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Xenotime-(Gd), a new Gd-dominant mineral of the xenotime group from the Zimná Voda REE–U–Au quartz vein, Prakovce, Western Carpathians, Slovakia

Xenotime-(Gd), ideally GdPO 4 , is a new mineral of the xenotime group. It was discovered at the Zimná Voda REE–U–Au occurrence near Prakovce, Western Carpathians, Slovakia. It forms rare crystal domains (≤20 μm, usually ≤10 μm in size) in Gd-rich xenotime-(Y) crystals (≤100 μm in size), in associat...

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Published in:	Mineralogical magazine 2024-10, Vol.88 (5), p.613-622
Main Authors:	Ondrejka, Martin, Bačík, Peter, Majzlan, Juraj, Uher, Pavel, Ferenc, Štefan, Mikuš, Tomáš, Števko, Martin, Čaplovičová, Mária, Milovská, Stanislava, Molnárová, Alexandra, Rößler, Christiane, Matthes, Christian
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Language:	English
Subjects:	Arsenates Crystal structure Crystals Earth science Electrons Ion beams Low temperature Metamorphic rocks Mineralization Minerals Paleozoic Permian Phosphates Quartz Veins (geology)
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creator	Ondrejka, Martin Bačík, Peter Majzlan, Juraj Uher, Pavel Ferenc, Štefan Mikuš, Tomáš Števko, Martin Čaplovičová, Mária Milovská, Stanislava Molnárová, Alexandra Rößler, Christiane Matthes, Christian
description	Xenotime-(Gd), ideally GdPO 4 , is a new mineral of the xenotime group. It was discovered at the Zimná Voda REE–U–Au occurrence near Prakovce, Western Carpathians, Slovakia. It forms rare crystal domains (≤20 μm, usually ≤10 μm in size) in Gd-rich xenotime-(Y) crystals (≤100 μm in size), in association with monazite-group minerals, uraninite, fluorapatite and uranyl arsenates–phosphates. The hydrothermal REE–U–Au mineralisation occurs in a quartz–muscovite vein, hosted in Palaeozoic phyllites near exocontact with Permian granites. The density is 5.26 g/cm 3 , based on calculated average empirical formula and unit-cell parameters. The average chemical composition ( n = 6) measured by electron microprobe is as follows (wt.%): P 2 O 5 30.1, As 2 O 5 0.5, SiO 2 0.2, UO 2 0.3, Y 2 O 3 15.7, (La, Ce, Pr, Nd) 2 O 3 0.5, Sm 2 O 3 5.7, Eu 2 O 3 1.4, Gd 2 O 3 29.2, Tb 2 O 3 3.9, Dy 2 O 3 10.4, Ho 2 O 3 0.4, (Er, Tm, Yb, Lu) 2 O 3 2.1, (Ca, Fe, Pb, Mn, Ba)O 0.1, total 100.5. The corresponding empirical formula calculated on the basis of 4 oxygen atoms is: (Gd 0.37 Y 0.32 Dy 0.13 Sm 0.08 Tb 0.05 Eu 0.02 Er 0.01 Tm 0.01 Nd 0.01 …) Σ1.01 (P 0.98 As 0.01 Si 0.01 )O 4 . The empirical formula of the Gd-richest composition is: (Gd 0.38 Y 0.31 Dy 0.13 Sm 0.08 Tb 0.05 Eu 0.02 Er 0.01 Nd 0.01 Ho 0.01 …) Σ1.01 (P 0.98 As 0.01 Si 0.01 )O 4 . The ideal formula is GdPO 4 . The xenotime-type structure has been confirmed by micro-Raman spectroscopy and a Fast Fourier-Transform pattern using HRTEM. Xenotime-(Gd) is tetragonal, space group I 4 1 / amd , a = 6.9589(5) Å, c = 6.0518(6) Å, V = 293.07(3) Å 3 and Z = 4. The new mineral is named as an analogue of xenotime-(Y) and xenotime-(Yb) with Gd dominant among the REE. The middle REE enrichment of xenotime-(Gd) is shared with the associated monazite-(Gd) and Gd-rich hingganite-(Y). This exotic REE signature and precipitation of Gd-bearing minerals is a product of selective complexing and enrichment in MREE in low-temperature hydrothermal fluids by alteration of uraninite, brannerite and fluorapatite on a micro-scale. The existence of xenotime-(Gd) and monazite-(Gd) is the first naturally documented dimorphism among REE phosphates. In addition, xenotime-(Gd) is only the third approved Gd-dominant mineral, after lepersonnite-(Gd) and monazite-(Gd).
