Submarine hydrothermal metallogenesis associated with the collision of two plates: The Southern Aegean Sea region
Identifieur interne : 000436 ( Main/Exploration ); précédent : 000435; suivant : 000437Submarine hydrothermal metallogenesis associated with the collision of two plates: The Southern Aegean Sea region
Auteurs : S. P Varnavas [Grèce]Source :
- Geochimica et Cosmochimica Acta [ 0016-7037 ] ; 1989.
Descripteurs français
English descriptors
- KwdEn :
- 1oyr, Acid hydrothermal solutions, Active tectonics, Aegean region, African plates, Anomaly, Area1 distribution, Areal distribution, Average sedimentation rate, Basin, Bonatti, Central part, Chemical composition, Concentric zones, Correlation coefficients, Crete, Crete decreases, Cronan, Cronand, Crust, Deep basins, Deeper sediments, Dispersion halo, Dispersion pattern, Earth planet, Eastern mediterranean, Eastern mediterranean sediments, Eastern mediterranean zone, Eastern part, Enrichment, Flank, Galapagos rift, Geochemical, Geochemical anomalies, Geochemical behaviour, Geochemical data, Geochemical investigations, Geochemical variations, Geochemistry, Geol, Geotectonic units, Guaymas basin, Heat flow values, Hellenic system, Hellenic trench, High heat flow, Higher heat flow values, Highest concentration, Highest concentrations, Highest heat flow values, Highest value, Highest values, Hydrothermal, Hydrothermal activity, Hydrothermal event, Hydrothermal field, Hydrothermal influence, Hydrothermal metal sulfides, Hydrothermal solutions, Iraklion, Iraklion basin, Jongsma, Karpathos, Karpathos basin, Karpathos basins, Laboratory experiments, Lowest values, Magmatic, Magmatic material, Maieas basin, Major units, Maleas, Maleas basin, Manganese, Mariana trough, Marine sediments, Maximum depth, Metal sulfides, Metallogenesis, Normal faults, Northern flank, Oceanic crust, Other members, Pacific island, Parallel injections, Plate boundaries, Plate boundary, Plate movements, Pliny, Pliny trench, Pore water geochemical data, Pore waters, Printing office, Same direction, Santorini, Santorini caldera, Santorini volcano, Scientific team, Seafloor, Seamount, Seawater, Sediment, Sediment samples, Sedimentation, Sedimentation rates, Significant geochemical anomalies, Southern aegean, Southern flank, Strabon, Strabon trench, Strabon trenches, Submarine hydrothermal springs, Submarine metallogenesis, Sulfide, Surface sediments, Tectonic, Tectonic activity, Tectonic evolution, Trace elements, Trench, Varnavas, Volcanic, Volcanic arcs, Volcanic bodies.
- Teeft :
- 1oyr, Acid hydrothermal solutions, Active tectonics, Aegean region, African plates, Anomaly, Area1 distribution, Areal distribution, Average sedimentation rate, Basin, Bonatti, Central part, Chemical composition, Concentric zones, Correlation coefficients, Crete, Crete decreases, Cronan, Cronand, Crust, Deep basins, Deeper sediments, Dispersion halo, Dispersion pattern, Earth planet, Eastern mediterranean, Eastern mediterranean sediments, Eastern mediterranean zone, Eastern part, Enrichment, Flank, Galapagos rift, Geochemical, Geochemical anomalies, Geochemical behaviour, Geochemical data, Geochemical investigations, Geochemical variations, Geochemistry, Geol, Geotectonic units, Guaymas basin, Heat flow values, Hellenic system, Hellenic trench, High heat flow, Higher heat flow values, Highest concentration, Highest concentrations, Highest heat flow values, Highest value, Highest values, Hydrothermal, Hydrothermal activity, Hydrothermal event, Hydrothermal field, Hydrothermal influence, Hydrothermal metal sulfides, Hydrothermal solutions, Iraklion, Iraklion basin, Jongsma, Karpathos, Karpathos basin, Karpathos basins, Laboratory experiments, Lowest values, Magmatic, Magmatic material, Maieas basin, Major units, Maleas, Maleas basin, Manganese, Mariana trough, Marine sediments, Maximum depth, Metal sulfides, Metallogenesis, Normal faults, Northern flank, Oceanic crust, Other members, Pacific island, Parallel injections, Plate boundaries, Plate boundary, Plate movements, Pliny, Pliny trench, Pore water geochemical data, Pore waters, Printing office, Same direction, Santorini, Santorini caldera, Santorini volcano, Scientific team, Seafloor, Seamount, Seawater, Sediment, Sediment samples, Sedimentation, Sedimentation rates, Significant geochemical anomalies, Southern aegean, Southern flank, Strabon, Strabon trench, Strabon trenches, Submarine hydrothermal springs, Submarine metallogenesis, Sulfide, Surface sediments, Tectonic, Tectonic activity, Tectonic evolution, Trace elements, Trench, Varnavas, Volcanic, Volcanic arcs, Volcanic bodies.
