Mechanisms of subglacial groundwater recharge as derived from noble gas, 14 C, and stable isotopic data

Noble gas, stable isotope and 14 C data from samples collected along groundwater flow path within a confined Paleozoic aquifer in northeastern Wisconsin, USA are used to deduce the effect of the Laurentide Ice Sheet (LIS) on the underlying groundwater and its recharge dynamics. During the last glaci...

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Bibliographic Details
Published in:Earth and Planetary Science Letters
Main Authors: Grundl, Tim, Magnusson, Nathan, Brennwald, Matthias S., Kipfer, Rolf
Format: Article in Journal/Newspaper
Language:English
Published: Elsevier 2013
Subjects:
noble gas
subglacial recharge
Pleistocene climate
Green Bay
Ice Sheet
Online Access:https://doi.org/10.1016/j.epsl.2013.03.012
Description
Summary:Noble gas, stable isotope and 14 C data from samples collected along groundwater flow path within a confined Paleozoic aquifer in northeastern Wisconsin, USA are used to deduce the effect of the Laurentide Ice Sheet (LIS) on the underlying groundwater and its recharge dynamics. During the last glacial maximum the investigated area was near the center of the Green Bay Lobe of the LIS. 14 C ages that extend to 26 k.a. and low δ 18 O derived temperatures during the time that the LIS was present indicate that aquifer recharge continued when ice covered the area. δ 18 O values as low as −17.5‰ and δ 2 H values as low as −127.7‰ indicate that a significant portion of aquifer recharge was derived from glacial meltwater that maintained its glacial isotopic signature during melting and subsequent recharge. Noble gas temperatures that remain above freezing at a constant ~3 °C, unusually high excess air (ΔNe) values and noble gas fractionation patterns indicate that recharge occurred across a very dynamic water table located within the ice sheet. This englacial hydrologic system experienced recharge heads of as much as 7.8 m. Evidence for direct recharge of basal meltwater into the aquifer is not seen. To the authors' knowledge this is the first time that noble gas and isotope tracers have been used to deduce the provenance of aquifer water beneath continental ice sheets.

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