doi_str_mv	10.1180/mgm.2024.62
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It was discovered at the Zimná Voda REE–U–Au occurrence near Prakovce, Western Carpathians, Slovakia. It forms rare crystal domains (≤20 μm, usually ≤10 μm in size) in Gd-rich xenotime-(Y) crystals (≤100 μm in size), in association with monazite-group minerals, uraninite, fluorapatite and uranyl arsenates–phosphates. The hydrothermal REE–U–Au mineralisation occurs in a quartz–muscovite vein, hosted in Palaeozoic phyllites near exocontact with Permian granites. The density is 5.26 g/cm 3 , based on calculated average empirical formula and unit-cell parameters. The average chemical composition ( n = 6) measured by electron microprobe is as follows (wt.%): P 2 O 5 30.1, As 2 O 5 0.5, SiO 2 0.2, UO 2 0.3, Y 2 O 3 15.7, (La, Ce, Pr, Nd) 2 O 3 0.5, Sm 2 O 3 5.7, Eu 2 O 3 1.4, Gd 2 O 3 29.2, Tb 2 O 3 3.9, Dy 2 O 3 10.4, Ho 2 O 3 0.4, (Er, Tm, Yb, Lu) 2 O 3 2.1, (Ca, Fe, Pb, Mn, Ba)O 0.1, total 100.5. The corresponding empirical formula calculated on the basis of 4 oxygen atoms is: (Gd 0.37 Y 0.32 Dy 0.13 Sm 0.08 Tb 0.05 Eu 0.02 Er 0.01 Tm 0.01 Nd 0.01 …) Σ1.01 (P 0.98 As 0.01 Si 0.01 )O 4 . The empirical formula of the Gd-richest composition is: (Gd 0.38 Y 0.31 Dy 0.13 Sm 0.08 Tb 0.05 Eu 0.02 Er 0.01 Nd 0.01 Ho 0.01 …) Σ1.01 (P 0.98 As 0.01 Si 0.01 )O 4 . The ideal formula is GdPO 4 . The xenotime-type structure has been confirmed by micro-Raman spectroscopy and a Fast Fourier-Transform pattern using HRTEM. Xenotime-(Gd) is tetragonal, space group I 4 1 / amd , a = 6.9589(5) Å, c = 6.0518(6) Å, V = 293.07(3) Å 3 and Z = 4. The new mineral is named as an analogue of xenotime-(Y) and xenotime-(Yb) with Gd dominant among the REE. The middle REE enrichment of xenotime-(Gd) is shared with the associated monazite-(Gd) and Gd-rich hingganite-(Y). This exotic REE signature and precipitation of Gd-bearing minerals is a product of selective complexing and enrichment in MREE in low-temperature hydrothermal fluids by alteration of uraninite, brannerite and fluorapatite on a micro-scale. The existence of xenotime-(Gd) and monazite-(Gd) is the first naturally documented dimorphism among REE phosphates. In addition, xenotime-(Gd) is only the third approved Gd-dominant mineral, after lepersonnite-(Gd) and monazite-(Gd).</description><identifier>ISSN: 0026-461X</identifier><identifier>EISSN: 1471-8022</identifier><identifier>DOI: 10.1180/mgm.2024.62</identifier><language>eng</language><publisher>London: Cambridge University Press</publisher><subject>Arsenates ; Crystal structure ; Crystals ; Earth science ; Electrons ; Ion beams ; Low temperature ; Metamorphic rocks ; Mineralization ; Minerals ; Paleozoic ; Permian ; Phosphates ; Quartz ; Veins (geology)</subject><ispartof>Mineralogical magazine, 2024-10, Vol.88 (5), p.613-622</ispartof><rights>Copyright © The Author(s), 2024. Published by Cambridge University Press on behalf of The Mineralogical Society of the United Kingdom and