Composition and alteration of Cr-spinels from Milia and Pefki serpentinized mantle peridotites (Pindos Ophiolite Complex, Greece)

Kapsiotis, Argyrios

doi:10.2478/geoca-2013-0006

Cited by 30 publications

(17 citation statements)

References 58 publications

(91 reference statements)

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“…They supported a typical MORtype origin for the Dramala harzburgites, as well as their later modification by melt-rock interaction and impregnation processes. Kapsiotis (2014) studied Crspinel compositions from the Pindos serpentinized peridotites and supported that these rocks represent MOR-type mantle residues that were later entrapped and modified in the wedge above a SSZ. According to Saccani et al (2011) the severely depleted harzburgites cropping out along the Albanide-Hellenide ophiolitic belt actually represent residues originally associated with the release of boninite melts from the Mirdita-Pindos sub-oceanic mantle.…”

Section: Previous Work On the Dramala Peridotitesmentioning

confidence: 87%

“…According to Saccani et al (2011) the severely depleted harzburgites cropping out along the Albanide-Hellenide ophiolitic belt actually represent residues originally associated with the release of boninite melts from the Mirdita-Pindos sub-oceanic mantle. Kapsiotis (2014) studied Crspinel compositions from the Pindos serpentinized peridotites and supported that these rocks represent MOR-type mantle residues that were later entrapped and modified in the wedge above a SSZ. Sergeev et al (2014) examined the lithological and isotopic variations of ancient pyroxenite layers intercalated with harzburgites ('mantle layering') in the northeastern part of the Dramala massif.…”

Section: Previous Work On the Dramala Peridotitesmentioning

confidence: 87%

“…2c). Spinel grains may be infrequently replaced by ferrian chromite-clinochlore intergrowths across cracks and boundaries (Kapsiotis, 2014). In the most clinopyroxene-poor harzburgite samples, orthopyroxene clasts may host olivine inclusions.…”

Section: Petrographymentioning

confidence: 99%

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Mineralogy, geochemistry and geotectonic significance of harzburgites from the southern Dramala upper mantle suite, Pindos ophiolite complex, NW Greece

Kapsiotis

2014

Geological Journal

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The Dramala massif, located in the Dinarides–Hellenides orogenic belt, forms the mantle section of the Neotethyan Pindos ophiolite complex in NW continental Greece. Its southern domain is comprised mainly of voluminous harzburgite masses with variable clinopyroxene and olivine modal abundances, ranging from clinopyroxene‐bearing to typical and olivine‐rich harzburgites. The harzburgite varieties are characterized by elevated Cr# [Cr/(Cr + Al)] in Cr‐spinel (0.43–0.79), high forsterite (Fo) content in olivine (0.90–0.93), low Al2O3 content in clinopyroxene (≤1.77 wt.%) and poor whole‐rock abundances of Al2O3 (≤0.68 wt.%), CaO (≤0.68 wt.%), Sc (≤11 ppm) and REE, which are indicative of their refractory nature. In terms of fO2 values, the southern Pindos harzburgites plot between the FMQ‐2 (Fayalite–Magnetite–Quartz) and FMQ + 2 buffers. Simple batch and fractional melting models are not sufficient to explain their depleted composition. Their Ni/Yb ratios vs. Yb bulk‐rock abundances can be reproduced by up to 22–31% closed‐system non‐modal dynamic melting of an assumed spinel‐bearing lherzolite source. Cr‐spinel chemistry data suggest that the southern Dramala harzburgites were formed in an oceanic centre and then were reworked in the mantle wedge above a subducted slab. Combined petrographic and compositional data indicate that the studied harzburgites interacted with arc‐derived tholeiitic melts. This interaction resulted in substantial olivine and minor Cr‐spinel addition to the studied harzburgites, thus enhancing their refractoriness. Cryptic metasomatism was plausibly responsible for the demolition of any strong geochemical signatures suggestive of a previous melting event in a spreading centre. Comparable observations from the neighbouring Vourinos suite imply that the southern Dramala harzburgites probably represent an arc/fore‐arc mantle region within the mutual Pindos–Vourinos, Mesohellenic lithospheric mantle. Copyright © 2014 John Wiley & Sons, Ltd.

