Full-text resources of PSJD and other databases are now available in the new Library of Science.
Visit https://bibliotekanauki.pl

PL EN


Preferences help
enabled [disable] Abstract
Number of results

Journal

2015 | 13 | 1 |

Article title

Research trends on emerging environment pollutants – a review

Content

Title variants

Languages of publication

EN

Abstracts

EN

Publisher

Journal

Year

Volume

13

Issue

1

Physical description

Dates

published
31 - 12 - 2015
online
18 - 1 - 2016
received
6 - 1 - 2015
accepted
9 - 11 - 2015

Contributors

author
  • Faculty of Chemistry, A. Mickiewicz University, Umultowska 89b, 61-614, Poznań, Poland
author
  • Faculty of Chemistry, A. Mickiewicz University, Umultowska 89b, 61-614, Poznań, Poland

References

  • [1] Farre M., Kantiani L., Petrovic M., Perez S., Barcelo D., Achievements and future trends in the analysis of emerging organic contaminants in environmental samples by mass spectrometry and bioanalytical techniques, J. Chromatogr., 2012, 1259, 86-99.
  • [2] Daughton C.G., Emerging pollutants, and communicating the science of environmental chemistry and mass spectrometry: pharmaceuticals in the environment., J. Am. Soc. Mass Spectrom., 2001, 12, 1067-1076.[Crossref]
  • [3] Daughton C.G., Non-regulated water contaminants: emerging research., Environ. Impact Assess., 2004, 24 (7-8), 711-732.
  • [4] Sorensen J.P.R., Lapworth D.J., Nkhuwa D.C.W., Stuart M.E., Gooddy D.C., Bell R.A., et al., Emerging contaminants in urban groundwater sources in Africa, Water Research, 2015, 72, 51-63.[Crossref]
  • [5] Murray K.E., Thomas S.M., Bodour A.A., Prioritizing research for trace pollutants and emerging contaminants in the freshwater environment, Environ. Pollut., 2010, 158 (12), 3462-3471.
  • [6] Pal A., Gin K.Y.-H., Lin A.Y.-C., Reinhard, M., Impacts of emerging organic contaminants on freshwater resources: Review of recent occurrences, sources, fate and effects, Sci. Total Environ., 2010, 408 (24), 6062-6069
  • [7] Schriks M., Heringa M.B., M.M.van der Kooi, P. de Voogt, A.P. van Wezel, Toxicological relevance of emerging contaminants for drinking water quality, Water Res. 2010, 44 (2), 461-476.[Crossref]
  • [8] Hughes S.R., Kay P., Brown L.E., Global Synthesis and Critical Evaluation of Pharmaceutical Data Sets Collected from River Systems, Environ. Sci. Technol., 2013, 47 (2), 661-677.[Crossref]
  • [9] Lapworth D., Baran N., Stuart M., Ward R., Emerging organic contaminants in groundwater: A review of sources, fate and occurrence, Environ. Pollut., 2012, 163, 287-303.
  • [10] Postigo C., Barcelo D., Synthetic organic compounds and their transformation products in groundwater: occurrence, fate and mitigation, Sci. Total Environ. 2015 Jan 15; 503-504:32, 2014 doi: 10.1016/j.scitotenv.2014.06.019.[Crossref]
  • [11] Klaper R., Shaw C., Lyman Welch, Water Quality Program Manager, Alliance for the Great Lakes Emerging Contaminant Threats and the Great Lakes: Existing science, estimating relative risk and determining policies, 2011, Alliance for the Great Lakes. Copying and use is permitted with credit for education and non-commercial use.
  • [12] Rauch S.A., Braun J.M., Boyd Barr D., Calafat A.M., Khoury J., Montesano M.A., et al., Associations of Prenatal Exposure to Organophosphate Pesticide Metabolites with Gestational Age and Birth Weight, Environ. Health Perspect., 2012, 120, 1055-1060.
  • [13] Bergonzi R., Specchia C., Dinolfo M., Tommasi C., De Palma G., Frusca T., et al., Distribution of persistent organochlorine pollutants in maternal and foetal tissues: Data from an Italian polluted urban area, Chemosphere, 2009, 76, 747-754.
  • [14] Bergonzi R., Specchia C., Dinolfo M., Tommasi C., De Palma G., Frusca T., et al., Persistent organochlorine compounds in fetal and maternal tissues: Evaluation of their potential influence on several indicators of fetal growth and health, Sci. Total. Environ., 2011, 409, 2888-2893.
  • [15] H. Shen, Main K.M., Virtanen H.E., Damggard I.N., Haavisto A.M., Kaleva M., et al., From mother to child: Investigation of prenatal and postnatal exposure to persistent bioaccumulating toxicants using breast milk and placenta biomonitoring, Chemosphere, 2007, 67, S256-S262.[Crossref]
  • [16] Pulkrabovà J., Hràdkovà P., Hajslova P., Poustka J., Brominated flame retardants and other organochlorine pollutants in human adipose tissue samples from the Czech Republic, J. Environ Int., 2009, 35, 63-68.
