UPb zircon geochronology and Nd isotope geochemistry of Proterozoic granitoids in the western Churchill Province: intrusive age pattern and Archean source domains
Hudsonian tectonism in the western Churchill Province of Canada encompassed two periods of granitic plutonism. The Hudson suite plutons represent xenocryst-rich, mainly monzogranitic, near-minimum melts emplaced near their source region in thickened middle crust; the Nueltin syenogranites and Pitz r...
Published in: | Canadian Journal of Earth Sciences |
---|---|
Main Authors: | , , |
Format: | Article in Journal/Newspaper |
Language: | English |
Published: |
Canadian Science Publishing
2005
|
Subjects: | |
Online Access: | http://dx.doi.org/10.1139/e05-007 http://www.nrcresearchpress.com/doi/pdf/10.1139/e05-007 |
Summary: | Hudsonian tectonism in the western Churchill Province of Canada encompassed two periods of granitic plutonism. The Hudson suite plutons represent xenocryst-rich, mainly monzogranitic, near-minimum melts emplaced near their source region in thickened middle crust; the Nueltin syenogranites and Pitz rhyolites were generated by intrusion of basalt into extending crust. Zircons from four Nueltin suite samples and 20 Hudson suite samples were analysed by UPb SHRIMP techniques. Intrusion of the Hudson suite lasted ca. 50 million years, from 1845 to 1795 Ma, with a peak around 1825 Ma, and the Nueltin suite from 1765 to 1750 Ma, following a ca. 30-million-year period of magmatic quiescence. A marked contrast in Th/U ratios was found in igneous zircon from Hudson suite samples south (Th/U = 0.066) and north (Th/U = 1.07) of the northern margin of the Central Hearne domain and is attributed to a difference in the nature of the melting process, with the lower values representing ultrametamorphism and the higher values representing bulk melting resulting from contact with mafic igneous magma. Whole-rock Nd isotopic measurements, with average ε 143 Nd near 10, indicate a dominant late Archean crustal component in both suites of granites, reflected by numerous inherited zircon ages between 2720 and 2650 Ma in Hudson granites. Further south, along the Manitoba border, inherited zircons of 35003000 Ma, together with previously published UPb data on gneisses and ca. 3 Ga T DM model ages of Hudson granites, indicate the presence of middle to early Archean crust. |
---|