Re–Os isotope evidence for mixed source components in carbonate-replacement Pb–Zn–Ag deposits in the Lavrion district, Attica, Greece
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P. Spry | R. Mathur | V. Melfos | P. Voudouris | T. Bonsall
[1] B. Grasemann,et al. Footwall mineralization during Late Miocene extension along the West Cycladic Detachment System, Lavrion, Greece , 2013 .
[2] P. Spry,et al. Extremely Re-Rich Molybdenite from Porphyry Cu-Mo-Au Prospects in Northeastern Greece: Mode of Occurrence, Causes of Enrichment, and Implications for Gold Exploration , 2013 .
[3] C. Gauert,et al. Evidence for mixing of Re–Os isotopes at < 2.7 Ga and support of a remobilized placer model in Witwatersrand sulfides and native Au , 2013 .
[4] C. Lawley,et al. Re-Os GEOCHRONOLOGY OF QUARTZ-ENCLOSED ULTRAFINE MOLYBDENITE: IMPLICATIONS FOR ORE GEOCHRONOLOGY , 2012 .
[5] T. Oberthür,et al. The 190Pt–186Os decay system applied to dating platinum-group element mineralization of the Bushveld Complex, South Africa , 2012 .
[6] 刘军,et al. Re–Os sulfide (chalcopyrite, pyrite and molybdenite) systematics and fluid inclusion study of the Duobaoshan porphyry Cu (Mo) deposit, Heilongjiang Province, China , 2012 .
[7] P. Spry,et al. The Geochemistry of Carbonate-Replacement Pb-Zn-Ag Mineralization in the Lavrion District, Attica, Greece: Fluid Inclusion, Stable Isotope, and Rare Earth Element Studies , 2011 .
[8] Yali Sun,et al. Re–Os and U–Pb Geochronology of the Erlihe Pb–Zn Deposit, Qinling Orogenic Belt, Central China, and Constraints on Its Deposit Genesis , 2011 .
[9] Chad J Ellsworth,et al. Re-Os Evidence Used to Link Regional Mineralization Processes to the Chesapeake Bay Bolig’s Impact in the Northeastern United States , 2010 .
[10] R. Creaser,et al. Constraints on the genesis of gold mineralization at the Homestake Gold Deposit, Black Hills, South Dakota from rhenium–osmium sulfide geochronology , 2010 .
[11] P. Spry,et al. RHENIUM-RICH MOLYBDENITE AND RHENIITE IN THE PAGONI RACHI Mo–Cu–Te–Ag–Au PROSPECT, NORTHERN GREECE: IMPLICATIONS FOR THE Re GEOCHEMISTRY OF PORPHYRY-STYLE Cu–Mo AND Mo MINERALIZATION , 2009 .
[12] G. Pe‐Piper,et al. Late Miocene magmatic activity in the Attic-Cycladic Belt of the Aegean (Lavrion, SE Attica, Greece): implications for the geodynamic evolution and timing of ore deposition , 2009, Geological Magazine.
[13] K. Kelley,et al. Re-Os SULFIDE (BORNITE, CHALCOPYRITE, AND PYRITE) SYSTEMATICS OF THE CARBONATE-HOSTED COPPER DEPOSITS AT RUBY CREEK, SOUTHERN BROOKS RANGE, ALASKA , 2009 .
[14] I. Baziotis,et al. High-pressure/low-temperature metamorphism of basalts in Lavrion (Greece): implications for the preservation of peak metamorphic assemblages in blueschists and greenschists , 2009 .
[15] L. Reisberg,et al. Re-Os SYSTEMATICS OF PYRITE FROM THE BOLCANA PORPHYRY COPPER DEPOSIT, APUSENI MOUNTAINS, ROMANIA , 2008 .
[16] G. Pe‐Piper,et al. The Miocene igneous rocks in the Basal Unit of Lavrion (SE Attica, Greece): petrology and geodynamic implications , 2007, Geological Magazine.
[17] J. Ketchum,et al. Re-Os MOLYBDENITE AGES FROM THE ARCHEAN YELLOWKNIFE GREENSTONE BELT: COMPARISON TO U-Pb AGES AND EVIDENCE FOR METAL INTRODUCTION AT ~2675 Ma , 2007 .
[18] N. Skarpelis. The Lavrion deposit (SE Attica, Greece): geology, mineralogy and minor elements chemistry , 2007 .
