Details

Title

Alteration of mélange-hosted chromitites from Korydallos, Pindos ophiolite complex, Greece: evidence for modification by a residual high-T post-magmatic fluid

Journal title

Acta Geologica Polonica

Yearbook

2014

Numer

No 4

Publication authors

Divisions of PAS

Nauki o Ziemi

Publisher

Komitet Nauk Geologicznych PAN ; Wydział Geologii UW

Date

2014

Identifier

ISSN 0001-5709

References

Prichard (2008), Contrasting platinum - group mineral assemblages from two different podiform chromitite localities in the Pindos ophiolite complex Greece, The Canadian Mineralogist, 46, 329, doi.org/10.3749/canmin.46.2.329 ; Dilek (2007), Suprasubduction zone ophiolite formation along the periphery of Mesozoic Gondwana, Gondwana Research, 11, 453, doi.org/10.1016/j.gr.2007.01.005 ; Beccaluva (2005), Magma generation and crustal accretion as evidenced by supra - subduction ophiolite of the Albanide - Hellenide Subpelagonian Zone The, Island Arc, 14, 551, doi.org/10.1111/j.1440-1738.2005.00483.x ; Nozaka (2011), Alteration of the oceanic lower crust at a slow - spreading axis : insight from vein - related zoned halos in olivine gabbro from Atlantis Massif Mid - Atlantic Ridge, Journal of Petrology, 52, 643, doi.org/10.1093/petrology/egq098 ; Evans (1975), Chrome - spinel in progressive metamorphism A preliminary analysis, Geochimica et Cosmochimica Acta, 39. ; Ghikas (2010), Structure and tectonics of subophiolitic melanges in the western Hellenides implications for ophiolite emplacement tectonics, International Geology Reviews, 52, 423, doi.org/10.1080/00206810902951106 ; Azer (2014), Petrological studies of Neoproterozoic serpentinized ultramafics of the Nubian Shield : spinel compositions as evidence of the tectonic evolution of Egyptian ophiolites, Acta Geologica Polonica, 64, 113, doi.org/10.2478/agp-2014-0006 ; Hill (1979), Systematics of the spinel structure type and Chemistry of, Physics Minerals, 4, 317, doi.org/10.1007/BF00307535 ; Sobolev (2005), Significance of accessory chrome spinel in identifying serpentinite paragenesis, International Geology Review, 47. ; Arai (2014), Precipitation and dissolution of chromite by hydrothermal solutions in the Oman ophiolite : New behavior of Cr and chromite, American Mineralogist, 99. ; Snow (1995), Pervasive magnesium loss by marine weathering of peridotites, Geochimica et Cosmochimica Acta, 59, 4219, doi.org/10.1016/0016-7037(95)00239-V ; Pelletier (2008), and Be Contents of Harzburgites from the Dramala Complex ( Pindos Ophiolite Evidence for a MORtype Mantle in a Supra - subduction Zone Environment, Journal of Petrology, 49. ; Gervilla (2012), Formation of ferrian chromite in podiform chromitites from the Golyamo Kamenyane serpentinite Eastern Rhodopes SE Bulgaria : a two stage process Contributions to Mineralogy and, Petrology, 164. ; Economou (2003), Apatite and Mn Zn Co - enriched chromite in Ni Laterites of northern Greece and their genetic significance, Journal of Geochemical Exploration, 80, 41, doi.org/10.1016/S0375-6742(03)00181-X ; Kamenetsky (2001), Factors controlling chemistry of magmatic spinel : An empirical study of associated olivine spinel and melt inclusions from primitive rocks, Journal of Petrology, 42, 655, doi.org/10.1093/petrology/42.4.655 ; Myhill (2011), Constraints on the evolution of the Mesohellenic Ophiolite from subophiolitic metamorphic rocks In : Melanges : Processes of Formation and Societal Significance, Geological Society of America Special Papers, 480. ; Arai (2006), Low - T formation of high - Cr spinel with apparently primary chemical characteristics