Ireland</rights><lds50>peer_reviewed</lds50><oa>free_for_read</oa><woscitedreferencessubscribed>false</woscitedreferencessubscribed><cites>FETCH-LOGICAL-a209t-9bcf5998dabca991fb0e9747ba4a9332ef34258eb719a8a3e3e9b3bf0ad2c48d3</cites><orcidid>0000-0002-9151-4394 ; 0000-0002-7364-5753 ; 0000-0002-0260-5033 ; 0000-0002-5381-9840 ; 0000-0002-8420-4849 ; 0000-0003-1021-5761 ; 0000-0003-4767-8823 ; 0000-0003-1357-2289</orcidid></display><links><openurl>$$Topenurl_article</openurl><openurlfulltext>$$Topenurlfull_article</openurlfulltext><thumbnail>$$Tsyndetics_thumb_exl</thumbnail><link.rule.ids>314,776,780,27901,27902</link.rule.ids></links><search><creatorcontrib>Ondrejka, Martin</creatorcontrib><creatorcontrib>Bačík, Peter</creatorcontrib><creatorcontrib>Majzlan, Juraj</creatorcontrib><creatorcontrib>Uher, Pavel</creatorcontrib><creatorcontrib>Ferenc, Štefan</creatorcontrib><creatorcontrib>Mikuš, Tomáš</creatorcontrib><creatorcontrib>Števko, Martin</creatorcontrib><creatorcontrib>Čaplovičová, Mária</creatorcontrib><creatorcontrib>Milovská, Stanislava</creatorcontrib><creatorcontrib>Molnárová, Alexandra</creatorcontrib><creatorcontrib>Rößler, Christiane</creatorcontrib><creatorcontrib>Matthes, Christian</creatorcontrib><title>Xenotime-(Gd), a new Gd-dominant mineral of the xenotime group from the Zimná Voda REE–U–Au quartz vein, Prakovce, Western Carpathians, Slovakia</title><title>Mineralogical magazine</title><description>Xenotime-(Gd), ideally GdPO 4 , is a new mineral of the xenotime group. It was discovered at the Zimná Voda REE–U–Au occurrence near Prakovce, Western Carpathians, Slovakia. It forms rare crystal domains (≤20 μm, usually ≤10 μm in size) in Gd-rich xenotime-(Y) crystals (≤100 μm in size), in association with monazite-group minerals, uraninite, fluorapatite and uranyl arsenates–phosphates. The hydrothermal REE–U–Au mineralisation occurs in a quartz–muscovite vein, hosted in Palaeozoic phyllites near exocontact with Permian granites. The density is 5.26 g/cm 3 , based on calculated average empirical formula and unit-cell parameters. The average chemical composition ( n = 6) measured by electron microprobe is as follows (wt.%): P 2 O 5 30.1, As 2 O 5 0.5, SiO 2 0.2, UO 2 0.3, Y 2 O 3 15.7, (La, Ce, Pr, Nd) 2 O 3 0.5, Sm 2 O 3 5.7, Eu 2 O 3 1.4, Gd 2 O 3 29.2, Tb 2 O 3 3.9, Dy 2 O 3 10.4, Ho 2 O 3 0.4, (Er, Tm, Yb, Lu) 2 O 3 2.1, (Ca, Fe, Pb, Mn, Ba)O 0.1, total 100.5. The corresponding empirical formula calculated on the basis of 4 oxygen atoms is: (Gd 0.37 Y 0.32 Dy 0.13 Sm 0.08 Tb 0.05 Eu 0.02 Er 0.01 Tm 0.01 Nd 0.01 …) Σ1.01 (P 0.98 As 0.01 Si 0.01 )O 4 . The empirical formula of the Gd-richest composition is: (Gd 0.38 Y 0.31 Dy 0.13 Sm 0.08 Tb 0.05 Eu 0.02 Er 0.01 Nd 0.01 Ho 0.01 …) Σ1.01 (P 0.98 As 0.01 Si 0.01 )O 4 . The ideal formula is GdPO 4 . The xenotime-type structure has been confirmed by micro-Raman spectroscopy and a Fast Fourier-Transform pattern using HRTEM. Xenotime-(Gd) is tetragonal, space group I 4 1 / amd , a = 6.9589(5) Å, c = 6.0518(6) Å, V = 293.07(3) Å 3 and Z = 4. The new mineral is named as an analogue of xenotime-(Y) and xenotime-(Yb) with Gd dominant among the REE. The middle REE enrichment of xenotime-(Gd) is shared with