Abstract
The common occurrence of human derived contaminants like pharmaceuticals, steroids and hormones in surface waters has raised the awareness of the role played by the release of treated or untreated sewage in the water quality along sensitive coastal ecosystems. South Florida is home of many important protected environments ranging from wetlands to coral reefs which are in close proximity to large metropolitan cities. Because, large portions of South Florida and most of the Florida Keys population are not served by modern sewage treatment plants and rely heavily on the use of septic systems, a comprehensive survey of selected human waste contamination markers was conducted in three areas to assess water quality with respect to non-traditional micro-constituents. This study documents the occurrence and distribution of fifteen hormones and steroids and five commonly detected pharmaceuticals in surface water samples collected from different near shore environments along South Florida between 2004 and 2006. The compounds most frequently detected were: cholesterol, caffeine, estrone, DEET, coprostanol, biphenol-A, β-estradiol, and triclosan. The concentration detected for estrone and β-estradiol were up to 5.2 and 1.8 ng/L, respectively. Concentrations of caffeine (5.5–68 ng/L) and DEET (4.8–49 ng/L) were generally higher and more prevalent than were the steroids. Distribution of microconstituents was site specific likely reflecting a diversity of sources. In addition to chemical analysis, the yeast estrogen screen assay was used to screen the samples for estrogen equivalency. Overall, the results show that water collected from inland canals and restricted circulation water bodies adjacent to heavily populated areas had high concentrations of multiple steroids, pharmaceuticals, and personal care products while open bay waters were largely devoid of the target analytes.
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References
Adolfsson-Erici M, Pettersson M, Parkkonen J, Sturve J (2002) Triclosan, a commonly used bactericide found in human milk and in the aquatic environment. Chemosphere 46:1485–1489
Atkinson S, Atkinson MJ, Tarrant AM (2003) Estrogens from sewage in coastal marine environments. Environ Health Perspect 111:531–535
Beck I-C, Bruhn R, Gandrass J, Ruck W (2005) Liquid chromatography–tandem mass spectrometry analysis of estrogenic compounds in coastal surface water of the Baltic Sea. J Chromatogr A 1090:98–106
Beck I-C, Bruhn R, Gandrass J (2006) Analysis of estrogenic activity in coastal surface waters of the Baltic Sea using the yeast estrogen screen. Chemosphere 63:1870–1878
Belfroid AC, Van der Horst A, Vethaak AD, Schafer AJ, Rijs GBJ, Wegener J, Coffino WP (1999) Analysis and occurrence of estrogenic hormones and their glucuronides in surface water and wastewater in Netherlands. Sci Total Environ 225:101–108
Bester K (2003) Triclosan in a sewage treatment process-balances and monitoring data. Water Res 37:3891–3896
Blair S, Kemp S (2004) Miami River basin water quality improvement report: action item matrix quarterly progress report. Department of Environmental Resource Management (DERM), Miami-Dade County
Bound JP, Voulvoulis N (2004) Pharmaceuticals in the aquatic environment—a comparison of risk assessment strategies. Chemosphere 36:1143–1155
Buerge IJ, Poiger T, Muller MD, Buser H-R (2003) Caffeine, an anthropogenic marker for wastewater contamination of surface waters. Environ Sci Technol 37:691–700
Cecchine G, Golomb BA, Hilborne LH, Spektor DM, Anthony CR (2000) A review of the scientific literature as it pertains to Gulf War illnesses, vol. 8: pesticides. National Defense Research Institute, RAND
Chaler R, Simoneit B, Grimalt J (2001) Bile acids and sterols in urban sewage treatment plants. J Chromatogr A 927:155–160
Desbrow C, Routledge EJ, Brighty GC, Sumpter JP, Waldock M (1998) Identification of estrogenic chemical in STW effluent. Environ Sci Technol 32:1549–1560
Elvers KT, Wright SJL (1995) Antibacterial activity of the anti-inflammatory compound Ibuprofen. Lett Appl Microbiol 20:82–84
Fisher PMJ, Borland R (2003) Gauging the pharmaceutical burden on Sydney’s environment: a preventive response. J Clean Prod 11:315–320
Garcia-Reyero N, Grau E, Castillo M, López de Alda M, Barceló D, Piña B (2001) Monitoring of endocrine disruptors in surface waters by the yeast recombinant assay. Environ Toxicol Chem 20:1152–1158