[19] M. Bröcker,et al. Protolith Ages of Meta‐igneous and Metatuffaceous Rocks from the Cycladic Blueschist Unit, Greece: Results of a Reconnaissance U‐Pb Zircon Study , 2007, The Journal of Geology.
[20] M. Bröcker,et al. Ionprobe U‐Pb zircon ages from the high‐pressure/low‐temperature mélange of Syros, Greece: age diversity and the importance of pre‐Eocene subduction , 2006 .
[21] L. Franz,et al. Dating metamorphism and tectonic juxtaposition on Andros Island (Cyclades, Greece): results of a Rb–Sr study , 2006, Geological Magazine.
[22] G. Lister,et al. Several distinct tectono-metamorphic slices in the Cycladic eclogite–blueschist belt, Greece , 2005 .
[23] R. Mathur,et al. A Re–Os isotope study of sedimentary rocks and copper–gold ores from the Ertsberg District, West Papua, Indonesia , 2005 .
[24] R. Creaser,et al. Re-Os sulfide geochronology of the Red Dog sediment-hosted Zn-Pb-Ag deposit, Brooks Range, Alaska , 2004 .
[25] D. Lentz. The igneous rocks of Greece: The anatomy of an orogen. Georgia Pe-Piper and David J.W. Piper. , 2004 .
[26] B. Marty,et al. Osmium, sulphur, and helium isotopic results from the giant Neoproterozoic epithermal Imiter silver deposit, Morocco: evidence for a mantle source , 2004 .
[27] M. Bröcker,et al. High‐Si phengite records the time of greenschist facies overprinting: implications for models suggesting mega‐detachments in the Aegean Sea , 2004 .
[28] I. Villa,et al. Zircons from Syros, Cyclades, Greece—Recrystallization and Mobilization of Zircon During High-Pressure Metamorphism , 2003 .
[29] Robert Marschik,et al. Age of Mineralization of the Candelaria Fe Oxide Cu-Au Deposit and the Origin of the Chilean Iron Belt, Based on Re-Os Isotopes , 2003 .
[30] H. Stein,et al. Molybdenite Re–Os dating of biotite dehydration melting in the Rogaland high-temperature granulites, S Norway , 2003 .
[31] R. Mathur,et al. Re–Os isotopes applied to the epithermal gold deposits near Bucaramanga, northeastern Colombia , 2003 .
[32] J. Chesley,et al. A Major Archean, Gold- and Crust-Forming Event in the Kaapvaal Craton, South Africa , 2002, Science.
[33] C. Hart,et al. Absolute timing of sulfide and gold mineralization: A comparison of Re-Os molybdenite and Ar-Ar mica methods from the Tintina Gold Belt, Alaska , 2002 .
[34] R. Altherr,et al. I-type plutonism in a continental back-arc setting: Miocene granitoids and monzonites from the central Aegean Sea, Greece , 2002 .
[35] L. Jolivet,et al. Relation between the intensity of deformation and retrogression in blueschist metapelites of Tinos Island (Greece) evidenced by chlorite–mica local equilibria , 2002 .
[36] U. Ring,et al. The weak and superfast Cretan detachment, Greece: exhumation at subduction rates in extruding wedges , 2002, Journal of the Geological Society.
[37] N. Skarpelis. Geodynamics and evolution of the Miocene mineralization in the Cycladic - Pelagonian belt, Hellenides , 2002 .
[38] K. Farley. (U-Th)/He Dating: Techniques, Calibrations, and Applications , 2002 .
[39] J. Morgan,et al. The remarkable Re–Os chronometer in molybdenite: how and why it works , 2001 .
[40] L. Jolivet,et al. Exhumation of Syros and Sifnos metamorphic rocks (Cyclades, Greece). New constraints on the P-T paths , 2001 .
[41] Y. Terakado. Re-Os dating of the Kuroko ores from the Wanibuchi Mine, Shimane Prefecture, southwestern Japan. , 2001 .
[42] U. Ring,et al. Miocene high-pressure metamorphism in the Cyclades and Crete, Aegean Sea, Greece: Evidence for large-magnitude displacement on the Cretan detachment , 2001 .
[43] Katsuhiko Suzuki,et al. Disturbance of the re-os chronometer of molybdenites from the late-caledonian galway granite, ireland, by hydrothermal fluid circulation. , 2001 .
