A Framework for Untangling Transient Groundwater Mixing and Travel Times

Understanding the mixing between surface water and groundwater as well as groundwater travel times in vulnerable aquifers is crucial to sustaining a safe water supply. Age dating tracers used to infer apparent travel times typically refer to the entire groundwater sample. A groundwater sample, howev...

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Published inWater resources research Vol. 57; no. 4
Main Authors Popp, Andrea L., Pardo‐Álvarez, Álvaro, Schilling, Oliver S., Scheidegger, Andreas, Musy, Stéphanie, Peel, Morgan, Brunner, Philip, Purtschert, Roland, Hunkeler, Daniel, Kipfer, Rolf
Format Journal Article
LanguageEnglish
Published 01.04.2021
Subjects
environmental tracers
subsurface mixing
surface water‐groundwater interactions
tracer hydrology
travel times
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ISSN0043-1397
1944-7973
1944-7973
DOI10.1029/2020WR028362

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Abstract Understanding the mixing between surface water and groundwater as well as groundwater travel times in vulnerable aquifers is crucial to sustaining a safe water supply. Age dating tracers used to infer apparent travel times typically refer to the entire groundwater sample. A groundwater sample, however, consists of a mixture of waters with a distribution of travel times. Age dating tracers only reflect the proportion of the water that is under the dating range of the used tracer, thus their interpretation is typically biased. Additionally, end‐member mixing models are subject to various sources of uncertainties, which are typically neglected. In this study, we introduce a new framework that untangles groundwater mixing ratios and travel times using a novel combination of in‐situ noble gas analyses. We applied this approach during a groundwater pumping test carried out in a pre‐alpine Swiss valley. First, we calculated transient mixing ratios between recently infiltrated river water and regional groundwater present in a wellfield, using helium‐4 concentrations combined with a Bayesian end‐member mixing model. Having identified the groundwater fraction of recently infiltrated river water (Frw) consequently allowed us to infer the travel times from the river to the wellfield, estimated based on radon‐222 activities of Frw. Furthermore, we compared tracer‐based estimates of Frw with results from a calibrated numerical model. We demonstrate (i) that partitioning of major water sources enables a meaningful interpretation of an age dating tracer of the water fraction of interest and (ii) that the streambed has a major control on the estimated travel times. Key Points We introduce a framework to estimate mean travel times of a groundwater fraction consisting of recently infiltrated river water (Frw) We test the influence of temporally variable end‐member tracer concentrations on estimated mixing ratios We demonstrate that the streambed has a major control on the travel times of Frw
AbstractList Understanding the mixing between surface water and groundwater as well as groundwater travel times in vulnerable aquifers is crucial to sustaining a safe water supply. Age dating tracers used to infer apparent travel times typically refer to the entire groundwater sample. A groundwater sample, however, consists of a mixture of waters with a distribution of travel times. Age dating tracers only reflect the proportion of the water that is under the dating range of the used tracer, thus their interpretation is typically biased. Additionally, end‐member mixing models are subject to various sources of uncertainties, which are typically neglected. In this study, we introduce a new framework that untangles groundwater mixing ratios and travel times using a novel combination of in‐situ noble gas analyses. We applied this approach during a groundwater pumping test carried out in a pre‐alpine Swiss valley. First, we calculated transient mixing ratios between recently infiltrated river water and regional groundwater present in a wellfield, using helium‐4 concentrations combined with a Bayesian end‐member mixing model. Having identified the groundwater fraction of recently infiltrated river water (Frw) consequently allowed us to infer the travel times from the river to the wellfield, estimated based on radon‐222 activities of Frw. Furthermore, we compared tracer‐based estimates of Frw with results from a calibrated numerical model. We demonstrate (i) that partitioning of major water sources enables a meaningful interpretation of an age dating tracer of the water fraction of interest and (ii) that the streambed has a major control on the estimated travel times. Key Points We introduce a framework to estimate mean travel times of a groundwater fraction consisting of recently infiltrated river water (Frw) We test the influence of temporally variable end‐member tracer concentrations on estimated mixing ratios We demonstrate that the streambed has a major control on the travel times of Frw
Author Popp, Andrea L.
Musy, Stéphanie
Pardo‐Álvarez, Álvaro
Schilling, Oliver S.
Hunkeler, Daniel
Brunner, Philip
Scheidegger, Andreas
Kipfer, Rolf
Purtschert, Roland
Peel, Morgan
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Snippet Understanding the mixing between surface water and groundwater as well as groundwater travel times in vulnerable aquifers is crucial to sustaining a safe water...
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SubjectTerms environmental tracers
subsurface mixing
surface water‐groundwater interactions
tracer hydrology
travel times
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Title A Framework for Untangling Transient Groundwater Mixing and Travel Times
URI https://onlinelibrary.wiley.com/doi/abs/10.1029%2F2020WR028362
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