Distributions of Pharmaceuticals in an Urban Estuary during both Dry- and Wet-Weather Conditions

Pharmaceuticals and selected major human metabolites are ubiquitous in Jamaica Bay, a wastewater-impacted estuary at concentrations in the low ng/L to low μg/L range. Concentrations throughout the bay are often consistent with conservative behavior during dry-weather conditions, as evidenced by near...

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Veröffentlicht in:	Environmental science & technology 2007-08, Vol.41 (16), p.5795-5802
Hauptverfasser:	Benotti, Mark J, Brownawell, Bruce J
Format:	Artikel
Sprache:	eng
Schlagworte:	Applied sciences Caffeine Earth sciences Earth, ocean, space Engineering and environment geology. Geothermics Environmental Restoration and Remediation Exact sciences and technology Geography Lakes Models, Chemical Natural water pollution New York City Nicotine Pharmaceutical Preparations - analysis Pharmaceutical Preparations - isolation & purification Pharmaceuticals Pollution Pollution, environment geology Precipitation Rain Rivers - chemistry Seawaters, estuaries Sodium Chloride Studies Urbanization Waste Disposal, Fluid Water Purification Water treatment Water treatment and pollution Weather
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container_title	Environmental science & technology
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creator	Benotti, Mark J Brownawell, Bruce J
description	Pharmaceuticals and selected major human metabolites are ubiquitous in Jamaica Bay, a wastewater-impacted estuary at concentrations in the low ng/L to low μg/L range. Concentrations throughout the bay are often consistent with conservative behavior during dry-weather conditions, as evidenced by nearly linear concentration−salinity relationships. Deviation from conservative behavior is noted for some pharmaceuticals and attributed to microbial degradation. Caffeine, cotinine, nicotine, and paraxanthine were detected with the greatest analytical signal, although evidence is presented for in situ removal, especially for nicotine and caffeine. There is little evidence for significant removal of carbamazepine and sulfamethoxazole, suggesting they are more conservative and useful wastewater tracers. Immediately following heavy precipitation, which induced a combined sewer overflow (CSO) event, the concentrations of all compounds but acetaminophen and nicotine decreased or disappeared. This observation is consistent with a simple model illustrating the effect of precipitation has on pharmaceutical concentration in the wastewater stream, given the balance between dilution from rain and the bypass of treatment.
doi_str_mv	10.1021/es0629965
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Sci. Technol</addtitle><description>Pharmaceuticals and selected major human metabolites are ubiquitous in Jamaica Bay, a wastewater-impacted estuary at concentrations in the low ng/L to low μg/L range. Concentrations throughout the bay are often consistent with conservative behavior during dry-weather conditions, as evidenced by nearly linear concentration−salinity relationships. Deviation from conservative behavior is noted for some pharmaceuticals and attributed to microbial degradation. Caffeine, cotinine, nicotine, and paraxanthine were detected with the greatest analytical signal, although evidence is presented for in situ removal, especially for nicotine and caffeine. There is little evidence for significant removal of carbamazepine and sulfamethoxazole, suggesting they are more conservative and useful wastewater tracers. 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subjects	Applied sciences Caffeine Earth sciences Earth, ocean, space Engineering and environment geology. Geothermics Environmental Restoration and Remediation Exact sciences and technology Geography Lakes Models, Chemical Natural water pollution New York City Nicotine Pharmaceutical Preparations - analysis Pharmaceutical Preparations - isolation & purification Pharmaceuticals Pollution Pollution, environment geology Precipitation Rain Rivers - chemistry Seawaters, estuaries Sodium Chloride Studies Urbanization Waste Disposal, Fluid Water Purification Water treatment Water treatment and pollution Weather
title	Distributions of Pharmaceuticals in an Urban Estuary during both Dry- and Wet-Weather Conditions
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