The petrogenesis of granitoid rocks unusually rich in apatite in the Western Tatra Mts. (S-Poland, Western Carpathians)

Szopa, Krzysztof; Gawęda, Aleksandra; Müller, Axel; Sikorska, Magdalena

doi:10.1007/s00710-012-0262-2

Cited by 14 publications

(19 citation statements)

References 36 publications

(69 reference statements)

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“…1b) an Early-Variscan hybridization episode is represented by I-type quartz-diorite hybrid precursors (368 ± 8 Ma by the U-Pb method on zircon; Gawęda et al, 2005;Burda et al, 2011), which occur as sills within the metamorphic envelope and at the base of the granodiorite-tonalite intrusion (360-345 Ma; . A suite of unusual apatite-rich rocks of cumulative origin is linked to this hybridization episode (Szopa et al, 2013). In the eastern part of the crystalline core (High Tatra Mountains) syenogranite-monzogranite is most abundant, locally with mafic microgranular enclaves (MME) and metasedimentary xenoliths (Gawęda, 2009 and references therein).…”

Section: Geological Setting and Samplingmentioning

confidence: 99%

“…As these rocks have demonstrated to be genetically linked to the mixing and mingling of two different magmas, the zircon U-Pb age of the mingled hybrid (368 ± 8 Ma; Burda et al, 2011) is considered to constrain the age of these rocks. Apatite-rich cumulates show low degree of REE fractionation and negative Eu anomalies (Eu/Eu* = 0.4-0.7; Szopa et al, 2013; Fig. 3c).…”

Section: Petrography and Whole-rock Chemistrymentioning

confidence: 99%

“…For this study we used magmatic rock samples, that were previously dated by the LA-MC-ICP-MS zircon UPb method (Burda et al, 2011(Burda et al, , 2013a(Burda et al, , 2013b and one sample of an apatite-rich cumulate (Szopa et al, 2013). Petrographical analyses of thin sections were undertaken to check the apatite content and its morphological varieties.…”

Section: Petrographymentioning

confidence: 99%

“…Apatite is an important carrier of many trace elements (Sha and Chappell, 1999), and can control the budget of Y and REE, especially in rocks with high apatite contents (Dempster et al, 2003;Prowatke and Klemme, 2006;Szopa et al, 2013). Recently apatite has been used in high-temperature thermochronological studies, showing that the closure temperature of the uranium -lead (U-Pb) system is approximately 350-550°C (Chamberlain and Bowring, 2000;Schoene and Bowring, 2007;Cochrane et al, 2014).…”

Section: Introductionmentioning

confidence: 99%

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LA-ICP-MS U-Pb dating and REE patterns of apatite from the Tatra Mountains, Poland as a monitor of the regional tectonomagmatic activity

2014

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This study presents apatite LA-ICP-MS U-Pb age and trace elements concentrations data from different granite types from the Tatra Mountains, Poland. Apatite from monazite and xenotimebearing High Tatra granite was dated at 339 ± 5 Ma. The apatite LREE patterns reflect two types of magmas that contributed to this layered magma series. Apatite from a hybrid allanite-bearing diorite from the Goryczkowa Unit was dated at 340 ± 4 Ma with apatite LREE depletion reflecting the role of allanite and titanite during apatite crystallization. Apatite crystals from a hybrid cumulative rock from the Western Tatra Mountains were dated at 344 ± 3 Ma. Apatite is one of the main REE carriers in this sample and exhibit flat REE patterns. Taking into account the relatively low closure temperature of the U-Pb system in apatite (350-550°C), the c. 340 Ma apatite ages mark the end of high temperature tectonometamorphic activity in the Tatra Mountains.

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Section: Geological Setting and Samplingmentioning

confidence: 99%

Section: Petrography and Whole-rock Chemistrymentioning

confidence: 99%

Section: Petrographymentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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LA-ICP-MS U-Pb dating and REE patterns of apatite from the Tatra Mountains, Poland as a monitor of the regional tectonomagmatic activity

2014

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“…Fluorapatite-rich rocks are present in the Tatra Mountains (Gawęda 2008;), however they are commonly associated with the oldest magmatic episode at ca. 368 Ma (Burda et al 2011;Szopa et al 2013) and show U-Pb apatite cooling age of ~ 340 Ma …”

Section: Timing Of the Vein Intrusion And Its Relation To The Granitementioning

confidence: 99%

Age and origin of fluorapatite-rich dyke from Baranec Mt. (Tatra Mts., Western Carpathians): a key to understanding of the post-orogenic processes and element mobility

Gawęda¹,

Szopa²,

Chew³

et al. 2016

Geologica Carpathica

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Abstract:On the southeastern slope of the Baranec Mount in the Western Tatra Mountains (Slovakia) an apatite-rich pegmatite-like segregation was found in the subvertical fault zone cutting metapelitic rocks. Two zones: felsic (F) and mafic (M) were found, differing in mineral assemblages and consequently in chemistry. Fluorapatite crystals yield a LA-ICP-MS U-Pb age of 328.6 ± 2.4 Ma. A temperature decrease from 634 °C to 454 °C at a pressure around 500 to 400 MPa with oxygen fugacity increasing during crystallization are the possible conditions for formation of the pegmatite-like segregation, while secondary alterations took place in the temperature range of 340 -320 °C. The Sr-Nd isotope composition of both apatite and whole rock point toward a crustal origin of the dike in question, suggesting partial melting of (P, F, H 2 O)-rich metasedimentary rocks during prolonged decompression of the Tatra Massif. The original partial melt (felsic component) was mixed with an external (F, H 2 O)-rich fluid, carrying Fe and Mg fluxed from more mafic metapelites and crystallizing as biotite and epidote in the mafic component of the dyke.

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Episodic construction of the Tatra granitoid intrusion (Central Western Carpathians, Poland/Slovakia): consequences for the geodynamics of Variscan collision and Rheic Ocean closure

Gawęda

Burda

Klötzli

et al. 2015

Int J Earth Sci (Geol Rundsch)

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The petrogenesis of granitoid rocks unusually rich in apatite in the Western Tatra Mts. (S-Poland, Western Carpathians)

Cited by 14 publications

References 36 publications

LA-ICP-MS U-Pb dating and REE patterns of apatite from the Tatra Mountains, Poland as a monitor of the regional tectonomagmatic activity

LA-ICP-MS U-Pb dating and REE patterns of apatite from the Tatra Mountains, Poland as a monitor of the regional tectonomagmatic activity

Age and origin of fluorapatite-rich dyke from Baranec Mt. (Tatra Mts., Western Carpathians): a key to understanding of the post-orogenic processes and element mobility

Episodic construction of the Tatra granitoid intrusion (Central Western Carpathians, Poland/Slovakia): consequences for the geodynamics of Variscan collision and Rheic Ocean closure

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