the associated monazite-(Gd) and Gd-rich hingganite-(Y). This exotic REE signature and precipitation of Gd-bearing minerals is a product of selective complexing and enrichment in MREE in low-temperature hydrothermal fluids by alteration of uraninite, brannerite and fluorapatite on a micro-scale. The existence of xenotime-(Gd) and monazite-(Gd) is the first naturally documented dimorphism among REE phosphates. In addition, xenotime-(Gd) is only the third approved Gd-dominant mineral, after lepersonnite-(Gd) and monazite-(Gd).</description><subject>Arsenates</subject><subject>Crystal structure</subject><subject>Crystals</subject><subject>Earth science</subject><subject>Electrons</subject><subject>Ion beams</subject><subject>Low temperature</subject><subject>Metamorphic rocks</subject><subject>Mineralization</subject><subject>Minerals</subject><subject>Paleozoic</subject><subject>Permian</subject><subject>Phosphates</subject><subject>Quartz</subject><subject>Veins (geology)</subject><issn>0026-461X</issn><issn>1471-8022</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2024</creationdate><recordtype>article</recordtype><recordid>eNotkNtOwkAQhjdGExG98gUm8UYjxT0U2r0kBNGERKOixJtm2m6hQHdh2-LhyncwPoDP4pv4JBbhYvInky__TD5CjhltMubTi2ycNTnlbrPNd0iNuR5zfMr5LqlRytuO22ajfXKQ51NKmctavEa-RkqbIs2Uc9qPzxqAoNUL9GMnNlmqURdQhbI4B5NAMVHwuuVhbE25gMSa7H__nGb65xseTYxw1-v9fnwOq-mUsCzRFu-wUqluwK3FmVlFqgFPKi-U1dBFu8BikqLOG3A_NyucpXhI9hKc5-pom3UyvOw9dK-cwU3_utsZOMipLBwZRklLSj_GMEIpWRJSJT3XC9FFKQRXiXB5y1ehxyT6KJRQMhRhQjHmkevHok5ONr0La5Zl9VEwNaXV1clAVIKEx6qoqPMNFVmT51YlwcKmGdq3gNFg7T2ovAdr70Gbiz-cZHmG</recordid><startdate>202410</startdate><enddate>202410</enddate><creator>Ondrejka, Martin</creator><creator>Bačík, Peter</creator><creator>Majzlan, Juraj</creator><creator>Uher, Pavel</creator><creator>Ferenc, Štefan</creator><creator>Mikuš, Tomáš</creator><creator>Števko, Martin</creator><creator>Čaplovičová, Mária</creator><creator>Milovská, Stanislava</creator><creator>Molnárová, Alexandra</creator><creator>Rößler, Christiane</creator><creator>Matthes, Christian</creator><general>Cambridge University Press</general><scope>AAYXX</scope><scope>CITATION</scope><scope>U9A</scope><orcidid>https://orcid.org/0000-0002-9151-4394</orcidid><orcidid>https://orcid.org/0000-0002-7364-5753</orcidid><orcidid>https://orcid.org/0000-0002-0260-5033</orcidid><orcidid>https://orcid.org/0000-0002-5381-9840</orcidid><orcidid>https://orcid.org/0000-0002-8420-4849</orcidid><orcidid>https://orcid.org/0000-0003-1021-5761</orcidid><orcidid>https://orcid.org/0000-0003-4767-8823</orcidid><orcidid>https://orcid.org/0000-0003-1357-2289</orcidid></search><sort><creationdate>202410</creationdate><title>Xenotime-(Gd), a new Gd-dominant mineral of the xenotime group from the Zimná Voda REE–U–Au quartz vein, Prakovce, Western Carpathians, Slovakia</title><author>Ondrejka, Martin ; 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It was discovered at the Zimná Voda REE–U–Au occurrence near Prakovce, Western Carpathians, Slovakia. It forms rare crystal domains (≤20 μm, usually ≤10 μm in size) in Gd-rich