Sm-Nd Isotopic Composition of Mantle-Derived Rocks from the Saglek-Hebron Gneiss Complex, Northern Labrador

The Saglek-Hebron Gneiss Complex (SHC) is located in Northern Labrador within the Nain Province. It has recorded multiple magmatic events over more than 1 billion years, making it ideal to study the evolution of mantle-derived rocks through time. Here we present a 147Sm-143Nd isotopic study focussin...

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Bibliographic Details
Main Author: Flageole, Janick
Other Authors: O'Neil, Jonathan
Format: Thesis
Language:English
Published: Université d'Ottawa / University of Ottawa 2019
Subjects:
Archean
Mantle-derived rocks
147Sm-143Nd
Saglek-Hebron Gneiss Complex
Mantle evolution
Geochemistry
Hebron
Nain
Online Access:http://hdl.handle.net/10393/39208
https://doi.org/10.20381/ruor-23456
id ftunivottawa:oai:ruor.uottawa.ca:10393/39208
record_format openpolar
spelling ftunivottawa:oai:ruor.uottawa.ca:10393/39208 2023-05-15T17:13:59+02:00 Sm-Nd Isotopic Composition of Mantle-Derived Rocks from the Saglek-Hebron Gneiss Complex, Northern Labrador Flageole, Janick O'Neil, Jonathan 2019-05-16 application/pdf http://hdl.handle.net/10393/39208 https://doi.org/10.20381/ruor-23456 en eng Université d'Ottawa / University of Ottawa http://hdl.handle.net/10393/39208 http://dx.doi.org/10.20381/ruor-23456 Archean Mantle-derived rocks 147Sm-143Nd Saglek-Hebron Gneiss Complex Mantle evolution Geochemistry Thesis 2019 ftunivottawa https://doi.org/10.20381/ruor-23456 2022-07-30T22:58:56Z The Saglek-Hebron Gneiss Complex (SHC) is located in Northern Labrador within the Nain Province. It has recorded multiple magmatic events over more than 1 billion years, making it ideal to study the evolution of mantle-derived rocks through time. Here we present a 147Sm-143Nd isotopic study focussing on the different generations of mantle-derived rocks in the SHC. A total of 83 samples have been analysed, including: 1) mafic metavolcanic rocks; 2) ultramafic rocks divided into two distinct groups (a Fe-rich group enriched in incompatible elements and more depleted ultramafic rocks with lower Fe contents); 3) mafic metamorphosed dikes called the Saglek dikes; and 4) undeformed mafic dikes. Some samples exhibit evidence of post-magmatic geochemical and isotopic disturbance but only the least disturbed samples have been considered to constrain the timing of formation of the different lithologies and the isotopic composition of their mantle source. The mafic metavolcanic rocks combined with the co-genetic low-Fe ultramafic rocks yield an isochron age of 3819 ± 190 Ma (MSWD=34, n=25) with an initial εNd value of +2.3 ± 0.6. The high-Fe enriched ultramafic rocks yield a younger age of 3433 ± 220 Ma (MSWD=10.4, n=10) with an initial εNd= +1.8 ± 0.5. The two generations of mafic dikes appear to have been emplaced in the Mesoarchean and the Neoarchean. The Saglek dikes yield an isochron age of 3565 ±120 Ma (MSWD=1.17, n=10) with an initial εNd value of +1.7 ± 0.1, while the Sm-Nd isochron age for the undeformed mafic dikes is 2694 ±79 Ma (MSWD=3.2, n=21) with an initial εNd value of +1.7 ± 0.1. All generations of mantle-derived rocks yield positive initial εNd values, where only the Eoarchean rocks display an initial Nd isotopic composition similar to the depleted mantle. The Mesoarchean ultramafic rocks, Saglek dikes and Neoarchean mafic dikes display almost identical initial εNd values, despite an age difference of ~800 Ma. This could suggest the contribution of distinct mantle sources or, if all generations of ... Thesis Nain uO Research (University of Ottawa - uOttawa) Hebron ENVELOPE(-62.631,-62.631,58.200,58.200) Nain ENVELOPE(-61.695,-61.695,56.542,56.542)
institution Open Polar
collection uO Research (University of Ottawa - uOttawa)
op_collection_id ftunivottawa
language English
