Drinking water vulnerability in less-populated communities in Texas to wastewater-derived contaminants

Nguyễn, Thùy; Westerhoff, Paul

doi:10.1038/s41545-019-0043-0

Cited by 10 publications

(15 citation statements)

References 55 publications

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“…There is nearly 4× higher bromide ion and up to 30× higher iodine concentrations in treated wastewater than untreated drinking waters. Therefore, the occurrence of Br and I species in wastewater effluents can have implications for downstream source waters; unplanned or indirect wastewater reuse frequently occurs with dilution factors less than 10-fold. − Our analysis suggests drinking water sources impacted by upstream wastewater discharges would benefit from monitoring for Br – plus individual inorganic species and total iodine to comprehensively assess the risk of forming I-DBPs.…”

Section: Resultsmentioning

confidence: 97%

Co-Occurrence of Bromine and Iodine Species in US Drinking Water Sources That Can Impact Disinfection Byproduct Formation

Sharma

Zeng

Eaton

et al. 2023

Environ. Sci. Technol.

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Bromine and iodine species are precursors for forming disinfection byproducts in finished drinking waters. Our study incorporates spatial and temporal data to quantify concentrations of inorganic (bromide (Br − ), iodide (I − ), and iodate (IO 3 − )), organic, and total bromine (Br T ) and iodine (I T ) species from 286 drinking water sources and 7 wastewater effluents across the United States. Br − ranged from <5−7800 μg/L (median of 62 μg/L in surface water (SW) and 95 μg/L in groundwater (GW)). I − was detected in 41% of SW (1−72 μg/L, median = <1 μg/L) and 62% of GW (<1−250 μg/L, median = 3 μg/L) samples. The median Br − /I − ratio in SW and GW was 22 μg/μg and 16 μg/μg, respectively, in paired samples with detect Br − and I − . Br T existed primarily as Br − , while I T was present as I − , IO 3 − , and/or total organic iodine (TOI). Inorganic iodine species (I − and IO 3 − ) were predominant in GW samples, accounting for 60−100% of I T ; however, they contributed to only 20−50% of I T in SW samples. The unknown fraction of I T was attributed to TOI. In lakes, seasonal cycling of I-species was observed and was presumably due to algal productivity. Finally, Spearman Rank Correlation tests revealed a strong correlation between Br − and I T in SW (R Br − ,IT = 0.83) following the log 10 (Br − , μg/L) = 0.65 × log 10 (I T , μg/L) − 0.17 relationship. Br − and I − in treated wastewater effluents (median Br − = 234 μg/L, median I − = 5 μg/L) were higher than drinking water sources.

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Section: Resultsmentioning

confidence: 97%

Co-Occurrence of Bromine and Iodine Species in US Drinking Water Sources That Can Impact Disinfection Byproduct Formation

Sharma

Zeng

Eaton

et al. 2023

Environ. Sci. Technol.

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“…De facto reuse based on average streamflow has been estimated as at least 1% for approximately 50% of U.S. drinking water treatment plant (DWTP) intakes (i.e., 1% was the median contribution of wastewater flow to U.S. DWTPs and provides a realistic reference point that would be applicable to a broad range of such plants). Others have examined the impacts of de facto reuse on small communities (Nguyen & Westerhoff 2019) and found that DWTPs serving them have higher levels of de facto reuse.…”

Section: Introductionmentioning

confidence: 99%

“…De facto reuse based on the proportion of wastewater in any stream varies with time, as wastewater discharge flows and streamflow vary (Merritt 1983;Corbitt 1999;Fernandez et al 2008;Daelman et al 2015). Municipal wastewater discharge flows are generally considered directly related to the number of people served by a wastewater treatment plant (WWTP).…”

Section: Introductionmentioning

confidence: 99%

“…Municipal wastewater discharge flows are generally considered directly related to the number of people served by a wastewater treatment plant (WWTP). Minimum design ranges for U.S. WWTPs have been reported as 0.95-1.5 cubic meters (m 3 )/day/person (250-400 gallons (gals)/day/person) (Merritt 1983). WWTP flow is also influenced by infiltration and inflow (I&I) associated with heavy rain events.…”

Section: Introductionmentioning

confidence: 99%

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Temporal variations of de facto wastewater reuse and disinfection by-products in public water systems in the Shenandoah River watershed, USA

Weisman

Barber

Faunce

et al. 2021

Water Practice and Technology

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Temporal variations of de facto wastewater reuse are relevant to public drinking water systems (PWSs) that obtain water from surface sources. Variations in wastewater discharge flows, streamflow, de facto reuse, and disinfection by-products (DBPs – trihalomethane-4 [THM4] and haloacetic acid-5 [HAA5]) over an 18-year period were examined at 11 PWSs in the Shenandoah River watershed, using more than 25,000 data records, in gaged and ungaged reaches. The relationship of de facto reuse with DBPs by year and quarter at the PWSs was examined. A linear relationship was found between THM4 and de facto reuse on an annual average basis (p = 0.050), as well as in quarters 3 (July – September) (p = 0.032) and 4 (October – December) (p = 0.031). Using a t-test (p < 0.05), the study also showed that there were significant differences in DBP levels for PWSs relative to 1% de facto reuse. This was found for THM4 based on annual average and quarter 1 (January – March) data, and for HAA5 based on quarter 3 data during the period of record.

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“…Particular attention should be paid to compounds that are scarcely biodegradable, such as pharmaceuticals, personal care products, hormones, food additives, artificial sweeteners, pesticides, and dyes among others [4][5][6]. Due to their distinct chemical properties (polarity, functional groups, solubility,…) and potential persistence, CECs are poorly removed by conventional wastewater treatment methodologies and are thus frequently detected in the wastewater treatment plant (WWTP) effluents [7]. These effluents act as a constant low-level source of such substances to the environment.…”

Section: Introductionmentioning

confidence: 99%

Comparison of Advanced Oxidation Processes for the Degradation of Maprotiline in Water—Kinetics, Degradation Products and Potential Ecotoxicity

et al. 2021

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The impact of different oxidation processes on the maprotiline degradation pathways was investigated by liquid chromatography-high resolution mass spectrometry (LC/HRMS) experiments. The in-house SPIX software was used to process HRMS data allowing to ensure the potential singular species formed. Semiconductors photocatalysts, namely Fe-ZnO, Ce-ZnO and TiO2, proved to be more efficient than heterogeneous photo-Fenton processes in the presence of hydrogen peroxide and persulfate. No significant differences were observed in the degradation pathways in the presence of photocatalysis, while the SO4− mediated process promote the formation of different transformation products (TPs). Species resulting from ring-openings were observed with higher persistence in the presence of SO4−. In-silico tests on mutagenicity, developmental/reproductive toxicity, Fathead minnow LC50, D. magna LC50, fish acute LC50 were carried out to estimate the toxicity of the identified transformation products. Low toxicant properties were estimated for TPs resulting from hydroxylation onto bridge rather than onto aromatic rings, as well as those resulting from the ring-opening.

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Drinking water vulnerability in less-populated communities in Texas to wastewater-derived contaminants

Cited by 10 publications

References 55 publications

Co-Occurrence of Bromine and Iodine Species in US Drinking Water Sources That Can Impact Disinfection Byproduct Formation

Co-Occurrence of Bromine and Iodine Species in US Drinking Water Sources That Can Impact Disinfection Byproduct Formation

Temporal variations of de facto wastewater reuse and disinfection by-products in public water systems in the Shenandoah River watershed, USA

Comparison of Advanced Oxidation Processes for the Degradation of Maprotiline in Water—Kinetics, Degradation Products and Potential Ecotoxicity

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