Sulfur isotope signatures of sulfides from the Khibina and Lovozero massifs (Kola Alkaline Province, Fennoscandian Shield)

Sulfur isotope signatures of sulfides from the Khibina and Lovozero massifs (Kola Alkaline Province, Fennoscandian Shield)

The sulfur isotope geochemistry of the Khibina and Lovozero agpaitic massifs provides an opportunity to understand the role of plume-lithosphere interaction processes responsible for the Paleozoic alkaline igneous activity in the north-eastern part of the Fennoscandian Shield. The stable sulfur isotope δ 34S analysis using triple collector isotope ratio mass spectrometer (IRMS) has been carried out on the pentlandite, chalcopyrite and pyrite from nepheline syenites. The δ 34S values for pentlandite from Khibina rocks range from +0.69 to +2.06 ‰ relative to the Vienna Canyon Diablo Troillite standard (VCDT), and the pyrite has significantly higher δ 34S values up to +4.92 ‰ VCDT. The pentlandite from the Lovozero samples has value +1.48 ‰ VCDT, δ 34S values of chalcopyrite is +2.85 ‰ VCDT. The maximum positive δ 34S values are obtained for Lovozero pyrite, which vary from +5.41 to +6.30 ‰ VCDT. Comparison of sulfur-geochemical features of Khibina and Lovozero nepheline syenite with δ 34S data for the carbonatites from the Khibina, Sallanlatvi, Seblyavr, Vuoriyarvi, Salmagora and Kovdor massifs show later carbonatite formation relatively to associated alkaline rocks. Geochemical sulfur isotope δ 34S investigations emphasizes that parental magmas of the Khibina and Lovozero alkaline massifs were derived from a metasomatized subcontinental lithospheric mantle (SCLM). We suggest that high-?34S signature on the SCLM (δ 34S of +1 to +6 ‰ VCDT) can be explained by subduction of the high-δ 34S Archaean crust.

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Main Authors: Huber, M., Mokrushin, A. V.
Format: Journal Contribution biblioteca
Language:English
Published: 2021
Subjects:Fennoscandian Shield, Фенноскандинавский щит, Pentlandite, Pyrite, Charcopyrite, Пентландит, Пирит, Халькопирит, ASFA_2015::G::Geology, ASFA_2015::G::Geochemistry, ASFA_2015::S::Sulphur isotopes,
Online Access:http://hdl.handle.net/1834/41686
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spelling dig-aquadocs-1834-416862021-11-11T01:59:37Z Sulfur isotope signatures of sulfides from the Khibina and Lovozero massifs (Kola Alkaline Province, Fennoscandian Shield) Изотопные характеристики серы сульфидов Хибинского и Ловозерского массивов (Кольская щелочная провинция, Фенноскандинавский щит) Huber, M. Mokrushin, A. V. Fennoscandian Shield Фенноскандинавский щит Pentlandite Pyrite Charcopyrite Пентландит Пирит Халькопирит ASFA_2015::G::Geology ASFA_2015::G::Geochemistry ASFA_2015::S::Sulphur isotopes The sulfur isotope geochemistry of the Khibina and Lovozero agpaitic massifs provides an opportunity to understand the role of plume-lithosphere interaction processes responsible for the Paleozoic alkaline igneous activity in the north-eastern part of the Fennoscandian Shield. The stable sulfur isotope δ 34S analysis using triple collector isotope ratio mass spectrometer (IRMS) has been carried out on the pentlandite, chalcopyrite and pyrite from nepheline syenites. The δ 34S values for pentlandite from Khibina rocks range from +0.69 to +2.06 ‰ relative to the Vienna Canyon Diablo Troillite standard (VCDT), and the pyrite has significantly higher δ 34S values up to +4.92 ‰ VCDT. The pentlandite from the Lovozero samples has value +1.48 ‰ VCDT, δ 34S values of chalcopyrite is +2.85 ‰ VCDT. The maximum positive δ 34S values