  • [17] Jimenez-Diaz I., Zafra-Gòmez A., Ballesteros O., Navea N., Navalòn A., Fernandez M.F., J. Determination of Bisphenol A and its chlorinated derivatives in placental tissue samples by liquid chromatography–tandem mass spectrometry, Chromatogr. B, 2010, 878, 3363-3369.
  • [18] Pathak R., Suke S.G., Ahmed R.S., Tripathi A.K., Guleria K., Sharma C.S., et al., Endosulfan and Other Organochlorine Pesticide Residues in Maternal and Cord Blood in North Indian Population, Bull. Environ. Toxicol., 2008, 81, 216-219.
  • [19] Jimenez-Torres M., Campoy Folgoso C., Canabatr Reche F., Rivas Valasco A., Cerrillo Garcia I., Mariscal Arcas M., et al., Organochlorine pesticides in serum and adipose tissue of pregnant women in Southern Spain giving birth by cesarean section, Sci. Total Environ., 2006, 372(1), 32–38.
  • [20] Fukata H., Omori M., Osada H., Todaka E., Mori C., Necessity to measure PCBs and organochlorine pesticide concentrations in human umbilical cords for fetal exposure assessment. Environ Health PerspectEnviron. Health Perspect., 2005, 113, 297-303.
  • [21] Mustafa M.D., Pathak R., Tripathi A.K., Ahmed R.S., Guleria K., Banerjee B.D., Maternal and cord blood levels of aldrin and dieldrin in Delhi population, Environ. Monit. Assess., 2010, 171, 633-638.
  • [22] Daglioglu N., Gulmen M.K., Akcan R., Efeoglu P., Yener F., Unal I., Determination of Organochlorine Pesticides Residues in Human Adipose Tissue, Data from Cukurova, Turkey, Bull. Environ. Contam. Toxicol., 2010, 85, 97-102.
  • [23] Myllynen P., Pasanen M., Pelkonen O., Human placenta: a human organ for developmental toxicology research and biomonitoring, Placenta, 2005, 26, 361-371.[Crossref]
  • [24] Schonfelder G., Wittfoht W., Hopp H., Talsness C.E., Paul M., Chahoud I., Parent bisphenol A accumulation in the human maternal-fetal-placental unit, Environ. Health. Perspect., 2002, 110, A703-A707.[Crossref]
  • [25] Yamada H., Furuta I., Kato E.H., Kataota S., Usuki Y., Kobashi G., Maternal serum and amniotic fluid bisphenol A concentrations in the early second trimester, Reprod. Toxicol., 2002, 16, 735-739.[Crossref]
  • [26] Padmanabhan V., Siefert K., Ranson S., Johnson T., Pinkerton J., Anderson L., Maternal bisphenol-A levels at delivery: a looming problem?, J Perinatol., 2008, 28, 258-263.[Crossref]
  • [27] Stefanidou M., Maravelias C., Spiliopoulou C., Human Exposure to Endocrine Disruptors and Breast Milk, Curr. Drug Targets, 2009, 9, 269-276.
  • [28] Rylander L., Stromberg U., Hagmar L., Lowered birth weight among infants born to women with a high intake of fish contaminated with persistent organochlorine compounds, Chemosphere, 2000, 40, 1255-1262.[Crossref]
  • [29] Ezkenasi B., Rosas L.G., Marks A.R., Bradman A., Harley K., Holland N., et al., Pesticide Toxicity and the Developing Brain, Basic Clin. Pharmacol., 2008, 102, 228-236.
  • [30] Siddiqui M.K.J., Srivastava S., Srivastava S.P., Mehrota P.K., Mathur N., Tandon I., Persistent chlorinated pesticides and intra-uterine foetal growth retardation: a possible association, Int. Arch. Occup. Environ. Health, 2003, 76, 75-80.
  • [31] Ranjit N., Siefert K., Padmanabhan V., Bisphenol-A and disparities in birth outcomes: a review and directions for future research, J. Perinatol., 2010, 30, 2-9.[Crossref]
  • [32] Yolton K., Xu Y., Strauss D., Altaye M., Calafat A.M., Khoury J., Prenatal exposure to bisphenol A and phthalates and infant neurobehavior, Teratoxicol. Neurol., 2011, 33, 558-566.
  • [33] Perera F.P., Rauh V., Tsai W.Y., Kinney P., Camann D., Barr D., et al., Effects of transplacental exposure to environmental pollutants on birth outcomes in a multiethnic population, Environ. Health. Perspect., 2003, 111(2), 201-205.
  • [34] Bergman A., Heindel J.J., Jobling S., Kidd K.A., Zoeller R.T., State of the science of endocrine disrupting chemicals. ISBN, 978-92-807-3274-0 (UNEP) and 978 92 4 150503 1 (WHO) (NLM classification: WK 102) World Health Organization (WHO) 75, Ed 2012.
  • [35] Lander T., World Health Organization (WHO) Neonatal and perinatal mortality: country, regional, and global estimates. 69, ISBN 92-4-156320-6, Ed. 2006.
