The petyayan-vara carbonatite-hosted rare earth deposit (Vuoriyarvi, NW Russia)

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The petyayan-vara carbonatite-hosted rare earth deposit (Vuoriyarvi, NW Russia) : Mineralogy and geochemistry. / Kozlov, Evgeniy; Fomina, Ekaterina; Sidorov, Mikhail; Shilovskikh, Vladimir; Bocharov, Vladimir; Chernyavsky, Alexey; Huber, Miłosz.

In: Minerals, Vol. 10, No. 1, 73, 17.01.2020.

Research output: Contribution to journal › Article › peer-review

Author

Kozlov, Evgeniy ; Fomina, Ekaterina ; Sidorov, Mikhail ; Shilovskikh, Vladimir ; Bocharov, Vladimir ; Chernyavsky, Alexey ; Huber, Miłosz. / The petyayan-vara carbonatite-hosted rare earth deposit (Vuoriyarvi, NW Russia) : Mineralogy and geochemistry. In: Minerals. 2020 ; Vol. 10, No. 1.

BibTeX

@article{cbdff400541343f3b2455169a39d2b4e,

title = "The petyayan-vara carbonatite-hosted rare earth deposit (Vuoriyarvi, NW Russia): Mineralogy and geochemistry",

abstract = "The Vuoriyarvi Devonian carbonatite-ijolite-pyroxenite-olivinite complex comprises several carbonatite fields: Neske Vara, Tukhta-Vara, and Petyayan-Vara. The most common carbonatites in the Tukhta-Vara and Neske-Vara fields are calciocarbonatites, which host several P, Fe, Nb, and Ta deposits. This paper focuses on the Petyayan-Vara field, in which the primary magmatic carbonatites are magnesian. The least altered magnesiocarbonatites are composed of dolomite with burbankite and are rich in REE (up to 2.0 wt. %), Sr (up to 1.2 wt. %), and Ba (up to 0.8 wt. %). These carbonatites underwent several stages of metasomatism. Each metasomatic event produced a new rock type with specific mineralization. The introduction of K, Si, Al, Fe, Ti, and Nb by a F-rich fluid (or fluid-saturated melt) resulted in the formation of high-Ti magnesiocarbonatites and silicocarbonatites, composed of dolomite, microcline, Ti-rich phlogopite, and Fe-Ti oxides. Alteration by a phosphate-fluoride fluid caused the crystallization of apatite in the carbonatites. A sulfate-rich Ba-Sr-rare-earth elements (REE) fluid (probably brine-melt) promoted the massive precipitation of ancylite and baryte and, to a lesser extent, strontianite, bastn{\"a}site, and synchysite. Varieties of carbonatite that contain the highest concentrations of REE are ancylite-dominant. The influence of sulfate-rich Ba-Sr-REE fluid on the apatite-bearing rocks resulted in the dissolution and reprecipitation of apatite in situ. The newly formed apatite generation is rich in HREE, Sr, and S. During late-stage transformations, breccias of magnesiocarbonatites with quartz-bastn{\"a}site matrixes were formed. Simultaneously, strontianite, quartz, calcite, monazite, HREE-rich thorite, and Fe-hydroxides were deposited. Breccias with quartz-bastn{\"a}site matrix are poorer in REE (up to 4.5 wt. % total REE) than the ancylite-dominant rocks (up to 11 wt. % total REE).",

keywords = "Alkaline-ultrabasic complexes, Ancylite, Bastn{\"a}site, Carbonatites, Kola alkaline province, Metasomatism, Rare-earth elements, Vuoriyarvi",

author = "Evgeniy Kozlov and Ekaterina Fomina and Mikhail Sidorov and Vladimir Shilovskikh and Vladimir Bocharov and Alexey Chernyavsky and Mi{\l}osz Huber",

year = "2020",

month = jan,

day = "17",

doi = "10.3390/min10010073",

language = "English",

volume = "10",

journal = "Minerals",

issn = "2075-163X",

publisher = "MDPI AG",

number = "1",

}

RIS

TY - JOUR

T1 - The petyayan-vara carbonatite-hosted rare earth deposit (Vuoriyarvi, NW Russia)