Abstract
Abstract: The geochemistry of sediments from the Southern Aegean Sea demonstrates that the active tectonics in the Hellenic Arc-Trench system favor hydrothermal mineralization processes involving leaching of oceanic crust. The distribution and geochemical behavior of Mn, Fe, Cu, Zn, P and Ba indicate a hydrothermal influence: i) at plate boundaries such as the Pliny and Strabon Trenches; ii) in fore-arc basins such as Maleas, Iraklion and Karpathos; iii) on the Island Arc. All fore-arc basins having greater Mn enrichments than the trenches are also characterized by higher heat flow values. The greatest Mn enrichments occur at Maleas Basin where a Mn dispersion halo is recognized. This basin is very tectonically active, with the largest group of normal faults, along the planes of which magmatic material was injected, and the highest heat flow values in the Sea of Crete. It also falls in the Eastern Mediterranean Zone of high seismic activity. Because the Fe-Mn sediments identified in the above geotectonic units are the end-members of the hydrothermal fractionation sequence known from areas where leaching of oceanic crust occurs, it is suggested that other members of the sequence such as metal Sulfides may be found. Significant geochemical anomalies of Pb and Zn found in areas of high heat flow and on lines of normal faulting are considered to be traces of the presence of metal sulfides.
Url:
DOI: 10.1016/0016-7037(89)90271-8
Affiliations:
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P Varnavas</name><affiliation wicri:level="1"><country xml:lang="fr">Grèce</country><wicri:regionArea>Department of Geology, University of Patras, Patras</wicri:regionArea><wicri:noRegion>Patras</wicri:noRegion></affiliation></author></analytic><monogr></monogr><series><title level="j">Geochimica et Cosmochimica Acta</title><title level="j" type="abbrev">GCA</title><idno type="ISSN">0016-7037</idno><imprint><publisher>ELSEVIER</publisher><date type="published" when="1989">1989</date><biblScope unit="volume">53</biblScope><biblScope unit="issue">1</biblScope><biblScope unit="page" from="43">43</biblScope><biblScope unit="page" to="57">57</biblScope></imprint><idno type="ISSN">0016-7037</idno></series></biblStruct></sourceDesc><seriesStmt><idno type="ISSN">0016-7037</idno></seriesStmt></fileDesc><profileDesc><textClass><keywords scheme="KwdEn" xml:lang="en"><term>1oyr</term><term>Acid hydrothermal solutions</term><term>Active tectonics</term><term>Aegean region</term><term>African 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ident="en">en</language></langUsage></profileDesc></teiHeader><front><div type="abstract" xml:lang="en">Abstract: The geochemistry of sediments from the Southern Aegean Sea demonstrates that the active tectonics in the Hellenic Arc-Trench system favor hydrothermal mineralization processes involving leaching of oceanic crust. The distribution and geochemical behavior of Mn, Fe, Cu, Zn, P and Ba indicate a hydrothermal influence: i) at plate boundaries such as the Pliny and Strabon Trenches; ii) in fore-arc basins such as Maleas, Iraklion and Karpathos; iii) on the Island Arc. All fore-arc basins having greater Mn enrichments than the trenches are also characterized by higher heat flow values. The greatest Mn enrichments occur at Maleas Basin where a Mn dispersion halo is recognized. This basin is very tectonically active, with the largest group of normal faults, along the planes of which magmatic material was injected, and the highest heat flow values in the Sea of Crete. It also falls in the Eastern Mediterranean Zone of high seismic activity. Because the Fe-Mn sediments identified in the above geotectonic units are the end-members of the hydrothermal fractionation sequence known from areas where leaching of oceanic crust occurs, it is suggested that other members of the sequence such as metal Sulfides may be found. Significant geochemical anomalies of Pb and Zn found in areas of high heat flow and on lines of normal faulting are considered to be traces of the presence of metal sulfides.</div></front></TEI><affiliations><list><country><li>Grèce</li></country></list><tree><country name="Grèce"><noRegion><name sortKey="Varnavas, S P" sort="Varnavas, S P" uniqKey="Varnavas S" first="S. P" last="Varnavas">S. P Varnavas</name></noRegion></country></tree></affiliations></record>Pour manipuler ce document sous Unix (Dilib)
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