xenotime-(Y) crystals (≤100 μm in size), in association with monazite-group minerals, uraninite, fluorapatite and uranyl arsenates–phosphates. The hydrothermal REE–U–Au mineralisation occurs in a quartz–muscovite vein, hosted in Palaeozoic phyllites near exocontact with Permian granites. The density is 5.26 g/cm 3 , based on calculated average empirical formula and unit-cell parameters. The average chemical composition ( n = 6) measured by electron microprobe is as follows (wt.%): P 2 O 5 30.1, As 2 O 5 0.5, SiO 2 0.2, UO 2 0.3, Y 2 O 3 15.7, (La, Ce, Pr, Nd) 2 O 3 0.5, Sm 2 O 3 5.7, Eu 2 O 3 1.4, Gd 2 O 3 29.2, Tb 2 O 3 3.9, Dy 2 O 3 10.4, Ho 2 O 3 0.4, (Er, Tm, Yb, Lu) 2 O 3 2.1, (Ca, Fe, Pb, Mn, Ba)O 0.1, total 100.5. The corresponding empirical formula calculated on the basis of 4 oxygen atoms is: (Gd 0.37 Y 0.32 Dy 0.13 Sm 0.08 Tb 0.05 Eu 0.02 Er 0.01 Tm 0.01 Nd 0.01 …) Σ1.01 (P 0.98 As 0.01 Si 0.01 )O 4 . The empirical formula of the Gd-richest composition is: (Gd 0.38 Y 0.31 Dy 0.13 Sm 0.08 Tb 0.05 Eu 0.02 Er 0.01 Nd 0.01 Ho 0.01 …) Σ1.01 (P 0.98 As 0.01 Si 0.01 )O 4 . The ideal formula is GdPO 4 . The xenotime-type structure has been confirmed by micro-Raman spectroscopy and a Fast Fourier-Transform pattern using HRTEM. Xenotime-(Gd) is tetragonal, space group I 4 1 / amd , a = 6.9589(5) Å, c = 6.0518(6) Å, V = 293.07(3) Å 3 and Z = 4. The new mineral is named as an analogue of xenotime-(Y) and xenotime-(Yb) with Gd dominant among the REE. The middle REE enrichment of xenotime-(Gd) is shared with the associated monazite-(Gd) and Gd-rich hingganite-(Y). This exotic REE signature and precipitation of Gd-bearing minerals is a product of selective complexing and enrichment in MREE in low-temperature hydrothermal fluids by alteration of uraninite, brannerite and fluorapatite on a micro-scale. The existence of xenotime-(Gd) and monazite-(Gd) is the first naturally documented dimorphism among REE phosphates. In addition, xenotime-(Gd) is only the third approved Gd-dominant mineral, after lepersonnite-(Gd) and monazite-(Gd).</abstract><cop>London</cop><pub>Cambridge University Press</pub><doi>10.1180/mgm.2024.62</doi><tpages>10</tpages><orcidid>https://orcid.org/0000-0002-9151-4394</orcidid><orcidid>https://orcid.org/0000-0002-7364-5753</orcidid><orcidid>https://orcid.org/0000-0002-0260-5033</orcidid><orcidid>https://orcid.org/0000-0002-5381-9840</orcidid><orcidid>https://orcid.org/0000-0002-8420-4849</orcidid><orcidid>https://orcid.org/0000-0003-1021-5761</orcidid><orcidid>https://orcid.org/0000-0003-4767-8823</orcidid><orcidid>https://orcid.org/0000-0003-1357-2289</orcidid><oa>free_for_read</oa></addata></record>
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subjects	Arsenates Crystal structure Crystals Earth science Electrons Ion beams Low temperature Metamorphic rocks Mineralization Minerals Paleozoic Permian Phosphates Quartz Veins (geology)
title	Xenotime-(Gd), a new Gd-dominant mineral of the xenotime group from the Zimná Voda REE–U–Au quartz vein, Prakovce, Western Carpathians, Slovakia
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