Deep Crustal Evolution of the Western Churchill Province, Nunavut, Canada: Isotopic (U-Pb, O), Trace Element and Micro-Structural Analysis of Zircon from Lower Crustal Xenoliths
Zircon from lower crustal xenoliths can preserve unique crustal formation records of unexplored levels of the lithosphere. The first such records for the western Churchill province (Nunavut, Canada) are presented here. Zircon SIMS U-Pb geochronology and oxygen isotope analysis were conducted on kimb...
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ftunivwestonta:oai:ir.lib.uwo.ca:etd-1801 2023-10-01T03:58:26+02:00 Deep Crustal Evolution of the Western Churchill Province, Nunavut, Canada: Isotopic (U-Pb, O), Trace Element and Micro-Structural Analysis of Zircon from Lower Crustal Xenoliths Petts, Duane C 2012-06-15T07:00:00Z application/pdf https://ir.lib.uwo.ca/etd/591 https://ir.lib.uwo.ca/context/etd/article/1801/viewcontent/DPetts_PhD_Thesis_FINAL.pdf English eng Scholarship@Western https://ir.lib.uwo.ca/etd/591 https://ir.lib.uwo.ca/context/etd/article/1801/viewcontent/DPetts_PhD_Thesis_FINAL.pdf Electronic Thesis and Dissertation Repository zircon lower crust xenoliths western Churchill province U-Pb geochronology trace element geochemistry oxygen isotopes craton formation Rae province Hearne province and Chesterfield domain Geochemistry Geology Tectonics and Structure text 2012 ftunivwestonta 2023-09-03T07:16:23Z Zircon from lower crustal xenoliths can preserve unique crustal formation records of unexplored levels of the lithosphere. The first such records for the western Churchill province (Nunavut, Canada) are presented here. Zircon SIMS U-Pb geochronology and oxygen isotope analysis were conducted on kimberlite-hosted granulite-facies xenoliths: four metabasites (#9864; #9865; #9866; #9870) from the Rankin Inlet region, and five metabasites (#10162; #10163; #10167; #10169; #10179) and three metatonalite/anorthosites (#10158; #10164; #10168) from the Repulse Bay region. For the Rankin Inlet suite, oscillatory planar zoned, igneous cores from metabolite xenolith #9865 record dates between ca. 2.9–2.6 Ga, whereas complex to radial-sector zoned metamorphic cores from metabasite xenolith #9864 yield dates between ca. 2.0–1.9 Ga. Oscillatory planar zoned igneous cores from the Repulse Bay suite yield dates of ca. 3.50 and ca. 3.0–2.6 Ga (#10158; #10164; #10168). Metamorphic rims from all 12 xenoliths yield dates between ca. 1.75–1.70 Ga, which likely represent regional thermal reworking of the lower crust initiated by magma underplating along the crust-mantle boundary. Irregular, vein-like micro-structures and evidence for solid-state recrystallization are commonly observed using cathodoluminescence within the igneous and metamorphic cores, and likely represent zones affected by intracrystalline Pb-loss and/or Pb-redistribution during high-grade metamorphism. The oxygen isotope results for zircon from four metabasites from the Rankin Inlet suite have δ18Ozrc values between +5.7 and +8.6‰. Three metatonalite/anorthosites and five metabasites from the Repulse Bay suite have δ18Ozrc values ranging from +5.6 to +8.3‰. The high δ18O values of the oldest igneous cores from xenoliths #10158 and #10164 indicate protolith formation from evolved, supracrustal-derived (i.e., previous contact with surface fluids) tonalite/anorthosite magmas. By comparison, the near-mantle δ18O values of igneous cores from metabasite xenolith #9865 and ... Text Nunavut Rankin Inlet Repulse Bay The University of Western Ontario: Scholarship@Western Canada Nunavut Rae ENVELOPE(-116.053,-116.053,62.834,62.834) Rankin Inlet ENVELOPE(-91.983,-91.983,62.734,62.734) Repulse Bay ENVELOPE(69.383,69.383,-48.883,-48.883) |
institution |
Open Polar |
collection |
The University of Western Ontario: Scholarship@Western |
op_collection_id |
ftunivwestonta |
language |
English |
topic |
zircon lower crust xenoliths western Churchill province U-Pb geochronology trace element geochemistry oxygen isotopes craton formation Rae province Hearne province and Chesterfield domain Geochemistry Geology Tectonics and Structure |
spellingShingle |
zircon lower crust xenoliths western Churchill province U-Pb geochronology trace element geochemistry oxygen isotopes craton formation Rae province Hearne province and Chesterfield domain Geochemistry Geology Tectonics and Structure Petts, Duane C Deep Crustal Evolution of the Western Churchill Province, Nunavut, Canada: Isotopic (U-Pb, O), Trace Element and Micro-Structural Analysis of Zircon from Lower Crustal Xenoliths |