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Section: Previous Work On the Dramala Peridotitesmentioning

confidence: 87%

Section: Previous Work On the Dramala Peridotitesmentioning

confidence: 87%

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Mineralogy, geochemistry and geotectonic significance of harzburgites from the southern Dramala upper mantle suite, Pindos ophiolite complex, NW Greece

Kapsiotis

2014

Geological Journal

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“…Solvus determined at 600, 550 and 500°C by Shack and Ghiorso (1991) for chromian spinel coexisting with olivine containing 90% forsterite. Contrastingly, the serpentinized peridotites from the adjacent Pindos massif were affected by a later brief heating event during their exhumation route (Kapsiotis, 2014). The Vourinos peridotites also show evidence for metamorphic reworking followed by subsequent serpentinization .…”

Section: Geotectonic Framework Of Metamorphismmentioning

confidence: 94%

Alteration of chromitites from the Voidolakkos and Xerolivado mines, Vourinos ophiolite complex, Greece: implications for deformation-induced metamorphism

Kapsiotis

2014

Geol. J.

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Chromitites, associated with upper mantle spinel peridotites from the Voidolakkos and Xerolivado districts, located in the Vourinos ophiolite complex, northwestern continental Greece, were re‐investigated with respect to their structural and textural mode of occurrence, as well as their compositional signatures. They include variably deformed banded and podiform chromitite bodies made up of massive, semi‐massive, nodular, anti‐nodular, schlieren and disseminated chromian spinel. Chromitites have suffered intense shearing that was more severe in all but disseminated textured ore. Deformation has partly produced elongation of chromian spinel nodules and widespread protocataclastic zones within chromitites. The examined deposits are composed of magnesiochromite that shows a quite restricted range of Cr# [Cr/(Cr + Al)] values varying between 0.76 and 0.83, whereas Mg# [Mg/(Mg + Fe2+)] ranges from 0.55 to 0.67 accompanied by relatively low content in TiO2 (<0.15 wt.% on average). Compositional data indicate that these high‐Cr chromitite bodies crystallized from melts of boninitic affinities that have been compositionally modified after reaction with depleted harzburgite, followed by interaction with relatively undifferentiated low SiO2 melts within an intertwined system of dunite channels in the mantle wedge below the fore‐arc region of a supra‐subduction zone (SSZ). Magnesiochromite displays limited textural modification, being scarcely transformed to an opaque spinel phase along grain boundaries and fracture walls. The opaque spinel phase is characterized by elevated Cr# (0.76–0.97), relatively low Mg# (0.33–0.63) and low Fe3+# (≤0.14) and corresponds to ferrian chromite. Microscopic studies revealed that ferrian chromite is paragenetically associated with clinochlore even in unaltered chromitite specimens and the degree of serpentinization does not correlate with the frequency and abundance of alteration effects on magnesiochromite. Therefore, it is supported that regional metamorphism prior to serpentinization was responsible for the formation of the ferrian chromite–clinochlore association. In addition, magnesiochromite alteration was systematically recorded only in variably sheared chromitites displaying protocataclastic brecciation, thus it can be claimed that metamorphism was mainly governed by deformation mechanisms, which took place during the transition from ductile to semi‐brittle conditions. Ferrian chromite can be locally erratically enriched in MnO and ZnO, which is attributed to a Mn‐ and Zn‐bearing, slightly acid post‐magmatic fluid that invaded the chromitites across weakness zones. Overall, the data suggest that after magnesiochromite equilibration with the intergranular olivine, both phases were partly replaced by ferrian chromite and clinochlore, respectively, during a brief, fluid assisted episode of retrogade metamorphism that took place within a temperature interval between 700 and 300 °C, before ocean‐floor alteration. Copyright © 2014 John Wiley & Sons, Ltd.