  • [36] Antignac J.P., Cariou R., Zalko D., Berrebi A., Cravedi J.P., Maumea D., et al., Exposure assessment of French women and their newborn to brominated flame retardants: Determination of tri- to deca- polybromodiphenylethers (PBDE) in maternal adipose tissue, serum, breast milk and cord serum, Environ. Pollut., 2009, 157, 164-173.
  • [37] Debrauwer L., Riu A., Jouahri M., Rathahao E., Jouanin I., Antignac J.P., et al., Probing new approaches usi.ng atmospheric pressure photo ionization for the analysis of brominated flame retardants and their related degradation products by liquid chromatography–mass spectrometry, J. Chromatogr. A, 2005, 1082, 98-109.
  • [38] Eskenazi B., Marks A.R., Bradman A., Harley K., Bart D. B., Johnson C. et al., Organophosphate pesticide exposure and neurodevelopment in young Mexican-American children. Environ Health Perspect 2007,115, 792–798.
  • [39] Elaborazione dei dati di vendita dei prodotti fitosanitari dal 2002 ed anni successivi, 2002-2012, http://www.appa.provincia.tn.it/fitofarmaci/programmazione_dei_controlli_ambientali/-Criteri_vendita_prodotti_fitosanitari/pagina55.html
  • [40] Wise A., O’Brien K., Woodruff T., Are Oral Contraceptives a Significant Contributor to the Estrogenicity of Drinking Water?, Environ. Sci. Technol., 2011, 45, 1, 51-60.
  • [41] Diamanti-Kandarakis E., Bouruignon J.P., Giudice L.C., Hauser R, Prins G.S., Soto A.M., et al., Endocrine-Disrupting Chemicals: An Endocrine Society Scientific Statement, Endocr. Rev., 2009, 40, 4, 293-342.
  • [42] Jobling S., Williams R., Johnson A., Taylor A., Gross-Sorokin M., Nolan M., et al., Predicted exposures to steroid estrogens in U.K. rivers correlate with widespread sexual disruption in wild fish populations Environ, Health Perspect., 2006, 114, 1, 32-39.
  • [43] Sumpter J. P., Xenoendocrine disrupters-environmental impacts, Toxicol. Lett., 1998, 337, 102-103.[Crossref]
  • [44] Iwanowicz L. R., Blazer V. S., Guy C. P., Pinkney A. E., Mullican J. E., Alvarez D. A., Reproductive health of bass in the Potomac, USA, drainage: Part 1. Exploring the effects of proximity to wastewater treatment plant discharge, Environ. Toxicol. Chem., 2009, 28, 5, 1072-1083,
  • [45] Massart F., Parrino R., Seppia P., Federico G., How do environmental estrogen disruptors induce precocious puberty?, Minerva Pediatr., 2006, 58, 3, 247-254.
  • [46] Vanderberg L.N., Maffini M.V., Sonnenschein C., Rubin B.S., Soto A.M., Bisphenol- and the Great Divide: A Review of Controversies in the Field of Endocrine Disruption, Endrocr. Rev., 2009, 30, 75-86.[Crossref]
  • [47] Kuo H.W., Ding W.H., Trace determination of bisphenol A and phytoestrogens in infant formula powders by gas chromatography–mass spectrometry, J. Chromatogr. A, 2004, 1027, 67-74.
  • [48] Le H.H., Carlson E.M., Chua J.P., Belcher S.M., Bisphenol A is released from polycarbonate drinking bottles and mimics the neurotoxic actions of estrogen in developing cerebellar neurons, Toxicol. Lett., 2008, 176, 149-156.
  • [49] Matsumoto A., Kunugita N., Kitagawa K., Isse T., Oyama T., Foureman G., Bisphenol A levels in human urine, Environ. Health Perspect., 2003, 111, 101-104.
  • [50] Brock J.W., Yoshimura Y., Barr J.R., Maggio V.L., Graiser S.R., Nazakawa H., Measurement of bisphenol A levels in human urine J. Expo. Anal. Environ. Epidemiol., 2001, 11, 323-328.[Crossref]
  • [51] Arakawa C., Fujimaki K., Yoshinaga J., Imai H., Serizawa S., Shiraishi H., Daily urinary excretion of bisphenol A, Environ. Health Prev. Med., 2004, 9, 22-26.[Crossref]
  • [52] Vom Saal F.S., Huges C., An Extensive New Literature concerning Low-Dose Effects of Bisphenol A Shows the Need for a New Risk Assessment, Environ. Health. Perspect., 2005, 113, 926-933.
  • [53] Welshons W.V., Nagel S.C., vom Saal F.S., Large Effects from Small Exposures. III. Endocrine Mechanisms Mediating Effects of Bisphenol A at Levels of Human Exposure, Endocrinology, 2006, 147, 56-63.
  • [54] Escher B.I., Fenner K., Recent Advances in Environmental Risk Assessment of Transformation Products, Environ. Sci. Technol., 2011, 45, 3835-3847.[Crossref]
  • [55] Fatta-Kassinos D., Meric S., Nikolaou A., Pharmaceutical residues in environmental waters and wastewater: current state of knowledge and future research Anal. Bioanal. Chem., 2011, 399, 251-275.
  • [56] Barnes K.K., Kolpin D.W., Furlong E.T., Zaugg, S.T., Meyer M.T., Barber L.B., A national reconnaissance of pharmaceuticals and other organic wastewater contaminants in the United States-I) groundwater, Sci. Total Environ., 2008, 402, 192-200.