within podiform chromitite from Rayat northeastern Iraq, Mineralogical Magazine, 70, 499, doi.org/10.1180/0026461067050353 ; Robertson (2002), Overview of the genesis and emplacement of Mesozoic ophiolites in the Eastern Mediterranean Tethyan region, Lithos, 65, 1, doi.org/10.1016/S0024-4937(02)00160-3 ; Ceuleneer (1988), Mantle flow patterns an oceanic spreading center : the Oman peridotites record, Tectonophysics, 151. ; Hoffman (1992), Instrumental Neutron Activation in Geoanalysis, Journal of Geochemical Exploration, 44, 297, doi.org/10.1016/0375-6742(92)90053-B ; Jones (1991), Tectono - stratigraphy and evolution of the Mesozoic Pindos ophiolite and related units northwestern Greece of the Society of, Journal Geological London, 148. ; Liati (2004), The age of ophiolitic rocks of the Hellenides ( Vourinos first U - Pb ion microprobe ( SHRIMP ) zircon ages, Chemical Geology, 207. ; Suita (1996), Cr - spinel from Brazilian mafic - ultramafic complexes : Metamorphic modifications, International Geological Review, 38. ; Wood (1986), Order - disorder phenomena in MgAl spinel, American Mineralogist, 71, 2. ; Merlini (2009), Ferritchromite and chromian - chlorite formation in melange - hosted Kalkan chromitite ( Southern Urals Russia ), American Mineralogist, 94, 1459, doi.org/10.2138/am.2009.3082 ; Pawley (2002), Chlorite stability in mantle peridotite : the reaction clinochlore + enstatite = forsterite Contributions to Mineralogy and, Petrology, 144, 449. ; Ballhaus (1986), Sulfide and plati num mineralization in the Merensky Reef : evidence from hydrous silicates and fluids inclusions Contributions to Mineralogy and, Petrology, 94, 193. ; Shack (1991), Chromian spinels as petrogenetic indicators : thermodynamic and petrological applications, American Mineralogist, 76, 827. ; Stern (1979), Vertical variations in the effects of hydrothermal metamorphism in Chilean ophiolitew : Their implications for ocean floor metamorphism, Tectonophysics, 55, 179, doi.org/10.1016/0040-1951(79)90341-X ; Kapsiotis (2014), Composition and alteration of Cr - spinels from Milia and Pefki serpentinized mantle peridotites Pindos Ophiolite Complex Greece, Geologica Carpathica, 65. ; Kapsiotis (2010), Platinum - group mineral characterization in concentrates from high - grade PGE Al - rich chromitites of Korydallos Area in the Pindos Ophiolite Complex NW Greece, Resource Geology, 60. ; Saumur (2013), Zoned Cr - spinel and ferritchromite alteration in forearc mantle serpentinites of the Rio San Juan Complex Dominican Republic, Mineralogical Magazine, 77. ; Ross (1996), Comparison of evolution and tectonic significance of the Pindos and Vourinos ophiolite suites northern Greece, Tectonophysics, 256. ; Jan (1990), Chromian spinel - silicate chemistry in ultramafic rocks of the Jijal complex Nothwestern Pakistan, Journal of Petrology, 31, 667, doi.org/10.1093/petrology/31.3.667 ; Bailey (1980), Summary of recommendations of AIPEA nomenclature committee on clay minerals, American Mineralogist, 65, 1. ; Ahmed (2001), Petrological characteristics of podiform chromitites and associated peridotites of the Pan African Proterozoic ophiolite complexes of Egypt, Mineralium Deposita, 36. ; Teixeira (2012), Chromian spinels and magnetite of serpentinites steatitic rocks tremolite asbestos and chloritites from Braganca massif northeastern Portugal, Periodico di Mineralogia, 81, 237. ; Grieco (2011), Chromite alteration processes within Vourinos ophiolite, International Journal of Earth Sciences, 101. ; Derbyshire (2013), Compositionally heterogeneous podiform chromitite in the Shetland