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“…Such elemental exchanges are driven by the subsequent dissolution-precipitation reaction, given by Gervilla et al (2012) Kamenetsky et al (2001) values (0.05-0.32), which implies considerable discrepancies in the oxidation conditions during the alteration process, varying from low to moderately oxidizing. Therefore, it can be inferred that although the metamorphic incident responsible for Cr-spinel alteration was short-lived, it was quite intense to allow the formation of compositionally mature ferrian chromite (e.g., Kapsiotis 2014). Nevertheless, in addition to ferrian chromite, magnetite was also found as a minor alteration product of Cr-spinel in the high-Al chromitite pod.…”

Section: Origin Of Cr-spinel Alterationmentioning

confidence: 99%

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

Kapsiotis¹

2014

Acta Geologica Polonica

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ABSTRACT:Kapsiotis, A.N. 2014. Alteration of mélange-hosted chromitites from Korydallos, Pindos ophiolite complex, Greece: evidence for modification by a residual high-T post-magmatic fluid. Acta Geologica Polonica, 64 (4), 473-494. Warszawa.The peridotites from the area of Korydallos, in the Pindos ophiolitic massif, crop out as deformed slices of a rather dismembered sub-oceanic, lithospheric mantle section and are tectonically enclosed within the Avdella mélange. The most sizeable block is a chromitite-bearing serpentinite showing a mesh texture. Accessory, subhedral to euhedral Cr-spinels in the serpentinite display Cr# )] values that vary between 0.57 and 0.62, whereas the TiO 2 content may be up to 0.47 wt.%. The serpentinite fragment is characterized by low abundances of magmaphile elements (Al 2 O 3 : 0.66 wt.%, CaO: 0.12 wt.%, Na 2 O: 0.08 wt.%, TiO 2 : 0.007 wt.%, Sc: 4 ppm) and enrichment in compatible elements (Cr: 2780 ppm and Ni: 2110 ppm). Overall data are in accordance with derivation of the serpentinite exotic block from a dunite that was formed in the mantle region underneath a back-arc basin before tectonic incorporation in the Korydallos mélange.Two compositionally different chromitite pods are recognized in the studied serpentinite fragment, a Cr-rich chromitite and a high-Al chromitite, which have been ascribed to crystallization from a single, progressively differentiating MORB/IAT melt. Although both pods are fully serpentinized only the Al-rich one shows signs of limited Cr-spinel replacement by an opaque spinel phase and clinochlore across grain boundaries and fractures. Modification of the ore-making Cr-spinel is uneven among the Al-rich chromitite specimens. Textural features such as olivine replacement by clinochlore and clinochlore disruption by serpentine indicate that Cr-spinel alteration is not apparently related to serpentinization. From the unaltered Cr-spinel cores to their reworked boundaries the Al 2 O 3 and MgO abundances decrease, being mainly compensated by FeO t and Cr 2 O 3 increases. Such compositional variations are suggestive of restricted ferrian chromite (and minor magnetite) substitution for Cr-spinel during a short-lived but relatively intense, low amphibolite facies metamorphic episode (temperature: 400-700 °C). The presence of tremolite and clinochlore in the interstitial groundmass of the high-Al chromitite and their absence from the Cr-rich chromitite matrix imply that after chromitite formation a small volume of a high temperature, post-magmatic fluid reacted with Cr-spinel, triggering its alteration.

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Composition and alteration of Cr-spinels from Milia and Pefki serpentinized mantle peridotites (Pindos Ophiolite Complex, Greece)

Cited by 30 publications

References 58 publications

Mineralogy, geochemistry and geotectonic significance of harzburgites from the southern Dramala upper mantle suite, Pindos ophiolite complex, NW Greece

Mineralogy, geochemistry and geotectonic significance of harzburgites from the southern Dramala upper mantle suite, Pindos ophiolite complex, NW Greece

Alteration of chromitites from the Voidolakkos and Xerolivado mines, Vourinos ophiolite complex, Greece: implications for deformation-induced metamorphism

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

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