  • [57] Focazio M.J., Kolpin D.W., Barnes K.K., Furlong E.T., Meyer M.T., Zaugg S.T., et al., A national reconnaissance for pharmaceuticals and other organic wastewater contaminants in the United States-II) Untreated drinking water source, Sci. Total Environ., 2008, 402, 201-216.
  • [58] Kolpin D.W., Barbash J.E., Gilliom R.J., Occurrence of Pesticides in Shallow Groundwater of the United States: Initial Results from the National Water-Quality Assessment Program, Environ. Sci. Technol., 1998, 32, 558-566.[Crossref]
  • [59] Heberer T., Mechlinski A., Franck B., Knappe A., Massmann G., Pekdeger A., B. Fritz, Field Studies on the Fate and Transport of Pharmaceutical Residues in Bank Filtration, Ground Water Monit. Remed., 2004, 24, 70-77.
  • [60] Clara M., Strenn B., Gans O., Martinez E., Kreuzinger N., Kroiss H., Removal of selected pharmaceuticals, fragrances and endocrine disrupting compounds in a membrane bioreactor and conventional wastewater treatment plants, Water Res. 2005, 39 (19), 4797-4807.[Crossref]
  • [61] Glassmeyer, E.T. Furlong, DW. Kolpin, J.D. Cahill, S.D. Zaugg, Werner S.L., Transport of Chemical and Microbial Compounds from Known Wastewater Discharges: Potential for Use as Indicators of Human Fecal Contamination, Environ. Sci. Technol., 2005, 39, 5157-5169.[Crossref]
  • [62] Stuart Y. E., Campbell T. S., Hohenlohe P. A., Reynolds R. G., Revell L. J., Losos J. B., Rapid evolution of a native species following invasion by a congener, Science, 2014, 346, 463-466.
  • [63] Loos R., Locoro G., Comero S., Contini S., Schwesi D., Werres F., et al., Pan-European survey on the occurrence of selected polar organic persistent pollutants in ground water, Water Research, 2010, 44, 4115-4126.[Crossref]
  • [64] Stuart M., Lapworth D., Crane E., Hart A., Review of risk from potential emerging contaminants in UK groundwater, Science of the Total Environment, 2012, 416, 1-21.
  • [65] Environment Agency. Investigation of PFOS and other perfluorochemicals in groundwater and surface water in England and Wales. Bristol: Environment Agency, 2007.
  • [66] Environment Agency. Pesticides report for 2007. Bristol: Environment Agency, 2008.
  • [67] Hirsch R., Ternes T., Haberer K., Kratzb K., Occurrence of antibiotics in the aquatic environment, The Science of the Total Environment, 1999, 225(1-2), 109-118.
  • [68] Haberer T., Occurrence, fate, and removal of pharmaceutical residues in the aquatic environment: a review of recent research data, Toxicology Letters, 2002, 131, 5-17.
  • [69] Malczewski A., Kidawa M., Struzik M., Strzelecka A., (2010) EMCDDA. National Report (2009 data) to the EMCDDA by the Retinox National Focal Point. Poland. New Development, Trends and in-depth information on selected issues
  • [70] Ferri M., Bo A., EMCDDA Best Practice Promotion in Europe: an internet based dissemination tool Adicciones, 2013, 25: 3-6.
  • [71] Castiglioni S., Zuccato E., Illicit Drugs as Emerging Contaminants, ACS Symposium Series, 2010, 1048, 119-136.
  • [72] Stumpf M., Ternes T.A., Wilken R.D., Rodrigues S.V., Baumann W., Polar drug residues in sewage and natural waters in the state of Rio de Janeiro, Brazil, Science of the Total Environment, 1999, 225, 135-141.
  • [73] Castiglioni S., Zuccato E., Crisci E., Chiabrando C., Fanelli R., Bagnati R., Identification and Measurement of Illicit Drugs and Their Metabolites in Urban Wastewater by Liquid Chromatography−Tandem Mass Spectrometry, Anal. Chem., 2006, 78, 8421-8429.[Crossref]
  • [74] Zuccato E., Chiabrando C., Castiglioni S., Calamari D., Bagnati R., Schiarea S., et al., Cocaine in surface waters: a new evidence-based tool to monitor community drug abuse, A Global Access Science Source, 2005, 4, 14-20.
  • [75] Van Nuijs A.L.N., Mougel J.F., Tarcomnicu I., Bervoets L., Blust R., Jorens P.G., et al., Sewage epidemiology - A real-time approach to estimate the consumption of illicit drugs in Brussels, Belgium, Environment International, 2011, 37 , 612-621.[Crossref]
  • [76] Terzic S., Senta I., Ahel M., Illicit drugs in wastewater of the city of Zagreb (Croatia) – Estimation of drug abuse in a transition country, Environmental Pollution, 2010, 158, 2686-2693.
  • [77] Zuccato E., Castiglioni S., Illicit drugs in the environment, Philos Trans A Math Phys Eng Sci., 2009, 367(1904), 3965-3978.