T2 - Mineralogy and geochemistry

AU - Kozlov, Evgeniy

AU - Fomina, Ekaterina

AU - Sidorov, Mikhail

AU - Shilovskikh, Vladimir

AU - Bocharov, Vladimir

AU - Chernyavsky, Alexey

AU - Huber, Miłosz

PY - 2020/1/17

Y1 - 2020/1/17

N2 - The Vuoriyarvi Devonian carbonatite-ijolite-pyroxenite-olivinite complex comprises several carbonatite fields: Neske Vara, Tukhta-Vara, and Petyayan-Vara. The most common carbonatites in the Tukhta-Vara and Neske-Vara fields are calciocarbonatites, which host several P, Fe, Nb, and Ta deposits. This paper focuses on the Petyayan-Vara field, in which the primary magmatic carbonatites are magnesian. The least altered magnesiocarbonatites are composed of dolomite with burbankite and are rich in REE (up to 2.0 wt. %), Sr (up to 1.2 wt. %), and Ba (up to 0.8 wt. %). These carbonatites underwent several stages of metasomatism. Each metasomatic event produced a new rock type with specific mineralization. The introduction of K, Si, Al, Fe, Ti, and Nb by a F-rich fluid (or fluid-saturated melt) resulted in the formation of high-Ti magnesiocarbonatites and silicocarbonatites, composed of dolomite, microcline, Ti-rich phlogopite, and Fe-Ti oxides. Alteration by a phosphate-fluoride fluid caused the crystallization of apatite in the carbonatites. A sulfate-rich Ba-Sr-rare-earth elements (REE) fluid (probably brine-melt) promoted the massive precipitation of ancylite and baryte and, to a lesser extent, strontianite, bastnäsite, and synchysite. Varieties of carbonatite that contain the highest concentrations of REE are ancylite-dominant. The influence of sulfate-rich Ba-Sr-REE fluid on the apatite-bearing rocks resulted in the dissolution and reprecipitation of apatite in situ. The newly formed apatite generation is rich in HREE, Sr, and S. During late-stage transformations, breccias of magnesiocarbonatites with quartz-bastnäsite matrixes were formed. Simultaneously, strontianite, quartz, calcite, monazite, HREE-rich thorite, and Fe-hydroxides were deposited. Breccias with quartz-bastnäsite matrix are poorer in REE (up to 4.5 wt. % total REE) than the ancylite-dominant rocks (up to 11 wt. % total REE).

AB - The Vuoriyarvi Devonian carbonatite-ijolite-pyroxenite-olivinite complex comprises several carbonatite fields: Neske Vara, Tukhta-Vara, and Petyayan-Vara. The most common carbonatites in the Tukhta-Vara and Neske-Vara fields are calciocarbonatites, which host several P, Fe, Nb, and Ta deposits. This paper focuses on the Petyayan-Vara field, in which the primary magmatic carbonatites are magnesian. The least altered magnesiocarbonatites are composed of dolomite with burbankite and are rich in REE (up to 2.0 wt. %), Sr (up to 1.2 wt. %), and Ba (up to 0.8 wt. %). These carbonatites underwent several stages of metasomatism. Each metasomatic event produced a new rock type with specific mineralization. The introduction of K, Si, Al, Fe, Ti, and Nb by a F-rich fluid (or fluid-saturated melt) resulted in the formation of high-Ti magnesiocarbonatites and silicocarbonatites, composed of dolomite, microcline, Ti-rich phlogopite, and Fe-Ti oxides. Alteration by a phosphate-fluoride fluid caused the crystallization of apatite in the carbonatites. A sulfate-rich Ba-Sr-rare-earth elements (REE) fluid (probably brine-melt) promoted the massive precipitation of ancylite and baryte and, to a lesser extent, strontianite, bastnäsite, and synchysite. Varieties of carbonatite that contain the highest concentrations of REE are ancylite-dominant. The influence of sulfate-rich Ba-Sr-REE fluid on the apatite-bearing rocks resulted in the dissolution and reprecipitation of apatite in situ. The newly formed apatite generation is rich in HREE, Sr, and S. During late-stage transformations, breccias of magnesiocarbonatites with quartz-bastnäsite matrixes were formed. Simultaneously, strontianite, quartz, calcite, monazite, HREE-rich thorite, and Fe-hydroxides were deposited. Breccias with quartz-bastnäsite matrix are poorer in REE (up to 4.5 wt. % total REE) than the ancylite-dominant rocks (up to 11 wt. % total REE).

KW - Alkaline-ultrabasic complexes

KW - Ancylite

KW - Bastnäsite

KW - Carbonatites

KW - Kola alkaline province

KW - Metasomatism

KW - Rare-earth elements

KW - Vuoriyarvi

UR - http://www.scopus.com/inward/record.url?scp=85079459545&partnerID=8YFLogxK

U2 - 10.3390/min10010073

DO - 10.3390/min10010073

M3 - Article

AN - SCOPUS:85079459545

VL - 10

JO - Minerals

JF - Minerals

SN - 2075-163X

IS - 1

M1 - 73

ER -

ID: 53466997