topic Archean
Mantle-derived rocks
147Sm-143Nd
Saglek-Hebron Gneiss Complex
Mantle evolution
Geochemistry
spellingShingle Archean
Mantle-derived rocks
147Sm-143Nd
Saglek-Hebron Gneiss Complex
Mantle evolution
Geochemistry
Flageole, Janick
Sm-Nd Isotopic Composition of Mantle-Derived Rocks from the Saglek-Hebron Gneiss Complex, Northern Labrador
topic_facet Archean
Mantle-derived rocks
147Sm-143Nd
Saglek-Hebron Gneiss Complex
Mantle evolution
Geochemistry
description The Saglek-Hebron Gneiss Complex (SHC) is located in Northern Labrador within the Nain Province. It has recorded multiple magmatic events over more than 1 billion years, making it ideal to study the evolution of mantle-derived rocks through time. Here we present a 147Sm-143Nd isotopic study focussing on the different generations of mantle-derived rocks in the SHC. A total of 83 samples have been analysed, including: 1) mafic metavolcanic rocks; 2) ultramafic rocks divided into two distinct groups (a Fe-rich group enriched in incompatible elements and more depleted ultramafic rocks with lower Fe contents); 3) mafic metamorphosed dikes called the Saglek dikes; and 4) undeformed mafic dikes. Some samples exhibit evidence of post-magmatic geochemical and isotopic disturbance but only the least disturbed samples have been considered to constrain the timing of formation of the different lithologies and the isotopic composition of their mantle source. The mafic metavolcanic rocks combined with the co-genetic low-Fe ultramafic rocks yield an isochron age of 3819 ± 190 Ma (MSWD=34, n=25) with an initial εNd value of +2.3 ± 0.6. The high-Fe enriched ultramafic rocks yield a younger age of 3433 ± 220 Ma (MSWD=10.4, n=10) with an initial εNd= +1.8 ± 0.5. The two generations of mafic dikes appear to have been emplaced in the Mesoarchean and the Neoarchean. The Saglek dikes yield an isochron age of 3565 ±120 Ma (MSWD=1.17, n=10) with an initial εNd value of +1.7 ± 0.1, while the Sm-Nd isochron age for the undeformed mafic dikes is 2694 ±79 Ma (MSWD=3.2, n=21) with an initial εNd value of +1.7 ± 0.1. All generations of mantle-derived rocks yield positive initial εNd values, where only the Eoarchean rocks display an initial Nd isotopic composition similar to the depleted mantle. The Mesoarchean ultramafic rocks, Saglek dikes and Neoarchean mafic dikes display almost identical initial εNd values, despite an age difference of ~800 Ma. This could suggest the contribution of distinct mantle sources or, if all generations of ...
author2 O'Neil, Jonathan
format Thesis
author Flageole, Janick
author_facet Flageole, Janick
author_sort Flageole, Janick
title Sm-Nd Isotopic Composition of Mantle-Derived Rocks from the Saglek-Hebron Gneiss Complex, Northern Labrador
title_short Sm-Nd Isotopic Composition of Mantle-Derived Rocks from the Saglek-Hebron Gneiss Complex, Northern Labrador
title_full Sm-Nd Isotopic Composition of Mantle-Derived Rocks from the Saglek-Hebron Gneiss Complex, Northern Labrador
title_fullStr Sm-Nd Isotopic Composition of Mantle-Derived Rocks from the Saglek-Hebron Gneiss Complex, Northern Labrador
title_full_unstemmed Sm-Nd Isotopic Composition of Mantle-Derived Rocks from the Saglek-Hebron Gneiss Complex, Northern Labrador
title_sort sm-nd isotopic composition of mantle-derived rocks from the saglek-hebron gneiss complex, northern labrador
publisher Université d'Ottawa / University of Ottawa
publishDate 2019
url http://hdl.handle.net/10393/39208
https://doi.org/10.20381/ruor-23456
long_lat ENVELOPE(-62.631,-62.631,58.200,58.200)
ENVELOPE(-61.695,-61.695,56.542,56.542)
geographic Hebron
Nain
geographic_facet Hebron
Nain
genre Nain
genre_facet Nain
op_relation http://hdl.handle.net/10393/39208
http://dx.doi.org/10.20381/ruor-23456
op_doi https://doi.org/10.20381/ruor-23456
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