  • [78] European Monitoring Centre for Drugs and Drug Addiction. The state of the drugs problem in Europe. Luxembourg: Office for Official Publications of the European Communities; (2010a).
  • [79] PERSPECTIVES ON DRUGS Wastewater analysis and drugs: a European multi-city study, UPDATED 27. 5. 2014.
  • [80] Boles T. H., Wells M.J.M., Pilot survey of methamphetamine in sewers using a Polar Organic Chemical Integrative Sampler, Science of The Total Environment, 2014, 472, 9-12.
  • [81] Stumpf M., Ternes T.A., Wilken R.D., Rodrigues S.V., Baumann W., Polar drug residues in sewage and natural waters in the state of Rio de Janeiro, Brazil, Science of the Total Environment, 1999, 225, 135-141.
  • [82] Calamari D., Zuccato E., Castiglioni, S., Bagnati, R , Fanelli R., Strategic Survey of Therapeutic Drugs in the Rivers Po and Lambro in Northern Italy, Environ. Sci. Technol., 2003, 37 (7), pp 1241–1248
  • [83] Zuccato, E., Chiabrando, C., Castiglioni, S., Calamari, D., Bagnati, R., Schiarea S. et al., Cocaine in surface waters: a new evidence-based tool to monitor community drug abuse, Environmental Health, A Global Access Science Source, 2005, 4, 14-21.[Crossref]
  • [84] Próba M., Chosen Anthropogenic Factors of Surface Water Pollution Analysis of the Phenomenon, Inżynieria i Ochrona Środowiska, 2013, 16(1), 113-124, (in Polish).
  • [85] Van Nuijs A.L.N., Pecceu B., Theunis L., Dubois N., Charlier C., Cocaine and metabolites in waste and surface water across Belgium, Environ. Pollut., 2009, 157, 123-129.[Crossref]
  • [86] Tarcomnicu I., van Nuijs A.L.N., Simons W., Bervoets L., Blust R., Simultaneous determination of 15 top-prescribed pharmaceuticals and their metabolites in influent wastewater by reversed-phase liquid chromatography coupled to tandem mass spectrometry, Talanta, 2011, 83, 795-803.[Crossref]
  • [87] Kasprzyk-Hordern B., Dinsdale R.M., Guwy A.J., llicit drugs and pharmaceuticals in the environment – Forensic applications of environmental data. Part 1: Estimation of the usage of drugs in local communities, Environ. Pollut., 2009, 157, 1773-1777.
  • [88] Baker D. R., Barron L., Kasprzyk-Hordern B., Illicit and pharmaceutical drug consumption estimated via wastewater analysis. Part A: Chemical analysis and drug use estimates, Science of The Total Environment, 2014, 487, 629-641.
  • [89] Politi M. F. L., Biggeri A., Accetta G., Trignano C., Cocaine and heroin in waste water plants: A 1-year study in the city of Florence, Italy, Forensic Sci. Int., 2009, 189: 88-92.
  • [90] Boleda M.A., Galceran M.A., Ventura F., Monitoring of opiates, cannabinoids and their metabolites in wastewater, surface water and finished water in Catalonia, Spain, Water Res., 2009, 43, 1126-1136.[Crossref]
  • [91] Bijlsma L., Sancho J.V., Pitarch E., Ibanez M., Hernandez F., Simultaneous ultra-high-pressure liquid chromatography–tandem mass spectrometry determination of amphetamine and amphetamine-like stimulants, cocaine and its metabolites, and a cannabis metabolite in surface water and urban wastewater, J. Chromatogr A, 2009, 1216, 3078-3089.
  • [92] Martínez Bueno M.J., Uclés S., Hernando M.D., Fernández-Alba A.R., Development of a solvent-free method for the simultaneous identification/quantification of drugs of abuse and their metabolites in environmental water by LC–MS/MS, Talanta, 2011, 85, 157-166.[Crossref]
  • [93] Berset J.D., Brenneisen R., Mathieu C., Analysis of llicit and illicit drugs in waste, surface and lake water samples using large volume direct injection high performance liquid chromatography – Electrospray tandem mass spectrometry (HPLC–MS/MS), Chemosphere, 2010, 81: 859-866.[Crossref]
  • [94] Reid M. J., Harman C., Grung M., Thomas K. V., The current status of community drug testing via the analysis of drugs and drug metabolites in sewage, Norsk Epidemiologi, 2011, 21 (1), 15-23.
  • [95] Klos J., Nowicki P., Kokot Z., Pilot Study of the Estimation of Amphetamines Consumption in the Polish City of Poznan, J. Forensic Res., 2013, 4, 203-207.
  • [96] Nowicki P., Klos J., Kokot Z., Amphetamines in wastewater of the city Poznan- (Poland) -estimation of drug abuse, Poloniae Pharmaceutica in Drug Research, 2014, 71(1), 25-33.
  • [97] Nowicki P., Klos J., Kokot Z., Trends of Amphetamine Type Stimulants DTR Mass Load in Poznan Based on Wastewater Analysis Iranian J. Publ. Health, 2014, 43(5), 610-620.
