Comparison of Potential Risk on Two Managed Aquifer Recharge Sites from River Basin

Ji, Hyon Wook; S, Lee

doi:10.3390/w9090674

Cited by 4 publications

(7 citation statements)

References 25 publications

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“…Ji and Lee (2016a, 2016b, 2017) proposed and applied a PRTR together with deterministic and stochastic methods to assess potential chemical risks for a MAR site. A PRTR provides data to determine (i) the quantity of emitted chemicals (discharged to water systems, soil, and the atmosphere) and (ii) the transfer of these chemicals (from their source to the MAR facilities) as a function of time.…”

Section: Risk Assessment Approachesmentioning

confidence: 99%

“…Potential accumulated chemical risks are proposed to be determined from the toxicity of the chemicals, the distance from the source to the MAR site, and the total quantity of chemicals to be transferred from the source over time. If recorded data are lacking or predictions for future developments are intended, Ji and Lee (2016b, 2017) propose the application of PRTR in combination with a stochastic approach to estimate potential risks. The PRTRs can be used to carry out risk assessments as part of the HACCP procedure and/or the setup of WSP, such as was done by Ji and Lee (2017) for two different MAR sites.…”

Section: Risk Assessment Approachesmentioning

confidence: 99%

“…If recorded data are lacking or predictions for future developments are intended, Ji and Lee (2016b, 2017) propose the application of PRTR in combination with a stochastic approach to estimate potential risks. The PRTRs can be used to carry out risk assessments as part of the HACCP procedure and/or the setup of WSP, such as was done by Ji and Lee (2017) for two different MAR sites.…”

Section: Risk Assessment Approachesmentioning

confidence: 99%

“…Groundwater salinity or sodicity, dissolved reactive minerals (such as fluoride or pyrite), radionuclides or metals (such as arsenic), and chemical spills, among other things, can lead to a decrease in the quality of water recovered by MAR, and this may induce human health risks (Assmuth et al, 2016; Bartak et al, 2015; Bouwer et al, 2008; Bugan et al, 2016; Lee & Ji, 2016; NRMMC, 2009; Page, Dillon, Vanderzalm, Bekele, et al, 2010; Page et al, 2013; Swierc et al, 2005; Vanderzalm et al, 2011). Thus, even if the infiltrated (MAR source) water is of acceptable quality, subsurface contamination can lead to poor quality of water that is recovered by MAR for drinking water or irrigation use (e.g., Dillon et al, 2014; Ji & Lee, 2017). Heterogeneity of the aquifer and spatially and temporally varying groundwater transit times are among the factors that can influence chemical and pathogen retention or removal by natural attenuation processes (e.g., Swierc et al, 2005; Toze et al, 2010).…”

Section: Risks Associated With Facilities Of Managed Aquifer Rechargementioning

confidence: 99%

See 3 more Smart Citations

A review on risk assessment in managed aquifer recharge

Imig

Szabó

Halytsia

et al. 2022

Integr Envir Assess & Manag

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Managed aquifer recharge (MAR) refers to a suite of methods that is increasingly being applied worldwide for sustainable groundwater management to tackle drinking or irrigation water shortage or to restore and maintain groundwater ecosystems. The potential for MAR is far from being exhausted, not only due to geological and hydrogeological conditions or technical and economic feasibility but also due to its lack of acceptance by the public and policymakers. One approach to enable the safe and accepted use of MAR could be to provide comprehensive risk management, including the identification, analysis, and evaluation of potential risks related to MAR. This article reviews current MAR risk assessment methodologies and guidelines and summarizes possible hazards and related processes. It may help planners and operators select the appropriate MAR risk assessment approaches and support the risk identification process. In addition to risk assessment (and subsequent risk treatment) related to the MAR implementation phase, this review also addresses risk assessment for MAR operation. We also highlight the limitations and lessons learned from the application and development of risk assessment methodologies. Moreover, developments are recommended in the area of MAR-related risk assessment methodologies and regulation. Depending on data availability, collected methodologies may be applicable for MAR sites worldwide. Integr Environ Assess Manag 2022;00:1-17.

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Section: Risk Assessment Approachesmentioning

confidence: 99%

Section: Risk Assessment Approachesmentioning

confidence: 99%

Section: Risk Assessment Approachesmentioning

confidence: 99%

Section: Risks Associated With Facilities Of Managed Aquifer Rechargementioning

confidence: 99%

See 2 more Smart Citations

A review on risk assessment in managed aquifer recharge

Imig

Szabó

Halytsia

et al. 2022

Integr Envir Assess & Manag

View full text Add to dashboard Cite

show abstract

“…This can be incorporated into groundwater models for optimal placement of new MAR schemes or to effectively manage recharge volumes to assist with the dilution of existing contaminants. In South Korea, the risks posed by siting new ASTR in two urban locations were assessed: Ji and Lee [131,132] highlighted that Pollutant Release and Transfer Registry (PRTR) data from selected sites are vital to planning new MAR and further develop a hazard analysis and critical control points methodology for river water used for ASTR. A promising area for future research is applying newly developed theoretical methods to predict pollutant release history and source location in groundwater to properly constrain placement of new MAR schemes.…”

Section: Pollutant Release and Transfer From Existing Contamination Smentioning

confidence: 99%

Water Recycling via Aquifers for Sustainable Urban Water Quality Management: Current Status, Challenges and Opportunities

Bekele

Page

Vanderzalm

et al. 2018

Water

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Managed aquifer recharge (MAR) is used worldwide in urban environments to replenish groundwater to provide a secure and sustainable supply of potable and non-potable water. It relies on natural treatment processes within aquifers (i.e., filtration, sorption, and degradation), and in some cases involves infiltration through the unsaturated zone to polish the given source water, e.g., treated wastewater, stormwater, or rainwater, to the desired quality prior to reuse. Whilst MAR in its early forms has occurred for millennia, large-scale schemes to replenish groundwater with advanced treated reclaimed water have come to the fore in cities such as Perth, Western Australia, Monterey, California, and Changwon, South Korea, as water managers consider provision for projected population growth in a drying climate. An additional bonus for implementing MAR in coastal aquifers is assisting in the prevention of seawater intrusion. This review begins with the rationale for large-scale MAR schemes in an Australian urban context, reflecting on the current status; describes the unique benefits of several common MAR types; and provides examples from around the world. It then explores several scientific challenges, ranging from quantifying aquifer removal for various groundwater contaminants to assessing risks to human health and the environment, and avoiding adverse outcomes from biogeochemical changes induced by aquifer storage. Scientific developments in the areas of water quality assessments, which include molecular detection methods for microbial pathogens and high resolution analytical chemistry methods for detecting trace chemicals, give unprecedented insight into the "polishing" offered by natural treatment. This provides opportunities for setting of compliance targets for mitigating risks to human health and maintaining high performance MAR schemes.

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Spatiotemporal evolution of iron and sulfate concentrations during riverbank filtration: Field observations and reactive transport modeling

Lee

Bresciani

et al. 2020

Journal of Contaminant Hydrology

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Comparison of Potential Risk on Two Managed Aquifer Recharge Sites from River Basin

Cited by 4 publications

References 25 publications

A review on risk assessment in managed aquifer recharge

A review on risk assessment in managed aquifer recharge

Water Recycling via Aquifers for Sustainable Urban Water Quality Management: Current Status, Challenges and Opportunities

Spatiotemporal evolution of iron and sulfate concentrations during riverbank filtration: Field observations and reactive transport modeling

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