Geochemistry of amphibolites and related graphitic gneisses from the Suchý and Malá Magura Mountains (central Western Carpathians) – evidence for relics of the Variscan ophiolite complex

Ivan, Peter; Méres, Štefan

doi:10.1515/geoca-2015-0030

Cited by 8 publications

(10 citation statements)

References 35 publications

(13 reference statements)

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“…The bulk chemistries of Gemericum, Veporicum and Tatricum amphibolites are very similar to each other and also to that of our samples, having subalkaline, tholeiitic character (Fig. 3) (Bajanik & Hovorka, 1981, Hovorka et al, 1993, Ivan et al, 2001, Faryad et al, 2005, Ivan & Méres, 2015. On the AFM diagram, the distribution of the data of the samples and the data of the possible provenance fields overlap each other (Fig.…”

Section: Possible Provenance Fieldssupporting

confidence: 79%

“…On the AFM diagram, the distribution of the data of the samples and the data of the possible provenance fields overlap each other (Fig. 4) (Bajanik & Hovorka, 1981, Hovorka et al, 1993, Ivan et al, 2001, Faryad et al, 2005, Ivan & Méres, 2015. Using only the major element composition of bulk chemistry, the provenance field cannot be specified.…”

Section: Possible Provenance Fieldsmentioning

confidence: 99%

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Archaeometrical results related to Neolithic amphibolite stone implements from Northeast Hungary

Kereskényi¹,

Szakmány

Fehér³

et al. 2020

Journal of Archaeological Science: Reports

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28 amphibolite Neolithic polished stone implements deriving from different archaeological localities and cultures in Northeast Hungary (Borsod-Abaúj-Zemplén County) were archaeometrically analysed by mainly non-destructive methods (MS, EDS/SEM, PGAA). Bulk chemistry of the samples showing subalkali characteristics. The amphibolite polished stone tools were divided into two groups based on their mineral components and metamorphic evolution. A single Ca-amphibole approach was used to calculate peak P-T conditions to determine a thermobarometric model for the amphibolite implements. Data of the studied samples were compared to those of the nearest amphibolite outcrops in Gemericum, Veporicum, Tatricum and Zemplinikum (Slovakia). The Variscan P-T loop covered the thermobarometric data of the analysed stone implements and the amphibolite outcrops. The source areas are assumed to be these fields and/or the crossing riverbeds flowing through them to Borsod-Abaúj-Zemplén County, the archaeological collecting territory of the amphibolite stone axes.

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Section: Possible Provenance Fieldssupporting

confidence: 79%

Section: Possible Provenance Fieldsmentioning

confidence: 99%

Archaeometrical results related to Neolithic amphibolite stone implements from Northeast Hungary

Kereskényi¹,

Szakmány

Fehér³

et al. 2020

Journal of Archaeological Science: Reports

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“…In the Carnic Alps, the arguably subducted basin may be recorded by shelf sequences only with scarce intraplate alkaline basalts (i.e., Raabtal; Läufer et al 2001 and references therein). Even when present in adjacent regions such as the Western Carpathians, ophiolites only comprise minor bodies with a geochemical fingerprint that suggests an association with a continental margin (Ivan and Méres 2015), thus implying a relatively minor oceanic basin. Neither the Rheic nor the Paleotethys oceanic crust might have thus developed in the back-arc of the Alpine basement and adjacent tectonostratigraphic domains, at least not in the context of a large basin.…”

Section: Tectonic and Paleogeographic Implicationsmentioning

confidence: 99%

The birth of the Alps: Ediacaran to Paleozoic accretionary processes and crustal growth along the northern Gondwana margin

Siegesmund

Oriolo

Schulz

et al. 2021

Int J Earth Sci (Geol Rundsch)