  • [98] Östman M., Fick J., Näsström E., Lindberg R. H., A snapshot of illicit drug use in Sweden acquired through sewage water analysis, Science of The Total Environment, 2014, 472, 862-871.
  • [99] Metcalfe C., Tindale K., Li H., Rodayan A., Yargeau V., Illicit drugs in Canadian municipal wastewater and estimates of community drug use, Environ. Pollut., 2010, 158, 3179-3185.
  • [100]Bartelt-Hunt S.L., Snow D.D., Damon T., Shockley J., Hoagland K., The occurrence of illicit and therapeutic pharmaceuticals in wastewater effluent and surface waters in Nebraska, Environ. Pollut., 2009, 157, 786-791.
  • [101] Chiaia-Hernandez A.C., Banta-Green C.J., Field J.A., Interpreting methamphetamine levels in a high-use community, Environ. Sci. Pollut. Res. Int., 2011, 18, 1471-1477.[Crossref]
  • [102]Zuccato E., Chiabrando C., Castiglioni S., Bagnati R., Fanelli R., Estimating Community Drug Abuse by Wastewater Analysis, Environ. Health Perspect., 2008, 116, 1027-1032.[Crossref]
  • [103] Subedi B., Kannan K., Mass loading and removal of select illicit drugs in two wastewater treatment plants in New York State and estimation of illicit drug usage in communities through wastewater analysis, Environ. Sci. Technol., 2014, 48 (12), 6661-6670.[Crossref]
  • [104]Castiglioni S., Thomas K. V., Kasprzyk-Hordern B., Vandam L., Griffiths P., Science of the Total Environment, online publication, 25 October, (2013a).
  • [105] EMCDDA (European Monitoring Centre for Drugs and Drug Addiction), European Drug Report: trends and developments, Publications Office of the European Union, Luxembourg, 2014.
  • [106]Thomas K. V., Bijlsma L., Castiglioni S., Comparing illicit drug use in 19 European cities through sewage analysis, Science of the Total Environment, 2012, 32, 432-439.
  • [107] Ort C., van Nuijs A.L.N., Berset J.D., Spatial differences and temporal changes in illicit drug use in Europe quantified by wastewater analysis, Addiction, 2014, 109, 1338-1352.
  • [108]Tossmann P., Boldt S., Tensil M.D., European Addiction Research, 2001, 7(1), 2-23.[Crossref]
  • [109]Pal R., Megharaj M., Kerkrade K.P., Naidu R., Illicit drugs and the environment - A review, Sci. Total Environ., 2013, 463-464, 1079-1092.
  • [110] Daughton C.G., Illicit Drugs: Contaminants in the Environment and Utility in Forensic Epidemiology, Rev. Environ. Contam. Toxicol., 2011, 210, 59-110.
  • [111] Reid M.J., Langford K.H., Mørland J., Thomas K.V. Quantitative assessment of time dependent drug-use trends by the analysis of drugs and related metabolites in raw sewage. Drug Alcohol Depend 2011.
  • [112] Reid M.J., Langford K.H., Mørland J., Thomas K.V., Analysis and Interpretation of Specific Ethanol Metabolites, Ethyl Sulfate, and Ethyl Glucuronide in Sewage Effluent for the Quantitative Measurement of Regional Alcohol Consumption, Alcohol Clin. Exp Res., 2011, 35, 1593-1599.
  • [113] Banta-Green C.J., Field J.A., Chiaia A.C., Sudakin D.L., Power L., de Montigny L., The spatial epidemiology of cocaine, methamphetamine and 3,4-methylenedioxymethamphetamine (MDMA) use: a demonstration using a population measure of community drug load derived from municipal wastewater, Addiction, 2009, 104, 1874-1880.[Crossref]
  • [114] Van Nuijs A.L.N., Pecceu B., Theunis L., Dubois N., Charlier C., Jorens P.G., et al., Can cocaine use be evaluated through analysis of wastewater? A nation-wide approach conducted in Belgium, Addiction, 2009, 104, 734-741.[Crossref]
  • [115] Van Nuijs A.L.N., Tarcomnicu I., Bervoets L., Blust R., Jorens P.G., Neels H., et al., Analysis of drugs of abuse in wastewater by hydrophilic interaction liquid chromatography–tandem mass spectrometry, Anal. Bioanal. Chem., 2009, 395, 819-828.
  • [116] González-Marino I., Quintana J.B., Rodríguez I., Cela R., Determination of drugs of abuse in water by solid-phase extraction, derivatisation and gas chromatography–ion trap-tandem mass spectrometry, J. Chromatogr. A, 2010, 1217, 1748-1760.
  • [117] Karolak S., Nefau T., Bailly E., Solgadi A., Levi Y., Estimation of illicit drugs consumption by wastewater analysis in Paris area (France), Forensic Sci. Int., 2010, 200, 153-160.
  • [118] Harman C., Reid M., Thomas K.V., Concerning the Viewpoint; “An Anti-Doping Sampling Strategy Utilizing the Sewerage Systems of Sport Villages”, Environ. Sci. Technol., 2011, 45, 4191-4191.[Crossref]
