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Isotopic and trace element geochemistry of the Seligdar magnesiocarbonatites (South Yakutia, Russia): Insights regarding the mantle evolution beneath the Aldan-Stanovoy shield. / Doroshkevich, Anna G.; Prokopyev, Ilya R.; Izokh, Andrey E. и др.

в: Journal of Asian Earth Sciences, Том 154, 01.04.2018, стр. 354-368.

Результаты исследований: Научные публикации в периодических изданияхстатьяРецензирование

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Doroshkevich AG, Prokopyev IR, Izokh AE, Klemd R, Ponomarchuk AV, Nikolaeva IV и др. Isotopic and trace element geochemistry of the Seligdar magnesiocarbonatites (South Yakutia, Russia): Insights regarding the mantle evolution beneath the Aldan-Stanovoy shield. Journal of Asian Earth Sciences. 2018 апр. 1;154:354-368. doi: 10.1016/j.jseaes.2017.12.030

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@article{256338aacc834535a73fc6127593f1cc,
title = "Isotopic and trace element geochemistry of the Seligdar magnesiocarbonatites (South Yakutia, Russia): Insights regarding the mantle evolution beneath the Aldan-Stanovoy shield",
abstract = "The Paleoproterozoic Seligdar magnesiocarbonatite intrusion of the Aldan-Stanovoy shield in Russia underwent extensive postmagmatic hydrothermal alteration and metamorphic events. This study comprises new isotopic (Sr, Nd, C and O) data, whole-rock major and trace element compositions and trace element characteristics of the major minerals to gain a better understanding of the source and the formation process of the carbonatites. The Seligdar carbonatites have high concentrations of P2O5 (up to 18 wt%) and low concentrations of Na, K, Sr and Ba. The chondrite-normalized REE patterns of these carbonatites display significant enrichments of LREE relative to HREE with an average La/Ybcn ratio of 95. Hydrothermal and metamorphic overprints changed the trace element characteristics of the carbonatites and their minerals. These alteration processes were responsible for Sr loss and the shifting of the Sr isotopic compositions towards more radiogenic values. The altered carbonatites are further characterized by distinct 18O- and 13C-enrichments compared to the primary igneous carbonatites. The alteration most likely resulted from both the percolation of crustal-derived hydrothermal fluids and subsequent metamorphic processes accompanied by interaction with limestone-derived CO2. The narrow range of negative εNd(T) values indicates that the Seligdar carbonatites are dominated by a homogenous enriched mantle source component that was separated from the depleted mantle during the Archean.",
keywords = "Aldan-Stanovoy shield, Enriched source, Hydrothermal processes, Magnesiocarbonatites, Trace element composition and isotopic data, COMPLEX, FRACTIONATION, ROCKS, MAGMATISM, NORTH TRANSBAIKALIA, OXYGEN, DOLOMITE CARBONATITE, CONSTRAINTS, SIBERIAN CRATON, AGE",
author = "Doroshkevich, {Anna G.} and Prokopyev, {Ilya R.} and Izokh, {Andrey E.} and Reiner Klemd and Ponomarchuk, {Anton V.} and Nikolaeva, {Irina V.} and Vladykin, {Nikolay V.}",
year = "2018",
month = apr,
day = "1",
doi = "10.1016/j.jseaes.2017.12.030",
language = "English",
volume = "154",
pages = "354--368",
journal = "Journal of Asian Earth Sciences",
issn = "1367-9120",
publisher = "Elsevier",

}

RIS

TY - JOUR

T1 - Isotopic and trace element geochemistry of the Seligdar magnesiocarbonatites (South Yakutia, Russia): Insights regarding the mantle evolution beneath the Aldan-Stanovoy shield

AU - Doroshkevich, Anna G.

AU - Prokopyev, Ilya R.

AU - Izokh, Andrey E.

AU - Klemd, Reiner

AU - Ponomarchuk, Anton V.

AU - Nikolaeva, Irina V.

AU - Vladykin, Nikolay V.

PY - 2018/4/1

Y1 - 2018/4/1

N2 - The Paleoproterozoic Seligdar magnesiocarbonatite intrusion of the Aldan-Stanovoy shield in Russia underwent extensive postmagmatic hydrothermal alteration and metamorphic events. This study comprises new isotopic (Sr, Nd, C and O) data, whole-rock major and trace element compositions and trace element characteristics of the major minerals to gain a better understanding of the source and the formation process of the carbonatites. The Seligdar carbonatites have high concentrations of P2O5 (up to 18 wt%) and low concentrations of Na, K, Sr and Ba. The chondrite-normalized REE patterns of these carbonatites display significant enrichments of LREE relative to HREE with an average La/Ybcn ratio of 95. Hydrothermal and metamorphic overprints changed the trace element characteristics of the carbonatites and their minerals. These alteration processes were responsible for Sr loss and the shifting of the Sr isotopic compositions towards more radiogenic values. The altered carbonatites are further characterized by distinct 18O- and 13C-enrichments compared to the primary igneous carbonatites. The alteration most likely resulted from both the percolation of crustal-derived hydrothermal fluids and subsequent metamorphic processes accompanied by interaction with limestone-derived CO2. The narrow range of negative εNd(T) values indicates that the Seligdar carbonatites are dominated by a homogenous enriched mantle source component that was separated from the depleted mantle during the Archean.

AB - The Paleoproterozoic Seligdar magnesiocarbonatite intrusion of the Aldan-Stanovoy shield in Russia underwent extensive postmagmatic hydrothermal alteration and metamorphic events. This study comprises new isotopic (Sr, Nd, C and O) data, whole-rock major and trace element compositions and trace element characteristics of the major minerals to gain a better understanding of the source and the formation process of the carbonatites. The Seligdar carbonatites have high concentrations of P2O5 (up to 18 wt%) and low concentrations of Na, K, Sr and Ba. The chondrite-normalized REE patterns of these carbonatites display significant enrichments of LREE relative to HREE with an average La/Ybcn ratio of 95. Hydrothermal and metamorphic overprints changed the trace element characteristics of the carbonatites and their minerals. These alteration processes were responsible for Sr loss and the shifting of the Sr isotopic compositions towards more radiogenic values. The altered carbonatites are further characterized by distinct 18O- and 13C-enrichments compared to the primary igneous carbonatites. The alteration most likely resulted from both the percolation of crustal-derived hydrothermal fluids and subsequent metamorphic processes accompanied by interaction with limestone-derived CO2. The narrow range of negative εNd(T) values indicates that the Seligdar carbonatites are dominated by a homogenous enriched mantle source component that was separated from the depleted mantle during the Archean.

KW - Aldan-Stanovoy shield

KW - Enriched source

KW - Hydrothermal processes

KW - Magnesiocarbonatites

KW - Trace element composition and isotopic data

KW - COMPLEX

KW - FRACTIONATION

KW - ROCKS

KW - MAGMATISM

KW - NORTH TRANSBAIKALIA

KW - OXYGEN

KW - DOLOMITE CARBONATITE

KW - CONSTRAINTS

KW - SIBERIAN CRATON

KW - AGE

UR - http://www.scopus.com/inward/record.url?scp=85044762890&partnerID=8YFLogxK

U2 - 10.1016/j.jseaes.2017.12.030

DO - 10.1016/j.jseaes.2017.12.030

M3 - Article

AN - SCOPUS:85044762890

VL - 154

SP - 354

EP - 368

JO - Journal of Asian Earth Sciences

JF - Journal of Asian Earth Sciences

SN - 1367-9120

ER -

ID: 12299711