The geochemistry and geochronology of the End deposit, NE Thelon region, Nunavut, Canada: insight into the Athabasca basin's closest relative

The Paleoproterozoic, intracratonic Thelon Basin, located ~100-500 km west of Baker Lake, Nunavut, has been studied over the past few decades by various researchers, but it is still relatively poorly understood. It displays many stratigraphic, sedimentological, and metallogenetic similarities to the...

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Bibliographic Details
Main Author: Ashcroft, Greg
Other Authors: Fayek, Mostafa (Geological Sciences), Camacho, Alfredo (Geological Sciences), Quirt, David (Geological Sciences), Ansdell, Kevin (Geological Sciences, University of Saskatchewan)
Format: Master Thesis
Language:English
Published: 2020
Subjects:
Kiggavik
Uranium
Nunavut
Thelon
Athabasca
Paleoproterozoic
Geochronology
Geochemistry
Isotopes
Oxygen
Hydrogen
Radiogenic
Lead
Ar-Ar
Clay thermometry
Canada
Baker Lake
Online Access:http://hdl.handle.net/1993/34890
Description
Summary:The Paleoproterozoic, intracratonic Thelon Basin, located ~100-500 km west of Baker Lake, Nunavut, has been studied over the past few decades by various researchers, but it is still relatively poorly understood. It displays many stratigraphic, sedimentological, and metallogenetic similarities to the uranium-producing Athabasca Basin located in Northern Saskatchewan and may share similar economic potential. The Kiggavik uranium project area is located 80 km west of Baker Lake, Nunavut, adjacent to the northeastern extent of the Thelon Basin; the Aberdeen sub-basin. The project area contains a series of uranium deposits and showings generally located along a broad NNE-oriented structural corridor known as the Andrew Lake-Kiggavik structural trend. The End deposit, hosted by the Judge Sissions Fault (JSF) within this structural trend, and contained within the Woodburn Lake group (WLg) Pipedream metagreywacke (Ppd) Three paragenetic stages of uranium mineralization are preserved, with the third stage comprising 3 sub-stages. The oldest dated stage is disseminated uraninite (U1; ~1500 Ma). This is transected by vein-type uraninite (U2; ~1300Ma). These in turn were remobilized as foliation-parallel (U3a), infill-type (U3b; ~970 Ma), and micro-roll-front style (U3c; ~750Ma). All uranium oxide minerals are now highly altered and the U-Pb ages obtained are highly discordant, suggesting that Pb-loss has occurred. Therefore, these ages are interpreted to represent thermal or tectonic resetting events. The U-Pb ages of uranium minerals from the End deposit are similar to the ages of uranium mineralization at the Bong deposit, which coincide with regional and tectonic thermal events. Three alteration events were also dated at ~1600, ~1475 and ~1300 Ma using 40Ar/39Ar geochronology of muscovite and illite. The ~1475 and 1300 Ma events coincide with ages from uranium minerals in the End deposit. The fluid that deposited U1 and illite (Il1) had a temperature of 210 ± 16 °C with δ18O and δ2H values of 4.1 ± 0.8 ‰ and -131 ± 5‰ ...

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