Persistence of Uranium in Old and Cold Subpermafrost Groundwater Indicated by Linking <sup>234</sup>U-<sup>235</sup>U-<sup>238</sup>U, Groundwater Ages, and Hydrogeochemistry

Elliott K. Skierszkan, John W. Dockrey, Jordi Helsen, Laura-Lee Findlater, Clément P. Bataille, Ghislain de Laplante, Joyce McBeth, K. Ulrich Mayer, Roger Beckie, Elliott K. Skierszkan, John W. Dockrey, Jordi Helsen, Laura-Lee Findlater, Clément P. Bataille, Ghislain de Laplante, Joyce McBeth, K. Ulrich Mayer, Roger Beckie


Abstract
Uranium (U) contamination in groundwater from geogenic sources affects water quality globally. Here, we use a multifaceted isotopic and geochemical approach to elucidate U sources and controls on g...
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Elliott K. Skierszkan, John W. Dockrey, Jordi Helsen, Laura-Lee Findlater, Clément P. Bataille, Ghislain de Laplante, Joyce McBeth, K. Ulrich Mayer, Roger Beckie, Elliott K. Skierszkan, John W. Dockrey, Jordi Helsen, Laura-Lee Findlater, Clément P. Bataille, Ghislain de Laplante, Joyce McBeth, K. Ulrich Mayer, and Roger Beckie. 2021. Persistence of Uranium in Old and Cold Subpermafrost Groundwater Indicated by Linking 234U-235U-238U, Groundwater Ages, and Hydrogeochemistry. ACS Earth and Space Chemistry, Volume 5, Issue 12, 5(12):3474–3487.
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