Gardinali PR, Zhao X (2002) Trace determination of caffeine in surface water samples by liquid chromatography–atmospheric pressure chemical ionization–mass spectrometry (LC–APCI–MS). Environ Int 28:521–528
Gardinali PR, Plasencia MD, Maxey C (2004) Occurrence and transport of Irgarol 1051 and its major metabolite in coastal waters from South Florida. Mar Pollut Bull 49:1072–1083
Gossett RW, Brown DA, Young DR (1983) Predicting the bioaccumulation of organic compounds in marine organisms using octanol/water partition coefficients. Mar Pollut Bull 14:387–392
Griffin DW, Lipp EK, MCLaughlin MR, Rose JB (2001) Marine recreation and public health microbiology: quest for the ideal indicator. Bioscience 51:817–826
Heemken OP, Reincke H, Stachel B, Theobald N (2001) The occurrence of xenoestrogens in the Elbe River and the North Sea. Chemosphere 45:245–259
Hohenblum P, Gans O, Moche W, Scharf S, Lorbeer G (2004) Monitoring of selected estrogenic hormones and industrial chemicals in groundwaters and surface water in Austria. Sci Total Environ 333:185–193
Huggett DB, Foran CM, Brooks BW, Weston J, Peterson B, Marsh KE, La Point TW, Schlenk D (2003) Comparison of in vitro and in vivo bioassays for estrogenicity in effluent from North American municipal wastewater facilities. Toxicol Sci 72:77–83
Hutchinson TH, Pickford DB (2002) Ecological risk assessment and testing for endocrine disruption in the environment. Toxicology 181:383–387
Johnson AC, Aerni HR, Gerritsen A, Gibert AM, Giger W, Hylland K, Jürgens M, Nakari T, Pickering A, Suter MJF (2005) Comparing steroid estrogen, and nonylphenol content across a range of European sewage plants with different treatment and management practices. Water Res 39:47–58
Jones OAH, Voulvoulis N, Lester JN (2001) Human pharmaceuticals in aquatic environment-a review. Environ Technol 22:1383–1394
Kolpin DW, Furlong ET, Meyer MT, Thurman EM, Zaugg SD, Barber LB, Buxton HT (2002) Pharmaceuticals, hormones and other organic wastewater contaminants in U.S. streams. A national reconnaissance. Environ Sci Technol 36:1202–1211
Kummerer K (2009) The presence of pharmaceuticals in the environment due to human use—present knowledge and future challenges. J Environ Manage 90(8):2354–2366
Laganà A, Bacaloni A, De Leva I, Faberi FagoG, Marinob A (2004) Analytical methodologies for determining the occurrence of endocrine disrupting chemicals in sewage treatment plants and natural waters. Anal Chim Acta 501:79–88
Leff LG, Dana JR, Mcarthur JV, Shimkets LJ (1993) Detection of Tn-5 like sequences in Kanamycin resistant stream bacteria and environmental DNA. Appl Environ Microbiol 59:417–421
Legler J, Broekhof JLM, Brouwer A, Lanser PH, Murk AJ, van der Saag PT, Vethaak AD, Wester P, Zivkovic D, van der Burg B (2000) A novel in vivo bioassay for (Xeno-) estrogens using transgenic zebrafish. Environ Sci Technol 34:4439–4444
Lindqvist L, Tuhkanen T, Kronberg L (2005) Occurrence of acidic pharmaceuticals in raw and treated sewages and in receiving waters. Water Res 39:2219–2228
Lipp EK, Jarrell JL, Griffin DW, Lukasik J, Jacukiewicz J, Rose JB (2002) Preliminary evidence for human fecal contamination in corals of the Florida Keys, USA. Mar Pollut Bull 44:666–670
Matsui S, Takigami H, Taniguchi N, Adachi J, Kawami H, Shimizu Y (2000) Estrogen and estrogen mimics contamination in water and the role of sewage treatment. Water Sci Technol 42:173–179
Murk AJ, Legler J, Van Lipzig MMH, Meerman A, Belfroid AC, Spenkelink A, Rijs GBJ, Vethaak AD (2002) Detection of estrogenic potency in wastewater and surface water with three in vitro bioassays. Environ Toxicol Chem 21:16–23
Nelson J, Bishay F, van Roodselaar A, Ikonomou M, Law FCP (2007) The use of in vitro bioassays to quantify endocrine disrupting chemicals in municipal wastewater treatment plant effluents. Sci Total Environ 374:80–90
Örn S, Holbech H, Madsen TH, Norrgren L, Petersen G (2003) Gonad development and Vittellogenin production in Zebra fish exposed to Ethynylestradiol and Methyltestosterone. Aquat Toxicol 65:397–411
Porter JW, Lewis SK, Porter KG (1999) The effect of multiple stressors on the Florida Keys Coral Reef Ecosystems: a landscape hypothesis and a Physiological test. Limnol Oceanogr 44:941–949
