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Journal Abstract Search

299 related items for PubMed ID: 22488655

  • 1. Endocrine disruption due to estrogens derived from humans predicted to be low in the majority of U.S. surface waters.
    Anderson PD, Johnson AC, Pfeiffer D, Caldwell DJ, Hannah R, Mastrocco F, Sumpter JP, Williams RJ.
    Environ Toxicol Chem; 2012 Jun; 31(6):1407-15. PubMed ID: 22488655
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  • 2. Predicted-no-effect concentrations for the steroid estrogens estrone, 17β-estradiol, estriol, and 17α-ethinylestradiol.
    Caldwell DJ, Mastrocco F, Anderson PD, Länge R, Sumpter JP.
    Environ Toxicol Chem; 2012 Jun; 31(6):1396-406. PubMed ID: 22488680
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  • 3. Occurrence of selected estrogenic compounds and estrogenic activity in surface water and sediment of Langat River (Malaysia).
    Praveena SM, Lui TS, Hamin N, Razak SQ, Aris AZ.
    Environ Monit Assess; 2016 Jul; 188(7):442. PubMed ID: 27353134
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  • 7. How seasonality affects the flow of estrogens and their conjugates in one of Japan's most populous catchments.
    Kumar V, Nakada N, Yamashita N, Johnson AC, Tanaka H.
    Environ Pollut; 2011 Oct; 159(10):2906-12. PubMed ID: 21600683
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  • 8. Mixtures of estrogenic contaminants in bile of fish exposed to wastewater treatment works effluents.
    Gibson R, Smith MD, Spary CJ, Tyler CR, Hill EM.
    Environ Sci Technol; 2005 Apr 15; 39(8):2461-71. PubMed ID: 15884336
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  • 9. Endocrine disrupting activities in sewage effluent and river water determined by chemical analysis and in vitro assay in the context of granular activated carbon upgrade.
    Grover DP, Balaam J, Pacitto S, Readman JW, White S, Zhou JL.
    Chemosphere; 2011 Sep 15; 84(10):1512-20. PubMed ID: 21546050
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  • 10. Socioeconomic and seasonal effects on spatiotemporal trends in estrogen occurrence and ecological risk within a river across low-urbanized and high-husbandry landscapes.
    Li Y, Wang J, Lin C, Wang A, He M, Liu X, Ouyang W.
    Environ Int; 2023 Oct 15; 180():108246. PubMed ID: 37802008
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  • 11. The use of modelling to predict levels of estrogens in a river catchment: how does modelled data compare with chemical analysis and in vitro yeast assay results?
    Balaam JL, Grover D, Johnson AC, Jürgens M, Readman J, Smith AJ, White S, Williams R, Zhou JL.
    Sci Total Environ; 2010 Sep 15; 408(20):4826-32. PubMed ID: 20673965
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  • 13. Levels of endocrine disrupting compounds in South China Sea.
    Zhang LP, Wang XH, Ya ML, Wu YL, Li YY, Zhang ZL.
    Mar Pollut Bull; 2014 Aug 30; 85(2):628-33. PubMed ID: 24556359
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  • 14. Occurrences of six steroid estrogens from different effluents in Beijing, China.
    Zhou Y, Zha J, Xu Y, Lei B, Wang Z.
    Environ Monit Assess; 2012 Mar 30; 184(3):1719-29. PubMed ID: 21544500
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  • 15. Occurrence and fate of steroid estrogens in the largest wastewater treatment plant in Beijing, China.
    Zhou Y, Zha J, Wang Z.
    Environ Monit Assess; 2012 Nov 30; 184(11):6799-813. PubMed ID: 22134856
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  • 16. Bioassay of estrogenicity and chemical analyses of estrogens in streams across the United States associated with livestock operations.
    Alvarez DA, Shappell NW, Billey LO, Bermudez DS, Wilson VS, Kolpin DW, Perkins SD, Evans N, Foreman WT, Gray JL, Shipitalo MJ, Meyer MT.
    Water Res; 2013 Jun 15; 47(10):3347-63. PubMed ID: 23623470
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  • 17. Typical Endocrine Disrupting Compounds in Rivers of Northeast China: Occurrence, Partitioning, and Risk Assessment.
    Tan R, Liu R, Li B, Liu X, Li Z.
    Arch Environ Contam Toxicol; 2018 Aug 15; 75(2):213-223. PubMed ID: 29230530
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  • 20. Fluctuations in natural and synthetic estrogen concentrations in a tidal estuary in south-eastern Australia.
    Ferguson EM, Allinson M, Allinson G, Swearer SE, Hassell KL.
    Water Res; 2013 Mar 15; 47(4):1604-15. PubMed ID: 23305682
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