Compositional Variation of Eudialyte-Group Minerals from the Lovozero and Ilímaussaq Complexes and on the Origin of Peralkaline Systems

The Lovozero complex, Kola peninsula, Russia and the Ilímaussaq complex in Southwest Greenland are the largest known layered peralkaline intrusive complexes. Both host world-class deposits rich in REE and other high-tech elements. Both complexes expose spectacular layering with horizons rich in eudi...

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Published in:Minerals
Main Authors: Lia N. Kogarko, Troels F. D. Nielsen
Format: Text
Language:English
Published: Multidisciplinary Digital Publishing Institute 2021
Subjects:
EGM
Lovozero
Ilímaussaq peralkaline nepheline syenites
EGM evolution
Kola Peninsula
Greenland
Ilimaussaq
kola peninsula
Online Access:https://doi.org/10.3390/min11060548
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author Lia N. Kogarko
Troels F. D. Nielsen
author_facet Lia N. Kogarko
Troels F. D. Nielsen
author_sort Lia N. Kogarko
collection MDPI Open Access Publishing
container_issue 6
container_start_page 548
container_title Minerals
container_volume 11
description The Lovozero complex, Kola peninsula, Russia and the Ilímaussaq complex in Southwest Greenland are the largest known layered peralkaline intrusive complexes. Both host world-class deposits rich in REE and other high-tech elements. Both complexes expose spectacular layering with horizons rich in eudialyte group minerals (EGM). We present a detailed study of the composition and cryptic variations in cumulus EGM from Lovozero and a comparison with EGM from Ilímaussaq to further our understanding of peralkaline magma chambers processes. The geochemical signatures of Lovozero and Ilímaussaq EGM are distinct. In Lovozero EGMs are clearly enriched in Na + K, Mn, Ti, Sr and poorer Fe compared to EGM from Ilímaussaq, whereas the contents of ΣREE + Y and Cl are comparable. Ilímaussaq EGMs are depleted in Sr and Eu, which points to plagioclase fractionation and an olivine basaltic parent. The absence of negative Sr and Eu anomalies suggest a melanephelinitic parent for Lovozero. In Lovozero the cumulus EGMs shows decrease in Fe/Mn, Ti, Nb, Sr, Ba and all HREE up the magmatic layering, while REE + Y and Cl contents increase. In Lovozero EGM spectra show only a weak enrichment in LREE relative to HREE. The data demonstrates a systematic stratigraphic variation in major and trace elements compositions of liquidus EGM in the Eudialyte Complex, the latest and uppermost part of Lovozero. The distribution of elements follows a broadly linear trend. Despite intersample variations, the absence of abrupt changes in the trends suggests continuous crystallization and accumulation in the magma chamber. The crystallization was controlled by elemental distribution between EGM and coexisting melt during gravitational accumulation of crystals and/or mushes in a closed system. A different pattern is noted in the Ilimaussaq Complex. The elemental trends have variable steepness up the magmatic succession especially in the uppermost zones of the Complex. The differences between the two complexes are suggested to be related dynamics of the ...
format Text
genre Greenland
kola peninsula
genre_facet Greenland
kola peninsula
geographic Kola Peninsula
Greenland
Lovozero
Ilimaussaq
geographic_facet Kola Peninsula
Greenland
Lovozero
Ilimaussaq
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institution Open Polar
language English
long_lat ENVELOPE(35.016,35.016,68.006,68.006)
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op_doi https://doi.org/10.3390/min11060548
op_relation Crystallography and Physical Chemistry of Minerals & Nanominerals
https://dx.doi.org/10.3390/min11060548
op_rights https://creativecommons.org/licenses/by/4.0/
op_source Minerals; Volume 11; Issue 6; Pages: 548