Ophiolite Complex Implications for chromitite petrogenesis and late - stage alteration in the upper mantle portion of a supra - subduction zone ophiolite, Lithos, 162. ; Singh (2013), Genetic implications of Zn - and Mn - rich Cr - spinels in serpentinites of the Tidding Suture Zone eastern Himalaya NE India, Geological Journal, 48, 22, doi.org/10.1002/gj.2428 ; Melcher (1997), Petrogenesis of the ophiolitic giant chromite deposits of Kempirsai Kazakhstan : a study of solid and fluid inclusions in chromite, Journal of Petrology, 38. ; Kapsiotis (2013), Genesis of chromitites from Korydallos Pindos Ophiolite Complex Greece based on spinel chemistry and PGE - mineralogy of, Journal Geosciences, 58, 49, doi.org/10.3190/jgeosci.133 ; Danelian (2001), Neotethyan evolution of eastern Greece ( Pagondas Me lange Evia Island ) inferred from Radiolarian biostratigraphy and the geochemistry of associated extrusive rocks, Geological Magazine, 138. ; Candia (1997), Chromian spinels in metamorphosed ultramafic rocks from Mangabal I and II complexes, Mineralogy and Petrology, 60, 27, doi.org/10.1007/BF01163133 ; Saccani (2004), Petrogenesis and tectono - magmatic significance of the Albanide - Hellenide ophiolites, Ofioliti, 29, 77. ; Zhou (2005), REE and PGE geochemical constraints on the formation of dunites in the Luobusa ophiolite Southern Tibet, Journal of Petrology, 46, 615, doi.org/10.1093/petrology/egh091 ; Mukherjee (2010), Compositional variations in the Mesoarchean chromitites of the Nuggihalli schist belt Western Dharwar Craton India potential parental melts and implications for tectonic setting Contributions to Mineralogy and, Petrology, 160. ; Suhr (1993), Evaluation of upper mantle microstructures in the Table Mountain Massif ( Bay of Islands ophiolite ) of, Journal Structural Geology, 15, 1273, doi.org/10.1016/0191-8141(93)90102-G ; Saccani (2011), Petrogenesis and tectono - magmatic significance of basalts and mantle peridotites from the Albanian - Greek ophiolites and sub - ophiolitic melanges New constraints for the Triassic - Jurassic evolution of the Neo - Tethys in the Dinaride sector, Lithos, 124. ; Ferrario (1990), Platinum - group mineral inclusions in chromitites of the Finero mafic - ultramafic complex ( Ivrea - Zone Italy ), Mineralogy and Petrology, 41, 125, doi.org/10.1007/BF01168491 ; Dick (1984), Chromian spinel as a petrogenetic indicator in abyssal and alpine - type peridotites and spatially associated lavas Contributions to Mineralogy and, Petrology, 86, 54. ; Burkhard (1993), Accessory chromium spinels : Their coexistence and alteration in serpentinites, Geochimica et Cosmochimica Acta, 57, 1297, doi.org/10.1016/0016-7037(93)90066-6 ; Beccaluva (1984), Two magmatic series with island arc affinities within the Vourinos Ophiolites Contributions to Mineralogy and, Petrology, 85, 253. ; Nicolas (1986), Structure and petrology of peridotites : Clues to their geodynamic environment, Review Geophysics, 27, 999. ; Leake (1997), others Nomenclature of amphiboles : report of the subcommittee on amphiboles of the international mineralogical association commission of new minerals and mineral names, The Canadian Mineralogist, 20, 219. ; Ohara (2006), Mantle process beneath Philippine Sea backarc spreading ridges : A synthesis of peridotite petrology and tectonics The, Island Arc, 15, 119, doi.org/10.1111/j.1440-1738.2006.00515.x ; Gonzalez (2009), Metamorphism on chromite ores from the Dobromirtsi ultramafic massif Rhodope mountains SE Bulgaria, Geologica Acta, 7, 413. ; Gahlan (2007), Genesis of peculiarly zoned Co Zn and Mn - rich chromian