topic_facet |
zircon lower crust xenoliths western Churchill province U-Pb geochronology trace element geochemistry oxygen isotopes craton formation Rae province Hearne province and Chesterfield domain Geochemistry Geology Tectonics and Structure |
description |
Zircon from lower crustal xenoliths can preserve unique crustal formation records of unexplored levels of the lithosphere. The first such records for the western Churchill province (Nunavut, Canada) are presented here. Zircon SIMS U-Pb geochronology and oxygen isotope analysis were conducted on kimberlite-hosted granulite-facies xenoliths: four metabasites (#9864; #9865; #9866; #9870) from the Rankin Inlet region, and five metabasites (#10162; #10163; #10167; #10169; #10179) and three metatonalite/anorthosites (#10158; #10164; #10168) from the Repulse Bay region. For the Rankin Inlet suite, oscillatory planar zoned, igneous cores from metabolite xenolith #9865 record dates between ca. 2.9–2.6 Ga, whereas complex to radial-sector zoned metamorphic cores from metabasite xenolith #9864 yield dates between ca. 2.0–1.9 Ga. Oscillatory planar zoned igneous cores from the Repulse Bay suite yield dates of ca. 3.50 and ca. 3.0–2.6 Ga (#10158; #10164; #10168). Metamorphic rims from all 12 xenoliths yield dates between ca. 1.75–1.70 Ga, which likely represent regional thermal reworking of the lower crust initiated by magma underplating along the crust-mantle boundary. Irregular, vein-like micro-structures and evidence for solid-state recrystallization are commonly observed using cathodoluminescence within the igneous and metamorphic cores, and likely represent zones affected by intracrystalline Pb-loss and/or Pb-redistribution during high-grade metamorphism. The oxygen isotope results for zircon from four metabasites from the Rankin Inlet suite have δ18Ozrc values between +5.7 and +8.6‰. Three metatonalite/anorthosites and five metabasites from the Repulse Bay suite have δ18Ozrc values ranging from +5.6 to +8.3‰. The high δ18O values of the oldest igneous cores from xenoliths #10158 and #10164 indicate protolith formation from evolved, supracrustal-derived (i.e., previous contact with surface fluids) tonalite/anorthosite magmas. By comparison, the near-mantle δ18O values of igneous cores from metabasite xenolith #9865 and ... |
format |
Text |
author |
Petts, Duane C |
author_facet |
Petts, Duane C |
author_sort |
Petts, Duane C |
title |
Deep Crustal Evolution of the Western Churchill Province, Nunavut, Canada: Isotopic (U-Pb, O), Trace Element and Micro-Structural Analysis of Zircon from Lower Crustal Xenoliths |
title_short |
Deep Crustal Evolution of the Western Churchill Province, Nunavut, Canada: Isotopic (U-Pb, O), Trace Element and Micro-Structural Analysis of Zircon from Lower Crustal Xenoliths |
title_full |
Deep Crustal Evolution of the Western Churchill Province, Nunavut, Canada: Isotopic (U-Pb, O), Trace Element and Micro-Structural Analysis of Zircon from Lower Crustal Xenoliths |
title_fullStr |
Deep Crustal Evolution of the Western Churchill Province, Nunavut, Canada: Isotopic (U-Pb, O), Trace Element and Micro-Structural Analysis of Zircon from Lower Crustal Xenoliths |
title_full_unstemmed |
Deep Crustal Evolution of the Western Churchill Province, Nunavut, Canada: Isotopic (U-Pb, O), Trace Element and Micro-Structural Analysis of Zircon from Lower Crustal Xenoliths |
title_sort |
deep crustal evolution of the western churchill province, nunavut, canada: isotopic (u-pb, o), trace element and micro-structural analysis of zircon from lower crustal xenoliths |
publisher |
Scholarship@Western |
publishDate |
2012 |
url |
https://ir.lib.uwo.ca/etd/591 https://ir.lib.uwo.ca/context/etd/article/1801/viewcontent/DPetts_PhD_Thesis_FINAL.pdf |
long_lat |
ENVELOPE(-116.053,-116.053,62.834,62.834) ENVELOPE(-91.983,-91.983,62.734,62.734) ENVELOPE(69.383,69.383,-48.883,-48.883) |
geographic |
Canada Nunavut Rae Rankin Inlet Repulse Bay |
geographic_facet |
Canada Nunavut Rae Rankin Inlet Repulse Bay |
genre |
Nunavut Rankin Inlet Repulse Bay |
genre_facet |
Nunavut Rankin Inlet Repulse Bay |
op_source |
Electronic Thesis and Dissertation Repository |
op_relation |
https://ir.lib.uwo.ca/etd/591 https://ir.lib.uwo.ca/context/etd/article/1801/viewcontent/DPetts_PhD_Thesis_FINAL.pdf |
_version_ |
1778531181705297920 |