Porter JW, Dustan P, Jaap WC, Patterson KL, Kosmynin V, Meier OW, Patterson ME, Parsons M (2001) Patterns of spread of coral disease in the Florida Keys. Hydrobiologia 46:1–24
Routledge EJ, Sumpter JP (1996) Estrogenic activity of surfactants and some of their degradation products assessed using a recombinant yeast screen. Environ Toxicol Chem 15:241–248
Sacher F, Lange FT, Brauch H-J, Blankenhorn I (2001) Pharmaceuticals in groundwaters: analytical methods and results of a monitoring program in Baden-Wurttemberg, Germany. J Chromatogr A 938:199–210
Schwarzenbach R, Escher B, Fenner K, Hofstetter T, Johnson C, von Gunten U, Wehrli B (2006) The challenge of micropollutants in aquatic systems. Science 313:1072–1077
Seiler JP (2002) Pharmacodynamic activities of drug and ecotoxicology-can the two be connected. Toxicol Lett 131:137–143
Singh S (2006) Assessing the sources, quantities, and trends on human waste contamination along protected South Florida ecosystem: a chemical tracer based study. PhD Dissertation, Florida International University, Miami, Florida. QD0.S56 2006
Soliman MA, Pedersen JA, Suffet IH (2004) Rapid gas chromatography–mass spectrometry screening method for human pharmaceuticals, hormones, antioxidants and plasticizers in water. J Chromatogr A 1029:223–237
Sonnenschein C, Soto AM (1998) An updated review of environmental estrogen and androgen mimics and antagonists. J Steroid Biochem Mol Biol 65:143–150
Tarrant AM, Blomquist CH, Lima PH, Atkinson MJ, Atkinson S (2003) Metabolism of estrogens and androgens by scleractinian corals. Comp Biochem Physiol B Biochem Mol Biol 136:473–485
Ternes TA, Stumpf M, Mueller J, Haberer K, Wilken RD, Servos M (1999) Behavior and occurrence of estrogens in municipal sewage treatment plants—I. Investigations in Germany, Canada and Brazil. Sci Total Environ 225:81–90
Ternes TA, Meisenheimer M, McDowell D, Sacher F, Brauch HJ, Haist-Gulde B, Preuss G, Wilme U, Zulei-Seibert N (2002) Removal of pharmaceuticals during drinking water treatment. Environ Sci Technol 36(17):3855–3863
Ternes TA, Stuber J, Hermann N, McDowell D, Ried A, Kampmann M, Tieser B (2003) Ozonation: a tool for removal of pharmaceuticals contrast media and musk fragrances from wastewater? Water Res 37:1976–1982
Tilton F, Benson WH, Schlenk D (2002) Evaluation of estrogenic activity from a municipal wastewater plant with predominantly domestic input. Aquat Toxicol 61:211–224
U.S. Census Bureau (2008) State & County QuickFacts, http://quickfacts.census.gov/qfd/states/12000.html
Water Reuse Foundation (2009) A reconnaissance-level quantitative comparison of reclaimed water, surface, water, and groundwater. Report 02-008-01. Water Reuse Foundation, Alexandria Virginia, 141 pp. ISBN 978-1-934183-12-0
Weigel S, Bester K, Huhnerfuss H (2001) New method for rapid solid-phase extraction of large-volume water samples and its application to non-target screening of North Sea water for organic contaminants by gas chromatography-mass spectrometry. J Chromatogr A 912(1):151–161
Weigel S, Kuhlmann J, Huhnerfuss H (2002) Drugs and personal care products as ubiquitous pollutants: occurrence and distribution of clofibric acid, caffeine and DEET in the North Sea. Sci Total Environ 295:131–141
Weigel S, Berger U, Jensen E, Kallenborn R, Thoresen H, Huhnerfuss H (2004) Determination of selected pharmaceuticals and caffeine in sewage and seawater from Tromsø/Norway with emphasis on ibuprofen and its metabolites. Chemosphere 56:583–592
Ying GG, Kookana RS, Ying JR (2002) Occurrence and fate of hormone steroids in the environment. Environ Int 28:545–551
Zacharewski T (1997) In vitro bioassays for assessing estrogenic substances. Environ Sci Technol 31(3):613–623
Acknowledgments
This research was partially funded by the National Oceanic and Atmospheric Administration (NOAA) through a grant to K. Willett (NIUST grant NA16RU1496). Recombinant yeast were kindly provided by Dr John Sumpter (Brunel University, UK). This publication is SERC contribution 412.
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Singh, S.P., Azua, A., Chaudhary, A. et al. Occurrence and distribution of steroids, hormones and selected pharmaceuticals in South Florida coastal environments. Ecotoxicology 19, 338–350 (2010). https://doi.org/10.1007/s10646-009-0416-0
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DOI: https://doi.org/10.1007/s10646-009-0416-0