spinel in serpentinite of Bou - Azzer ophiolite Anti - Atlas Morocco of and, Journal Mineralogical Petrological Sciences, 2, 69, doi.org/10.2465/jmps.060212 ; Kimball (1990), Effects of hydrothermal alteration on the composition of chromian spinels Contributions to Mineralogy and, Petrology, 105. ; Mellini (2005), Hydrothermally reset magmatic spinels in retrogade serpentinites : Formation of ferritchromit rims and chlorite aureoles Contributions to Mineralogy and, Petrology, 149. ; Xiong (2014), Origin of podiform chromitite a new model based on the Luobusa ophiolite Tibet, Gondwana Research, 10. ; Ernst (1993), Metamorphism of Franciscan tectonostratigraphic assemblage Pacheco Pass area east - central Diablo Range California Coast Ranges of the, Bulletin Geological Society of America, 105, 618, doi.org/10.1130/0016-7606(1993)105<0618:MOFTAP>2.3.CO;2 ; Wylie (1987), Compositional zoning in unusual Zn - rich chromite from the Sykeville district of Maryland and its bearing on the origin of the ferritchromit, American Mineralogist, 72, 413. ; Hellebrand (2001), Coupled major and trace elements as indicator of the extent of melting in mid - ocean - ridge peridotites, Nature, 410. ; Dijkstra (2003), Diffuse porous melt flow and meltrock reaction in the mantle lithosphere at a slow - spreading ridge : A structural petrology and LA ICP MS study of the Othris Peridotite Massif, Geochemistry Geophysics Geosystems, 4, 1029, doi.org/10.1029/2001GC000278 ; Dubois (2005), Petrological and geochemical evidence for the origin of the Yarlung Zangbo ophiolites southern Tibet, Chemical Geology, 214. ; Ulmer (1974), Alteration of chromite during serpentinization in the Pennsylvania - Maryland district, American Mineralogist, 59, 1236. ; Purvis (1972), The geology of part of the Carr Boyd rocks complex and its associated nickel mineralization Western Australia, Economic Geology, 67. ; Sun (1977), Chemical Heterogeneity of Archaean Mantle Composition of Earth and Mantle Evolution, Earth and Planetary Science Letters, 35, 429, doi.org/10.1016/0012-821X(77)90076-0 ; Thuizat (1981), Ar dating of some infra - ophiolitic metamorphic soles from the Eastern Mediterranean : new evidence for ocean thrusting before obduction, Earth and Planetary Science Letters, 52, 301, doi.org/10.1016/0012-821X(81)90185-0 ; Ohara (2002), Peridotites from the Mariana trough : First look at the mantle beneath an active back - arc basin Contributions to Mineralogy and, Petrology, 143. ; Ohara (1998), Peridotites from the southern Mariana forearc : heterogeneous fluid supply in the mantle wedge The, Island Arc, 7, 541, doi.org/10.1111/j.1440-1738.1998.00209.x ; Barnes (2000), Chromite in komatiites II Modification during greenschist to mid - amphibolite facies metamorphism, Journal of Petrology, 41, 387, doi.org/10.1093/petrology/41.3.387 ; Robertson (1991), Palaeogeographic and palaeotectonic evolution of the Eastern Mediterranean Neotethys, Palaeogeography Palaeoclimatology Palaeoecology, 87, 289, doi.org/10.1016/0031-0182(91)90140-M ; Proenza (1999), and Cr - rich chromitites from the Mayari - Baracoa ophiolitic belt ( eastern Cuba Consequence of interaction between volatile - rich melts and peridotites in suprasubduction mantle, Economic Geology, 94, 547, doi.org/10.2113/gsecongeo.94.4.547 ; Ahmed (2012), Compositional variations and tectonic settings of podiform chromitites and associated ultramafic rocks of the Neoproterozoic ophiolite at Wadi Al Hwanet northwestern Saudi Arabia, Journal of Asian Earth Sciences, 56, 118, doi.org/10.1016/j.jseaes.2012.05.002

DOI

10.2478/agp-2014-0025

×