Perovskite, reaction product of a harzburgite with
Jurassic-Cretaceous accretionary wedge fluids (Western
Carpathians, Slovakia): evidence from the whole-rock and
mineral trace element data

PUTIS, Marian, Yue-Heng YANG, Tomáš VACULOVIČ, Matúš KOPPA, Xian-Hua LI and Pavel UHER. Perovskite, reaction product of a harzburgite with Jurassic-Cretaceous accretionary wedge fluids (Western Carpathians, Slovakia): evidence from the whole-rock and mineral trace element data. Geologica Carpathica. Bratislava: Earth Science Institute of the Slowak Academy of Sciences, 2016, vol. 67, No 2, p. 133-146. ISSN 1335-0552. Available from: https://dx.doi.org/10.1515/geoca-2016-0009.

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TY  - JOUR
ID  - 1374955
AU  - Putis, Marian - Yang, Yue-Heng - Vaculovič, Tomáš - Koppa, Matúš - Li, Xian-Hua - Uher, Pavel
PY  - 2016
TI  - Perovskite, reaction product of a harzburgite with Jurassic-Cretaceous accretionary wedge fluids (Western Carpathians, Slovakia): evidence from the whole-rock and mineral trace element data
JF  - Geologica Carpathica
VL  - 67
IS  - 2
SP  - 133-146
EP  - 133-146
PB  - Earth Science Institute of the Slowak Academy of Sciences
SN  - 13350552
KW  - perovskite
KW  - serpentinization
KW  - rodingitization
KW  - ICP-MS
KW  - LA-ICP-MS
KW  - Western Carpathians accretionary wedge
N2  - Perovskite (Prv) was discovered in an abyssal harzburgite from a "melange" type blueschist-bearing accretionary wedge of the Western Carpathians (Meliata Unit, Slovakia). Perovskite-1 formation in serpentinized orthopyroxene may be simplified by the mass-balance reaction: Ca2Si2O6 (Ca-pyroxene-member)+2Fe(2)TiO(4) (ulvospinel molecule in spinel)+2H(2)O+O-2=2CaTiO(3) (Prv)+2SiO(2)+4FeOOH (goethite). Perovskite-2 occurs in a chlorite-rich blackwall zone separating serpentinite and rodingite veins, and in rodingite veins alone. The bulk-rock trace-element patterns suggest negligible differences from visually and microscopically less ("core") to strongly serpentinized harzburgite due to serpentinization and rodingitization: an enrichment in LREE(La,Ce), Cs, +/- Ba, U, Nb, Pb, As, Sb, +/- Nd and Li in comparison with HREE, Rb and Sr. The U/Pb perovskite ages at similar to 135 Ma are interpreted to record the interaction of metamorphic fluids with harzburgite blocks in the Neotethyan Meliatic accretionary wedge. Our LA-ICP-MS mineral study provides a complex view on trace element behaviour during the two stages of rodingitization connected with Prv genesis. The positive anomalies of Cs, U, Ta, Pb, As, Sb, Pr and Nd in Cpx, Opx and Ol are combined with the negative anomalies of Rb, Ba, Th, Nb and Sr in these minerals. The similar positive anomalies of Cs, U, Ta, +/- Be, As, Sb found in typical serpentinization and rodingitization minerals, with variable contents of La, Ce and Nd, and negative anomalies of Rb, Ba, Th, Nb and Sr suggest involvement of crustal fluids during MP-LP/LT accretionary wedge metamorphism. LA-ICP-MS study revealed strong depletion in LREE from Prv-1 to Prv-2, and a typically negative Eu (and Ti) anomaly for Prv-1, while a positive Eu (and Ti) anomaly for Prv-2. Our multi-element diagram depicts enrichment in U, Nb, La, Ce, As, Sb, Pr, Nd and decreased Rb, Ba, Th, Ta, Pb, Sr, Zr in both Prv generations. In general, both Prv generations are very close to the end-member composition. In spite of low concentrations of isomorphic constituents, Prv-1 and Prv-2 display the (A)(La,Ce)(3+)+(B)(Fe,Cr)(3+)=Ca-A(2+)+Ti-B(4+) heterovalent couple substitution. A decrease of ferric iron in Prv-2 indicates increasing reduction conditions during rodingitization.
ER  -