  • [119] Lai F.Y., Ort C., Gartner C., Carter S., Prichard J., Kirkbride P., et al., Refining the estimation of illicit drug consumptions from wastewater analysis: Co-analysis of prescription pharmaceuticals and uncertainty assessment, Water Res., 2011, 45(15), 4437-4448.[Crossref]
  • [120]Postigo C., de Alda M.L., Barceló D., Evaluation of drugs of abuse use and trends in a prison through wastewater analysis, Environ. Int., 2011, 37, 49-55.
  • [121] Van Nuijs A.L.N., Castiglioni S., Tarcomnicu I., Postigo C., Lopez A. M., Neels H., et al., Illicit drug consumption estimations derived from wastewater analysis: A critical review, Sci Total Environ., 2011, 409, 3564-3577.
  • [122] Archer J. R. H., Dargan P. I., Hudson S., Wood D. M., Analysis of anonymous pooled urine from portable urinals in central London confirms the significant use of novel psychoactive substances, QJM, 2013, 106(2), 147-155.
  • [123] Archer J. R. H., Hudson S., Wood D. M., Dragan P. I., Current Drug Abuse Reviews, online publication, 5 December (2013).
  • [124] Reid M.J., Langford K. H., Grung M., Estimation of cocaine consumption in the community: a critical comparison of the results from three complimentary techniques, BMJ Open, 2012, 2(6) doi:10.1136/bmjopen-2012-001637 (www.ncbi.nlm.nih.gov/pmc/articles/PMC3533010/)[Crossref]
  • [125] Bachelot M., Li Z., Munaron D., Gall P.L., Casellas C., Fenet H., et al., Organic UV filter concentrations in marine mussels from French coastal regions, Science of the Total Environment, 2012, 420, 273-279.
  • [126] Gackowska A., Gaca J., Gospodarka Odpadami Komunalnymi, VIII, 2012, 29-36, (in Polish).
  • [127] Giokas D.L., Salvador A., Cisvent A., UV filters: From sunscreens to human body and the environment, Trends in Anal. Chemistry., 2007, 5, 360-374.
  • [128]Zenker A., Schutz H., Fent K., Simultaneous trace determination of nine organic UV-absorbing compounds (UV filters) in environmental samples, J. Chromatography A, 2008, 1202, 64-74.
  • [129] Morohoshi K., Yamamoto H., Kamata R., Shiraishi F., Koda T., Morita M., Estrogenic activity of 37 components of commercial sunscreen lotions evaluated by in vitro assays, Toxicol. in Vitro, 2005, 19, 457-469..
  • [130] Kunz P.Y., Galicia H., Fent K., Comparison of In Vitro and In Vivo Estrogenic Activity of UV Filters in Fish, Toxicol. Sci., 2006, 90, 349-361.
  • [131] Poiger T., Buser H.R., Balmer M.E., Per-Anders B., Müller M.D., Occurrence of UV filter compounds from sunscreens in surface waters: regional mass balance in two Swiss lakes, Chemosphere 2004, 55, 951-963.
  • [132] Kerdivel G., Le Guevel R., Habauzit D., Brion F., Ait-Aissa S., Estrogenic Potency of Benzophenone UV Filters in Breast Cancer Cells: Proliferative and Transcriptional Activity Substantiated by Docking Analysis, PLoS ONE, 2013, 8(4), e60567, doi: 10.1371/journal.pone.0060567[Crossref]
  • [133] Zucchi S., Oggier D.M., Fent K., Global gene expression profile induced by the UV-filter 2-ethyl-hexyl-4-trimethoxycinnamate (EHMC) in zebrafish (Danio rerio), Environmental Pollution, 2011, 159, 3086-3096.
  • [134] Fent K., Zenker A., Rapp M., Widespread occurrence of estrogenic UV-filters in aquatic ecosystems in Switzerland, Environ. Pollut., 2010, 158, 1817-1824.
  • [135] Jeon H.K., Chung Y., Ryu J.C., Simultaneous determination of benzophenone-type UV filters in water and soil by gas chromatography–mass spectrometry, J. Chromatogr. A, 2006, 113, 192-202.
  • [136] Schmitt C., Oetken M., Dittberner O., Wagner M., Oehlmann J., Endocrine modulation and toxic effects of two commonly used UV screens on the aquatic invertebrates Potamopyrgus antipodarum and Lumbriculus variegatus, Environmental Pollution, 2008, 152, 322-329.
  • [137] Fent K., Kunzac P.Y., Gomezd E., UV Filters in the Aquatic Environment Induce Hormonal Effects and Affect Fertility and Reproduction in Fish, Chimia, 2008, 62, 368-375.[Crossref]
  • [138]Schlumpf M., Durrer S., Faass O., Ehnes C., Fuetsch M., Developmental toxicity of UV filters and environmental exposure: a review, Int. J. Androl., 2008, 31, 144-151.[Crossref]
  • [139] Kaiser D., Sieratowicz A., Zielke H., Oetken M., Hollert H., J. Oehlmann, Ecotoxicological effect characterisation of widely used organic UV filters, Environ. Pollution, 2012, 163, 84-90.
