliocene age (3.5–2.0 Ma). The end of the emplacement of the dacites was marked by the collapse of the magma chamber, which resulted in a huge pyroclastic episode and the deposition of a thick layer of pyroclastic material within a shallow submarine basin. This pyroclastic material subsequently compacted to form the volcaniclastic sandstone, which became the host for the manganese ore beds which were about 4 m thick in the two sections studied. Hydrothermal fluids penetrated these sandstone horizons via fractures and fissures to produce the manganese deposit. The permeable nature of the sandstone facilitated the retention of the hydrothermal fluids within these layers. This permitted the fluids to cool slowly and deposit the manganese oxides almost quantitatively. Formation of the hydrothermal manganese deposit took place fairly rapidly over a period of several tens of thousands of years at most. Strong tectonic activity resulted in rapid uplift of the area which elevated the deposit above sea level. Two generations of manganese oxides have been identified within this deposit; the first generation consists of pyrolusite and ramsdellite; the second generation of oxides of the isostructural series cryptomelane–hollandite–coronadite plus hydrohetaerolite characterized by high contents of K, Ba, Pb and Zn, respectively. This sequence is the result of a two-stage process of formation of the manganese-oxide minerals in which a second high-salinity hydrothermal fluid enriched in Ba, Pb and Zn as a result of the dissolution of sulphide minerals remineralized the original manganese-oxide assemblage. It is this two-stage process of formation, which was mainly responsible for the unique characteristics of this deposit. Although formed in a submarine setting, the deposit shows marked differences in mineralogy and composition from known submarine hydrothermal manganese deposits and is most analogous to the epithermal vein deposits of the southwestern United States.</div></front></TEI><affiliations><list><country><li>France</li><li>Grèce</li><li>Japon</li></country><region><li>Île-de-France</li></region><settlement><li>Paris</li></settlement><orgName><li>Université Pierre-et-Marie-Curie</li></orgName></list><tree><country name="Grèce"><noRegion><name sortKey="Liakopoulos, A" sort="Liakopoulos, A" uniqKey="Liakopoulos A" first="A" last="Liakopoulos">A. Liakopoulos</name></noRegion><name sortKey="Glasby, G P" sort="Glasby, G P" uniqKey="Glasby G" first="G. P" last="Glasby">G. P Glasby</name><name sortKey="Papavassiliou, C T" sort="Papavassiliou, C T" uniqKey="Papavassiliou C" first="C. T" last="Papavassiliou">C. T Papavassiliou</name></country><country name="Japon"><noRegion><name sortKey="Glasby, G P" sort="Glasby, G P" uniqKey="Glasby G" first="G. P" last="Glasby">G. P Glasby</name></noRegion></country><country name="France"><region name="Île-de-France"><name sortKey="Boulegue, J" sort="Boulegue, J" uniqKey="Boulegue J" first="J" last="Boulegue">J. Boulegue</name></region></country></tree></affiliations></record>Pour manipuler ce document sous Unix (Dilib)
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