Basic information
Original name	Perovskite, reaction product of a harzburgite with Jurassic-Cretaceous accretionary wedge fluids (Western Carpathians, Slovakia): evidence from the whole-rock and mineral trace element data
Authors	PUTIS, Marian (703 Slovakia, guarantor), Yue-Heng YANG (156 China), Tomáš VACULOVIČ (203 Czech Republic, belonging to the institution), Matúš KOPPA (703 Slovakia), Xian-Hua LI (156 China) and Pavel UHER (703 Slovakia).
Edition	Geologica Carpathica, Bratislava, Earth Science Institute of the Slowak Academy of Sciences, 2016, 1335-0552.

Other information
Original language	English
Type of outcome	Article in a journal
Field of Study	10406 Analytical chemistry
Country of publisher	Slovakia
Confidentiality degree	is not subject to a state or trade secret
Impact factor	Impact factor: 1.358
RIV identification code	RIV/00216224:14310/16:00093827
Organization unit	Faculty of Science
Doi	http://dx.doi.org/10.1515/geoca-2016-0009
UT WoS	000375774300002
Keywords in English	perovskite; serpentinization; rodingitization; ICP-MS; LA-ICP-MS; Western Carpathians accretionary wedge
Tags	AKR, rivok
Tags	International impact
Changed by	Changed by: Ing. Andrea Mikešková, učo 137293. Changed: 9/4/2017 11:33.

Abstract

Perovskite (Prv) was discovered in an abyssal harzburgite from a "melange" type blueschist-bearing accretionary wedge of the Western Carpathians (Meliata Unit, Slovakia). Perovskite-1 formation in serpentinized orthopyroxene may be simplified by the mass-balance reaction: Ca2Si2O6 (Ca-pyroxene-member)+2Fe(2)TiO(4) (ulvospinel molecule in spinel)+2H(2)O+O-2=2CaTiO(3) (Prv)+2SiO(2)+4FeOOH (goethite). Perovskite-2 occurs in a chlorite-rich blackwall zone separating serpentinite and rodingite veins, and in rodingite veins alone. The bulk-rock trace-element patterns suggest negligible differences from visually and microscopically less ("core") to strongly serpentinized harzburgite due to serpentinization and rodingitization: an enrichment in LREE(La,Ce), Cs, +/- Ba, U, Nb, Pb, As, Sb, +/- Nd and Li in comparison with HREE, Rb and Sr. The U/Pb perovskite ages at similar to 135 Ma are interpreted to record the interaction of metamorphic fluids with harzburgite blocks in the Neotethyan Meliatic accretionary wedge. Our LA-ICP-MS mineral study provides a complex view on trace element behaviour during the two stages of rodingitization connected with Prv genesis. The positive anomalies of Cs, U, Ta, Pb, As, Sb, Pr and Nd in Cpx, Opx and Ol are combined with the negative anomalies of Rb, Ba, Th, Nb and Sr in these minerals. The similar positive anomalies of Cs, U, Ta, +/- Be, As, Sb found in typical serpentinization and rodingitization minerals, with variable contents of La, Ce and Nd, and negative anomalies of Rb, Ba, Th, Nb and Sr suggest involvement of crustal fluids during MP-LP/LT accretionary wedge metamorphism. LA-ICP-MS study revealed strong depletion in LREE from Prv-1 to Prv-2, and a typically negative Eu (and Ti) anomaly for Prv-1, while a positive Eu (and Ti) anomaly for Prv-2. Our multi-element diagram depicts enrichment in U, Nb, La, Ce, As, Sb, Pr, Nd and decreased Rb, Ba, Th, Ta, Pb, Sr, Zr in both Prv generations. In general, both Prv generations are very close to the end-member composition. In spite of low concentrations of isomorphic constituents, Prv-1 and Prv-2 display the (A)(La,Ce)(3+)+(B)(Fe,Cr)(3+)=Ca-A(2+)+Ti-B(4+) heterovalent couple substitution. A decrease of ferric iron in Prv-2 indicates increasing reduction conditions during rodingitization.

Links
LQ1601, research and development project	Name: CEITEC 2020 (Acronym: CEITEC2020)
LQ1601, research and development project	Investor: Ministry of Education, Youth and Sports of the CR

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