2016
DOI: 10.1007/s11270-016-2936-6
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A Review and Evaluation of the Impacts of Climate Change on Geogenic Arsenic in Groundwater from Fractured Bedrock Aquifers

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Cited by 53 publications
(25 citation statements)
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“…These wells are 27.5 m apart which illustrate that arsenic concentrations can vary over small spatial scales (Ravenscroft et al 2009;Smedley and Kinniburgh 2013;Ayotte et al 2017). In these fractured aquifers, this large spatial variability is mainly governed by groundwater flow through influencing the dilution process and hydrochemistry with previous studies illustrating a similar process (Peters 2008;Smedley et al 2007;Bondu et al 2016). Groundwater samples had low Ca/Na ratios with boreholes containing elevated arsenic concentrations having lower ratios (Fig.…”
Section: Arsenic Geochemistry and Speciationsupporting
confidence: 53%
“…These wells are 27.5 m apart which illustrate that arsenic concentrations can vary over small spatial scales (Ravenscroft et al 2009;Smedley and Kinniburgh 2013;Ayotte et al 2017). In these fractured aquifers, this large spatial variability is mainly governed by groundwater flow through influencing the dilution process and hydrochemistry with previous studies illustrating a similar process (Peters 2008;Smedley et al 2007;Bondu et al 2016). Groundwater samples had low Ca/Na ratios with boreholes containing elevated arsenic concentrations having lower ratios (Fig.…”
Section: Arsenic Geochemistry and Speciationsupporting
confidence: 53%
“…Changes in near‐surface and deep groundwater dynamics will also modify the variation of solute concentrations across headwater subcomponents. For example, water quality is likely to degrade (e.g., increasing sulfate and metals) with deeper water tables (Manning et al, ), geochemical evolution along longer flow paths (Bondu et al, ) and stream waters becoming more dependent on solute‐rich ground water.…”
Section: Discussionmentioning
confidence: 99%
“…In comparison, less geochemically evolved groundwater (younger groundwater) contains low dissolved arsenic, i.e. higher Ca/Na ratios (Ryan et al 2013;Bondu et al 2016). As the geochemical signature of groundwater evolves along the ow path arsenic concentrations increase with depth (Fig.…”
Section: Arsenic Geochemistrymentioning
confidence: 99%
“…As the geochemical signature of groundwater evolves along the ow path arsenic concentrations increase with depth (Fig. 3a) (Smedley et al 2007;Bondu et al 2016). Ca/Na ratios calculated in this present study are mixed which suggests a mixing of younger and older groundwaters along the ow path presumably at fracture points which is supported given that a signi cant portion of groundwater is recharge water (Fig S4a-b).…”
Section: Arsenic Geochemistrymentioning
confidence: 99%