1. Evaluation of wastewater tracers to predict pharmaceutical distributions and behavior in the Long Island Sound estuary
- Author
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David R. Katz, Julia C. Sullivan, Mark G. Cantwell, and Matthew Lyman
- Subjects
Salinity ,Sucrose ,Sucralose ,Environmental Engineering ,Health, Toxicology and Mutagenesis ,0208 environmental biotechnology ,02 engineering and technology ,Wastewater ,010501 environmental sciences ,01 natural sciences ,Article ,chemistry.chemical_compound ,Rivers ,Caffeine ,TRACER ,Tributary ,Environmental Chemistry ,Transect ,Effluent ,0105 earth and related environmental sciences ,Hydrology ,geography ,geography.geographical_feature_category ,Public Health, Environmental and Occupational Health ,Estuary ,General Medicine ,General Chemistry ,Pollution ,United States ,020801 environmental engineering ,Pharmaceutical Preparations ,chemistry ,Environmental science ,Estuaries ,Water Pollutants, Chemical ,Environmental Monitoring - Abstract
Urban estuaries receive large volumes of effluents from municipal wastewater treatment facilities containing numerous contaminants, such as pharmaceuticals residues. Water was sampled for 16 highly prescribed pharmaceuticals at 17 sites along the Long Island Sound (LIS) estuary located in the Northeastern U.S. Pharmaceutical concentrations were highest in western LIS, ranging from non-detect to 71 ng L−1 and declining steadily eastward, while river samples from four major tributaries ranged from non-detect to 83 ng L−1. Two tracers, sucralose and caffeine, accurately predicted pharmaceutical behavior in LIS while only sucralose was effective at the river sites. Sucralose also tracked well with the salinity gradient in LIS, exhibiting conservative behavior along the transect. Attenuation factors were determined for measurable pharmaceuticals and compared against sucralose to estimate the magnitude of decline in concentrations that may be attributable to in situ degradation and partitioning. The results demonstrate sucralose's effectiveness as a tracer of wastewater-borne contaminants under estuarine conditions.
- Published
- 2019
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