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Keywords
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Aquatic Ecosystem
Biological Activity
Biological Effect
bisphenol a
endocrine disrupter
ethylenediaminet...
Lake Michigan
largemouth bass
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Nonylphenol
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Effects of biologically-active chemical mixtures on fish in a wastewater-impacted urban stream
Effects of biologically-active chemical mixtures on fish in a wastewater-impacted urban stream,10.1016/j.scitotenv.2011.06.039,Science of The Total En
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Effects of biologically-active chemical mixtures on fish in a wastewater-impacted urban stream
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Citations: 1
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Larry B. Barber
,
Gregory K. Brown
,
Todd G. Nettesheim
,
Elizabeth W. Murphy
,
Stephen E. Bartell
,
Heiko L. Schoenfuss
Stream flow
in urban aquatic ecosystems often is maintained by water-reclamation plant (WRP) effluents that contain mixtures of natural and anthropogenic chemicals that persist through the treatment processes. In effluent-impacted streams, aquatic organisms such as fish are continuously exposed to biologically-active chemicals throughout their life cycles. The North Shore Channel of the Chicago River (Chicago, Illinois) is part of an
urban ecosystem
in which >80% of the annual flow consists of effluent from the North Side WRP. In this study, multiple samplings of the effluent and stream water were conducted and fish (largemouth bass and carp) were collected on 2 occasions from the North Shore Channel. Fish also were collected once from the Outer Chicago Harbor in Lake Michigan, a reference site not impacted by WRP discharges. Over 100 organic chemicals with differing behaviors and biological effects were measured, and 23 compounds were detected in all of the water samples analyzed. The most frequently detected and highest concentration (>100μg/L) compounds were
ethylenediaminetetraacetic acid
and 4-nonylphenolmono-to-tetraethoxycarboxylic acids. Other biologically-active chemicals including bisphenol A, 4-nonylphenol, 4-nonylphenolmono-to-tetraethoxylates, 4-tert-octylphenol, and 4-tert-octylphenolmono-to-tetraethoxylates were detected at lower concentrations (<5μg/L). The biogenic steroidal hormones 17β-estradiol, estrone, testosterone, 4-androstene-3,17-dione, and cis-androsterone were detected at even lower concentrations (<0.005μg/L). There were slight differences in concentrations between the North Side WRP effluent and the North Shore Channel, indicating minimal in-stream attenuation. Fish populations are continuously exposed to mixtures of biologically-active chemicals because of the relative persistency of the chemicals with respect to stream hydraulic residence time, and the lack of a
fresh water
source for dilution. The majority of male fish exhibited vitellogenin induction, a
physiological response
consistent with exposure to estrogenic compounds. Tissue-level signs of reproductive disruption, such as ovatestis, were not observed.
Journal:
Science of The Total Environment - SCI TOTAL ENVIR
, vol. 409, no. 22, pp. 4720-4728, 2011
DOI:
10.1016/j.scitotenv.2011.06.039
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John Fawell
,
et al.
Emerging Contaminants and the Implications for Drinking Water
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(1)
Emerging Contaminants and the Implications for Drinking Water
John Fawell
,
Choon Nam Ong
Journal:
International Journal of Water Resources Development - INT J WATER RESOUR DEV
, vol. 28, no. 2, pp. 247-263, 2012