A tiered assessment of human health risks associated with exposure to persistent, mobile and toxic chemicals via drinking water

There is increasing interest in chemicals which are persistent, mobile and toxic (PMT), primarily to protect drinking water. We present a tiered assessment of drinking water exposure and associated human health risks for 22 PMT substances. Worst-case exposure via drinking water is assumed to occur w...

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Bibliographic Details
Published in:The Science of the total environment 2024-12, Vol.958, p.177868, Article 177868
Main Authors: Whelan, M.J., Pemberton, E., Hughes, C.B., Swansborough, C., Goslan, E.H., Gouin, T., Bell, V.A., Bird, E., Bull, S., Segal, L., Cook, S.H., Jephcote, C., Fane, S.
Format: Article
Language:English
Subjects:
Drinking water
Human health
Mobile and Toxic
Organic contaminant
Persistent
Spatial exposure modelling
Tiered risk assessment
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Summary:There is increasing interest in chemicals which are persistent, mobile and toxic (PMT), primarily to protect drinking water. We present a tiered assessment of drinking water exposure and associated human health risks for 22 PMT substances. Worst-case exposure via drinking water is assumed to occur when wastewater is discharged to rivers which are then abstracted for water supply. Screening-level exposures assume daily per capita emissions based on REACH tonnage estimates, with removal in wastewater treatment calculated using SimpleTreat and no riverine dilution. Removal in water treatment was estimated for each substance assuming either conventional or advanced treatment processes. Higher tier spatially-resolved exposures used a gridded routing model which transfers chemical through the landscape based on flow directions derived from a 1 km digital elevation model. Emission was assumed to be proportional to population and no in-stream degradation was assumed. Exposures were calculated for 296 locations containing drinking water treatment works (WTWs) under mean discharge and Q95 (discharge exceeded 95% of the time). At low tiers, risk characterisation ratios (RCRs) were  1 for three substances under conventional treatment but were  1 for tetrachloroethylene (highest RCR) at up to 18 % of WTW locations under Q95 conditions assuming conventional treatment. However, RCRT was
ISSN:0048-9697
1879-1026
1879-1026
DOI:10.1016/j.scitotenv.2024.177868