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    Provenance and tectonic setting of Paleoproterozoic metasedimentary rocks along the eastern margin of Hearne craton Constraints from SHRIMP geochronology,Wollaston Group, Saskatchewan, Canada [查看] HaiThanhTranKevinM.AnsdellKathrynM.BethuneKenAshtonMikeA.Hamilton
    Single detrital zircon grains from various parts of theWollaston Group, a Paleoproterozoic metasedimentary succession deposited along the southeastern margin of the Hearne Province, northern Saskatchewan,Canada,were analyzed by SHRIMP U–Pb geochronological techniques. Zircon analyses are mostly concordant and yield ages ranging from ca. 2800 to 1780 Ma, although distinct age populations were detected in all samples. The stratigraphically oldest sample (Geoch 4) is dominated by a bimodal distribution of zircon ages (ca. 1.90 and 2.4–2.6 Ga), which is similar to that preserved in the sample (Geoch 2) from the middle portion of theWollaston Group. The stratigraphically youngest sample (Geoch 9) contains ca.2.1Ga zircons, aswell as zircons with the same ages as observed in Geoch 4 and Geoch 2. Zircon ages older than 2450Ma appear to be consistent with the age of the Hearne Province basement, suggesting that part of the sedimentary detrituswas locally derived. Zircons with ages in the 2430–2350Ma range, found in all samples, may have been derived froma more distant source, such as Rae Province rocks thatwere affected by the recently identified Arrowsmith orogeny. Significant amounts of 1920–1880Ma zircon grains are found in all samples; these are interpreted to represent sedimentary detritus derived from juvenile volcanic terranes. Zircons younger than 1860Ma are interpreted to be the product of post-Wollaston Group thermal overprinting. Our data, together with field relationships and geochemical data, suggest that most of the preservedWollaston Group was deposited in a back-arc to foreland basin environment. It received detritus from both Archean continental crust to the west and a juvenile continental magmatic arc, likely located to the east, as the youngest zircon ages are not consistent with the age of Taltson Orogen rocks to the west.
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