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spelling ftmdpi:oai:mdpi.com:/2075-163X/11/6/548/ 2025-01-16T22:13:45+00:00 Compositional Variation of Eudialyte-Group Minerals from the Lovozero and Ilímaussaq Complexes and on the Origin of Peralkaline Systems Lia N. Kogarko Troels F. D. Nielsen agris 2021-05-21 application/pdf https://doi.org/10.3390/min11060548 EN eng Multidisciplinary Digital Publishing Institute Crystallography and Physical Chemistry of Minerals & Nanominerals https://dx.doi.org/10.3390/min11060548 https://creativecommons.org/licenses/by/4.0/ Minerals; Volume 11; Issue 6; Pages: 548 EGM Lovozero Ilímaussaq peralkaline nepheline syenites EGM evolution Text 2021 ftmdpi https://doi.org/10.3390/min11060548 2023-08-01T01:46:06Z The Lovozero complex, Kola peninsula, Russia and the Ilímaussaq complex in Southwest Greenland are the largest known layered peralkaline intrusive complexes. Both host world-class deposits rich in REE and other high-tech elements. Both complexes expose spectacular layering with horizons rich in eudialyte group minerals (EGM). We present a detailed study of the composition and cryptic variations in cumulus EGM from Lovozero and a comparison with EGM from Ilímaussaq to further our understanding of peralkaline magma chambers processes. The geochemical signatures of Lovozero and Ilímaussaq EGM are distinct. In Lovozero EGMs are clearly enriched in Na + K, Mn, Ti, Sr and poorer Fe compared to EGM from Ilímaussaq, whereas the contents of ΣREE + Y and Cl are comparable. Ilímaussaq EGMs are depleted in Sr and Eu, which points to plagioclase fractionation and an olivine basaltic parent. The absence of negative Sr and Eu anomalies suggest a melanephelinitic parent for Lovozero. In Lovozero the cumulus EGMs shows decrease in Fe/Mn, Ti, Nb, Sr, Ba and all HREE up the magmatic layering, while REE + Y and Cl contents increase. In Lovozero EGM spectra show only a weak enrichment in LREE relative to HREE. The data demonstrates a systematic stratigraphic variation in major and trace elements compositions of liquidus EGM in the Eudialyte Complex, the latest and uppermost part of Lovozero. The distribution of elements follows a broadly linear trend. Despite intersample variations, the absence of abrupt changes in the trends suggests continuous crystallization and accumulation in the magma chamber. The crystallization was controlled by elemental distribution between EGM and coexisting melt during gravitational accumulation of crystals and/or mushes in a closed system. A different pattern is noted in the Ilimaussaq Complex. The elemental trends have variable steepness up the magmatic succession especially in the uppermost zones of the Complex. The differences between the two complexes are suggested to be related dynamics of the ... Text Greenland kola peninsula MDPI Open Access Publishing Kola Peninsula Greenland Lovozero ENVELOPE(35.016,35.016,68.006,68.006) Ilimaussaq ENVELOPE(-45.900,-45.900,60.983,60.983) Minerals 11 6 548
spellingShingle EGM
Lovozero
Ilímaussaq peralkaline nepheline syenites
EGM evolution
Lia N. Kogarko
Troels F. D. Nielsen
Compositional Variation of Eudialyte-Group Minerals from the Lovozero and Ilímaussaq Complexes and on the Origin of Peralkaline Systems
title Compositional Variation of Eudialyte-Group Minerals from the Lovozero and Ilímaussaq Complexes and on the Origin of Peralkaline Systems
title_full Compositional Variation of Eudialyte-Group Minerals from the Lovozero and Ilímaussaq Complexes and on the Origin of Peralkaline Systems
title_fullStr Compositional Variation of Eudialyte-Group Minerals from the Lovozero and Ilímaussaq Complexes and on the Origin of Peralkaline Systems
title_full_unstemmed Compositional Variation of Eudialyte-Group Minerals from the Lovozero and Ilímaussaq Complexes and on the Origin of Peralkaline Systems
title_short Compositional Variation of Eudialyte-Group Minerals from the Lovozero and Ilímaussaq Complexes and on the Origin of Peralkaline Systems
title_sort compositional variation of eudialyte-group minerals from the lovozero and ilímaussaq complexes and on the origin of peralkaline systems
topic EGM
Lovozero
Ilímaussaq peralkaline nepheline syenites
EGM evolution
topic_facet EGM
Lovozero
Ilímaussaq peralkaline nepheline syenites
EGM evolution
url https://doi.org/10.3390/min11060548

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