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New whole-rock geochemical and coupled U–Pb and Lu–Hf LA-ICP-MS zircon data of metasedimentary rocks of the Austroalpine, South Alpine and Penninic basement domains are presented, to disentangle the pre-Variscan tectonic evolution of the proto-Alps. The studied units seem to record distinct stages of protracted Late Ediacaran to Carboniferous tectonosedimentary processes prior to the Variscan collision. In the case of Austroalpine and South Alpine units, nevertheless, no major differences in terms of provenance are observed, since most detrital zircon samples are characterized by a major Pan-African peak. Their detrital zircon spectra record a provenance from the northeastern Saharan Metacraton and the Sinai basement at the northern Arabian-Nubian Shield, being thus located along the eastern Early Paleozoic northern Gondwana margin, whereas sources located further west are inferred for the Penninic Unit, which might have been placed close to the Moldanubian Unit of the Bohemian Massif. In any case, it is thus clear that the Alpine basement remained in a close position to the Gondwana mainland at least during the Early Paleozoic. The Late Ediacaran to Silurian tectonic evolution, which includes Cadomian and Cenerian tectonometamorphic and magmatic processes, seem thus to record a continuum related to a retreating-mode accretionary orogen, with diachronous back-arc basin opening and possibly discrete compressional/transpressional pulses linked to changes in subduction zone dynamics. On the other hand, it is inferred that the Alpine basement essentially comprises Pan-African metasedimentary and subordinate metaigneous rocks, possibly with very few Early Neoproterozoic relics. This basement was significantly reworked during the protracted Paleozoic orogenic evolution, due to anatexis and/or assimilation by mantle-derived juvenile magmatism.

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“…The Tatric and Veporic Superunits comprise large Devonian to Late Carboniferous syn-to post-collisional I-and S-type granitoids, Variscan felsic orthogneisses, paragneisses, migmatites, calc-silicate rocks, scarce metamorphosed black shales, and remnants of retrogressed meta-ultramafic rocks (Broska and Kubiš 2018;Kohút and Larionov 2021;Janák et al 2020). Some Tatric complexes contain larger bodies of metamorphosed basalts, dolerites, gabbros, and sediments with variable amount of meta-organic matter and pyrite (Ivan and Méres 2015). These rocks are considered to represent metamorphosed and tectonically dismembered ophiolite sequences.…”

Section: Regional Geologymentioning

confidence: 99%

Rhenium-osmium geochronology of gersdorffite and skutterudite-pararammelsbergite links nickel–cobalt mineralization to the opening of the incipient Meliata Ocean (Western Carpathians, Slovakia)

et al. 2022

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The multi-orogenic crustal segment of the Central Western Carpathians comprises a Variscan basement that is host to small nickel–cobalt (Ni–Co) arsenide and sulfarsenide mineralizations at Ľubietová-Kolba and Čierna Lehota (Slovakia). Here, we constrain the timing of Ni–Co mineralization by using rhenium-osmium (Re–Os) isotope geochemistry of (1) gersdorffite (NiAsS) after krutovite (NiAs2) at Ľubietová-Kolba, and (2) a mixture of skutterudite-pararammelsbergite (CoAs3–NiAs2) from the Čierna Lehota deposit, hosted by metamorphosed carbonaceous rocks. Gersdorffite, which is bereft of common Os, returns a Re–Os model age of 238.2 ± 1.0 (2σ) million years (Ma). Four aliquots of the skutterudite-pararammelsbergite mixture define a robust model 1 isochron at 238.2 ± 12.7 (2σ) Ma (mean square weighted deviates – MSDW = 0.95). A crustal source of Os, and by inference other metals, is inferred from the initial 187Os/188Os ratio of 0.90 ± 0.01 of this isochron. We conclude that studied Ni–Co mineralizations are related to an extensional tectonic regime and hydrothermal fluid flow in connection with the opening of the Meliata ocean in the Middle Triassic (Ladinian).

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Geochemistry of amphibolites and related graphitic gneisses from the Suchý and Malá Magura Mountains (central Western Carpathians) – evidence for relics of the Variscan ophiolite complex

Cited by 8 publications

References 35 publications

Archaeometrical results related to Neolithic amphibolite stone implements from Northeast Hungary

Archaeometrical results related to Neolithic amphibolite stone implements from Northeast Hungary

The birth of the Alps: Ediacaran to Paleozoic accretionary processes and crustal growth along the northern Gondwana margin

Rhenium-osmium geochronology of gersdorffite and skutterudite-pararammelsbergite links nickel–cobalt mineralization to the opening of the incipient Meliata Ocean (Western Carpathians, Slovakia)

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