Zerovalent iron-sand filtration can reduce the concentration of multiple antimicrobials in conventionally treated reclaimed water

Irrigation with reclaimed water is increasing in areas that lack access to, and infrastructure for, high-level treatment and distribution. Antimicrobial residues are known to persist in conventionally treated reclaimed water, necessitating the investigation of reuse site-based mitigation options to...

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Bibliographic Details
Published in:Environmental research 2019-05, Vol.172, p.301-309
Main Authors: Kulkarni, Prachi, Raspanti, Greg A., Bui, Anthony Q., Bradshaw, Rhodel N., Kniel, Kalmia E., Chiu, Pei C., Sharma, Manan, Sapkota, Amir, Sapkota, Amy R.
Format: Article
Language:English
Subjects:
Agricultural Irrigation
Anti-Infective Agents - isolation & purification
Antimicrobial
Filtration
Iron - chemistry
Irrigation
Liquid chromatography tandem mass spectrometry
Reclaimed water
Water - chemistry
Water Pollutants, Chemical - isolation & purification
Water Purification - methods
Zerovalent iron
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Summary:Irrigation with reclaimed water is increasing in areas that lack access to, and infrastructure for, high-level treatment and distribution. Antimicrobial residues are known to persist in conventionally treated reclaimed water, necessitating the investigation of reuse site-based mitigation options to further reduce these contaminants. We examined the effectiveness of a 50:50 volume/volume, particle matched, micro-scale zerovalent iron (ZVI)-sand filter in reducing concentrations of mixtures of antimicrobials present in pH-unadjusted conventionally treated reclaimed water. Twelve antimicrobials (azithromycin, ciprofloxacin, erythromycin, linezolid, oxacillin, oxolinic acid, penicillin G, pipemidic acid, sulfamethoxazole, triclocarban, tetracycline and vancomycin) were quantified using high performance-liquid chromatography-tandem mass spectrometry in reclaimed water, and ZVI-sand filtered reclaimed water, in a two-month long greenhouse-based experiment. Data were analyzed using a non-parametric rank-based approach. ZVI-sand filtration significantly reduced concentrations of azithromycin, ciprofloxacin, oxolinic acid, penicillin G, sulfamethoxazole, linezolid, pipemidic acid and vancomycin. Azithromycin, the antimicrobial with the highest median concentration (320 ng/L), was reduced to below the limit of detection after ZVI-sand filtration. Inorganic element (antimony, beryllium, cadmium, chromium, iron, lead, selenium and thallium) and water quality (free and total chlorine, nitrates, nitrites, pH and total dissolved solids) analyses showed that ZVI-sand filtered reclaimed water quality (nitrate, salinity, and inorganic elements) met the recommended guidelines for agricultural irrigation with reclaimed water. Based on our initial results, ZVI-sand filtration may be a promising basis for a point-of-use filtration system for reclaimed water irrigation on small-scale farms. [Display omitted] •50% volume/volume, particle matched, micro-scale zerovalent iron (ZVI)-sand filter.•12 antimicrobials, 8 inorganic elements, nitrates and total dissolved solids analyzed.•Concentrations of eight antimicrobials significantly reduced after filtration.•Azithromycin (highest median concentration) reduced from 320 ng/L to below LOD.•Nitrates, total dissolved solids and inorganic elements meet recommended guidelines.
ISSN:0013-9351
1096-0953
DOI:10.1016/j.envres.2019.02.012