are obtained for Lovozero pyrite, which vary from +5.41 to +6.30 ‰ VCDT. Comparison of sulfur-geochemical features of Khibina and Lovozero nepheline syenite with δ 34S data for the carbonatites from the Khibina, Sallanlatvi, Seblyavr, Vuoriyarvi, Salmagora and Kovdor massifs show later carbonatite formation relatively to associated alkaline rocks. Geochemical sulfur isotope δ 34S investigations emphasizes that parental magmas of the Khibina and Lovozero alkaline massifs were derived from a metasomatized subcontinental lithospheric mantle (SCLM). We suggest that high-?34S signature on the SCLM (δ 34S of +1 to +6 ‰ VCDT) can be explained by subduction of the high-δ 34S Archaean crust. Геохимия изотопов серы Хибинского и Ловозерского агпаитовых массивов дает возможность понять роль плюм-литосферных процессов, ответственных за палеозойскую щелочную магматическую активность в северо-восточной части Фенноскандинавского щита. Изотопный состав серы (δ 34S) получен для пентландита, халькопирита и пирита из нефелиновых сиенитов с использованием масс-спектрометра с тройным коллектором (IRMS). Значения δ 34S пентландита из пород Хибинского массива варьируют от +0,69 до +2,06 ‰ относительно стандарта Вена-Каньон-Дьябло-Троилит (VCDT); значительно выше значения для пирита (+ 4,92 ‰ VCDT). Ловозерский пентландит имеет значение δ 34S, равное +1,48 ‰ VCDT; δ 34S для халькопирита составляет +2,85 ‰ VCDT. Максимально положительные значения δ 34S для сульфидов Ловозерского массива получены для пирита (от +5,41 до +6,30 ‰ VCDT). Сравнение полученных данных с данными по изотопии серы для карбонатитов Хибин, Салланлатви, Себлъявра, Вуориярви, Салмагоры и Ковдора указывает на более позднее образование карбонатитов относительно связанных с ними щелочных пород. Геохимические исследования изотопов серы показывают, что первичным магматическим источником Хибинского и Ловозерского щелочных массивов является метасоматизированная субконтинентальная литосферная мантия (SCLM). Сделано предположение, что высокие значения δ 34S для SCLM (от +1 до +6 ‰ VCDT) обусловлены субдукцией архейской коры, обогащенной тяжелым 34S изотопом серы. Published Refereed 2021-11-10T11:43:40Z 2021-11-10T11:43:40Z 2021 Journal Contribution http://hdl.handle.net/1834/41686 en http://vestnik.mstu.edu.ru/show-eng.shtml?art=2090 http://vestnik.mstu.edu.ru/show.shtml?art=2090 Attribution-NonCommercial-NoDerivatives 4.0 International http://creativecommons.org/licenses/by-nc-nd/4.0/ pp.80-87 Russia Khibina Lovozero Kola Alkaline Province Хибины Ловозеро Кольская щелочная провинция Арктическая зона РФ Arctic zone of Russia
institution UNESCO
collection DSpace
country Francia
countrycode FR
component Bibliográfico
access En linea
databasecode dig-aquadocs
tag biblioteca
region Europa del Oeste
libraryname Repositorio AQUADOCS
language English
topic Fennoscandian Shield
Фенноскандинавский щит
Pentlandite
Pyrite
Charcopyrite
Пентландит
Пирит
Халькопирит
ASFA_2015::G::Geology
ASFA_2015::G::Geochemistry
ASFA_2015::S::Sulphur isotopes
Fennoscandian Shield
Фенноскандинавский щит
Pentlandite
Pyrite
Charcopyrite
Пентландит
Пирит
Халькопирит
ASFA_2015::G::Geology
ASFA_2015::G::Geochemistry
ASFA_2015::S::Sulphur isotopes
spellingShingle Fennoscandian Shield
Фенноскандинавский щит
Pentlandite
Pyrite
Charcopyrite
Пентландит
Пирит
Халькопирит
ASFA_2015::G::Geology
ASFA_2015::G::Geochemistry
ASFA_2015::S::Sulphur isotopes
Fennoscandian Shield
Фенноскандинавский щит
Pentlandite
Pyrite
Charcopyrite
Пентландит
Пирит
Халькопирит
ASFA_2015::G::Geology
ASFA_2015::G::Geochemistry
ASFA_2015::S::Sulphur isotopes
Huber, M.