[44] R. Mathur,et al. Re-Os Isotopes of Base Metal Porphyry Deposits , 2001 .
[45] A. Photiades,et al. Stratigraphy and geological structure of the Lavrion area (Attica, Greece) , 2001 .
[46] R. Creaser,et al. Re-Os Geochronology and Systematics in Molybdenite from the Endako Porphyry Molybdenum Deposit, British Columbia, Canada , 2001 .
[47] J. Morgan,et al. Re-Os Dating of Low-Level Highly Radiogenic (LLHR) Sulfides: The Harnäs Gold Deposit, Southwest Sweden, Records Continental-Scale Tectonic Events , 2000 .
[48] R. Mathur,et al. Different crustal sources for Au-rich and Au-poor ores of the Grasberg Cu–Au porphyry deposit , 2000 .
[49] J. Raith,et al. Re–Os dating and sulfur isotope composition of molybdenite from tungsten deposits in western Namaqualand, South Africa: implications for ore genesis and the timing of metamorphism , 2000 .
[50] B. W. Evans,et al. Origin, HP/LT metamorphism and cooling of ophiolitic mélanges in southern Evia (NW Cyclades), Greece , 2000 .
[51] D. Cherniak,et al. Diffusion of osmium in pyrrhotite and pyrite: implications for closure of the Re–Os isotopic system , 2000 .
[52] A. J. Naldrett,et al. Re-Os Isotope Systematics of the Voisey’s Bay Ni-Cu-Co Magmatic Sulfide System, Labrador, Canada: II. Implications for Parental Magma Chemistry, Ore Genesis, and Metal Redistribution , 2000 .
[53] A. Pierson‐Wickmann,et al. The Os isotopic composition of Himalayan river bedloads and bedrocks: importance of black shales , 2000 .
[54] H. Kagi,et al. Experimental alteration of molybdenite: evaluation of the Re–Os system, infrared spectroscopic profile and polytype , 2000 .
[55] R. Mathur,et al. Age and sources of the ore at Tharsis and Rio Tinto, Iberian Pyrite Belt, from Re-Os isotopes , 1999 .
[56] G. Tsokas,et al. Analysis of potential field anomalies in Lavrion mining area, Greece , 1998 .
[57] J. Morgan,et al. Re-Os ages for Archean molybdenite and pyrite, Kuittila-Kivisuo, Finland and Proterozoic molybdenite, Kabeliai, Lithuania: testing the chronometer in a metamorphic and metasomatic setting , 1998 .
[58] L. Franz,et al. Rb–Sr isotope studies on Tinos Island (Cyclades, Greece): additional time constraints for metamorphism, extent of infiltration-controlled overprinting and deformational activity , 1998, Geological Magazine.
[59] J. Chesley,et al. Re-Os isotope systematics of sulfides from felsic igneous rocks: Application to base metal porphyry mineralization in Chile , 1997 .
[60] J. Morgan,et al. Re-Os systematics of early proterozoic ferropicrites, Pechenga Complex, northwestern Russia: Evidence for ancient 187Os-enriched plumes , 1997 .
[61] J. Morgan,et al. The osmium isotopic composition of the Earth's primitive upper mantle , 1996, Nature.
[62] E. Baltatzis. Blueschist-to-greenschist transition and the P-T path of prasinites from the Lavrion area, greece , 1996, Mineralogical Magazine.
[63] R. Walker,et al. Carius tube digestion for low-blank rhenium-osmium analysis , 1995 .
[64] M. Bröcker,et al. 40Ar/39Ar and oxygen isotope studies of polymetamorphism from Tinos Island, Cycladic blueschist belt, Greece , 1993 .
[65] J. Ruíz,et al. Rhenium behavior in molybdenite in hypogene and near-surface environments: Implications for Re-Os geochronometry , 1993 .
[66] R. Carlson,et al. Evidence from Re–Os isotopes for plume–lithosphere mixing in Karoo flood basalt genesis , 1992, Nature.
[67] G. Wasserburg,et al. Negative thermal ion mass spectrometry of osmium, rhenium, and iridium , 1991 .
[68] F. Albarède,et al. The Pb-Sr-Nd isotope geochemistry of some recent circum-Mediterranean granites , 1986 .
[69] J. Luck,et al. The study of molybdenites through the187Re-187Os chronometer , 1982 .
[70] J. Luck,et al. Osmium isotopes as petrogenetic and geological tracers , 1980 .