  • [140]Amine H., Gomez E., Halwani J., Casellas C., Fenet H., UV filters, ethylhexyl methoxycinnamate, octocrylene and ethylhexyl dimethyl PABA from untreated wastewater in sediment from eastern Mediterranean river transition and coastal zones, Marine Pollution Bulletin, 2012, 64, 2435-2442.[Crossref]
  • [141] Kameda Y., Kimura K., Miyazaki M., Occurrence and profiles of organic sun-blocking agents in surface waters and sediments in Japanese rivers and lakes, Environmental Pollution, 2011, 159, 1570-1576.
  • [142] Nakata H., Murata S., Shinohara R., Filatreau J., Isobe T., Takahashi S., et al., Interdisciplinary Studies on Environmental Chemistry – Environmental Research in Asia, eds. Y. Obayashi, T. Isobe, A. Subramanian, S. Suzuki, S. Tanabe, TERRAPUB, 2009, 239-246.
  • [143] Li W., Ma Y., Guo C., Hu W., Liu K., Wang Y., et al., Occurrence and behavior of four of the most used sunscreen UV filters in a wastewater reclamation plant, Water Research, 2007, 41, 3506-3512.
  • [144]Rodil D., Quintana J.B., Lope-Mahia P., Muniategui-Lorenzo S., Prada-Rodriguez D., Multiclass Determination of Sunscreen Chemicals in Water Samples by Liquid Chromatography−Tandem Mass Spectrometry, Anal. Chemistry, 2008, 80(4), 1307-1315.[Crossref]
  • [145] Kasprzyk-Hordern B., Dinsdale R.M., Guwy A.J., The removal of pharmaceuticals, personal care products, endocrine disruptors and illicit drugs during wastewater treatment and its impact on the quality of receiving waters, Water Research, 2009, 43, 363-380.[Crossref]
  • [146]Bursey J.T., Pellizzari E.D., USEPA, Analysis of Industral Wastewater for Orgaic Pollutants in Consent Decree Survey Contract Number 68-03-2867, Athens, GA, USA, (USEPA Environ.Res.13 Lab.) 1982.
  • [147] Dąbrowska A., Binkiewicz K., Nawrocki J., Determination of benzophenones in surface waters by GC-ECD method, Ochrona Środowiska, 2009,31(3), 57-60, (in Polish)..
  • [148]Cuderman P., Healt E., Determination of UV filters and antimicrobial agents in environmental water samples, Anal. Bioanal. Chem., 2007, 387, 1343-1350.
  • [149]Langford K., Thomas K.V., ‘Inputs of chemicals from recreational activities to the Norwegian coastal zone’, in SETAC Europe 17th Annual Meeting, 2007, Porto, Portugal.
  • [150] Jeon H. K., Chung Y., Ryu J. C., Simultaneous determination of benzophenone-type UV filters in water and soil by gas chromatography–mass spectrometry, J. Chromatogr.. A, 2006, 113, 192-202.
  • [151] Loraine G. A., Pettigrove M. E., Seasonal Variations in Concentrations of Pharmaceuticals and Personal Care Products in Drinking Water and Reclaimed Wastewater in Southern California, Environ. Sci. Technol., 2006, 40, 687-695.[Crossref]
  • [152] Plagellat C., Kupper T., Furrer R., de Alencastro L. F., Grandjean D., Tarrradellas J., Concentrations and specific loads of UV filters in sewage sludge originating from a monitoring network in Switzerland, Chemosphere, 2006, 62, 915-925.[Crossref]
  • [153] Balmer M. E., Buser H. R., Müller M. D., Poiger T., Occurrence of Some Organic UV Filters in Wastewater, in Surface Waters, and in Fish from Swiss Lakes, Environ. Sci. Technol., 2005, 39, 953-362.[Crossref]
  • [154] Buser H. R., Balmer M. E., Schmid P., Kohler M., Occurrence of UV Filters 4-Methylbenzylidene Camphor and Octocrylene in Fish from Various Swiss Rivers with Inputs from Wastewater Treatment Plants, Environ. Sci. Technol., 2006, 40, 1427-1431.
  • [155] Nagtegaal M., Ternes T.A., Baumann W., Nagel R., UV-Filtersubstanzen in Wasser und Fischen, UWSF-Z. Umweltchem. Ökotoxikol., 1997, 9, 79-86.
  • [156] Diaz-Cruz S.M., Llorca M., Barcelo D., Organic UV filters and their photodegradates, metabolites and disinfection by-products In the aquatic environment, Trends in Anal. Chemistr., 2008, 10, 873-886.
  • [157] Giokas D.L.,. Sakkas V.A, Albanis T.A., Determination of residues of UV filters in natural waters by solid-phase extraction coupled to liquid chromatography–photodiode array detection and gas chromatography–mass spectrometry, J. Chromatography A, 2004, 1026, 289-293.
  • [158] Zenker A., Schutz H., Fent K., Simultaneous trace determination of nine organic UV-absorbing compounds (UV filters) in environmental samples, J. Chromatography A, 2008, 1202, 64-74.

Document Type

Publication order reference

Identifiers

YADDA identifier

bwmeta1.element.-psjd-doi-10_1515_chem-2015-0151
JavaScript is turned off in your web browser. Turn it on to take full advantage of this site, then refresh the page.