Mokrushin, A. V.
Sulfur isotope signatures of sulfides from the Khibina and Lovozero massifs (Kola Alkaline Province, Fennoscandian Shield)
description The sulfur isotope geochemistry of the Khibina and Lovozero agpaitic massifs provides an opportunity to understand the role of plume-lithosphere interaction processes responsible for the Paleozoic alkaline igneous activity in the north-eastern part of the Fennoscandian Shield. The stable sulfur isotope δ 34S analysis using triple collector isotope ratio mass spectrometer (IRMS) has been carried out on the pentlandite, chalcopyrite and pyrite from nepheline syenites. The δ 34S values for pentlandite from Khibina rocks range from +0.69 to +2.06 ‰ relative to the Vienna Canyon Diablo Troillite standard (VCDT), and the pyrite has significantly higher δ 34S values up to +4.92 ‰ VCDT. The pentlandite from the Lovozero samples has value +1.48 ‰ VCDT, δ 34S values of chalcopyrite is +2.85 ‰ VCDT. The maximum positive δ 34S values are obtained for Lovozero pyrite, which vary from +5.41 to +6.30 ‰ VCDT. Comparison of sulfur-geochemical features of Khibina and Lovozero nepheline syenite with δ 34S data for the carbonatites from the Khibina, Sallanlatvi, Seblyavr, Vuoriyarvi, Salmagora and Kovdor massifs show later carbonatite formation relatively to associated alkaline rocks. Geochemical sulfur isotope δ 34S investigations emphasizes that parental magmas of the Khibina and Lovozero alkaline massifs were derived from a metasomatized subcontinental lithospheric mantle (SCLM). We suggest that high-?34S signature on the SCLM (δ 34S of +1 to +6 ‰ VCDT) can be explained by subduction of the high-δ 34S Archaean crust.
format Journal Contribution
topic_facet Fennoscandian Shield
Фенноскандинавский щит
Pentlandite
Pyrite
Charcopyrite
Пентландит
Пирит
Халькопирит
ASFA_2015::G::Geology
ASFA_2015::G::Geochemistry
ASFA_2015::S::Sulphur isotopes
author Huber, M.
Mokrushin, A. V.
author_facet Huber, M.
Mokrushin, A. V.
author_sort Huber, M.
title Sulfur isotope signatures of sulfides from the Khibina and Lovozero massifs (Kola Alkaline Province, Fennoscandian Shield)
title_short Sulfur isotope signatures of sulfides from the Khibina and Lovozero massifs (Kola Alkaline Province, Fennoscandian Shield)
title_full Sulfur isotope signatures of sulfides from the Khibina and Lovozero massifs (Kola Alkaline Province, Fennoscandian Shield)
title_fullStr Sulfur isotope signatures of sulfides from the Khibina and Lovozero massifs (Kola Alkaline Province, Fennoscandian Shield)
title_full_unstemmed Sulfur isotope signatures of sulfides from the Khibina and Lovozero massifs (Kola Alkaline Province, Fennoscandian Shield)
title_sort sulfur isotope signatures of sulfides from the khibina and lovozero massifs (kola alkaline province, fennoscandian shield)
publishDate 2021
url http://hdl.handle.net/1834/41686
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AT huberm izotopnyeharakteristikiserysulʹfidovhibinskogoilovozerskogomassivovkolʹskaâŝeločnaâprovinciâfennoskandinavskijŝit
AT mokrushinav izotopnyeharakteristikiserysulʹfidovhibinskogoilovozerskogomassivovkolʹskaâŝeločnaâprovinciâfennoskandinavskijŝit
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