Abstract
Background, Aim and Scope
Our study focuses on the indication of anthropogenic impacts on the urban surface and groundwater in large cities, demonstrated for the cities of Halle/Saale and Leipzig (Germany). For the study we selected indicator substances such as xenobiotics, trace elements, and stable isotopes which are connected to human activities in urban areas. The xenobiotics reported here are the pharmaceutical carbamacepine, the polycylic musk compounds galaxolide and tonalide, the life style product caffeine, and industrial chemicals such as bisphenol A and t-nonylphenol. The investigated xenobiotics pose largely unknown risks to human health and the aquatic ecosystem. Trace elements are represented by the rare earth element gadolinium (Gd), used as magnetic resonance imaging contrast substance. Nitrogen isotopes in dissolved nitrate characterize the origin of nitrogen compounds, mixing and reaction processes.
Methodology
River water was sampled along the flow path of the rivers Saale and Weisse Elster through the city of Halle/Saale, the rivers Luppe and Weisse Elster through the city of Leipzig. Separate samples were collected from the effluent of the local waste water treatment plants. Groundwater from Quaternary plain aquifers along the rivers and from different urban locations was collected at the same time. The indicators were analysed and assessed according to their sources, concentration and distribution patterns.
Results and Discussion
Based on the nitrogen isotopic signature, dissolved nitrate in river water of the Saale was referred mainly to two sources: the effluent of the water treatment plant and a mixture of diffusive inputs from rain water channels, sewage leakages and agriculture activities along the rivers. The Gd anomaly was recognized in surface water of both cities, particularly in the effluent of the water treatment plants, but clearly attenuated in groundwater. We measured concentrations of xenobiotics in river and sewer water between 10 and 60,000 ng L−1, and, in groundwater, one order of magnitude lower. Distinctions of xenobiotic patterns were found in river water before and after the effluent of treated waste water into the rivers. Degradation of endocrine disrupters and fragrances, but also persistence of carbamacepine were recognized as essential processes during waste water treatment. At the study site Halle/Saale, mass balances were set up for xenobiotics and water fluxes.
Conclusions
At both sites, we demonstrated that indicators such as xenobiotics, gadolinium, and nitrogen isotopes are suitable for assessing anthropogenic impacts on urban water. However, the behaviour of these indicators in surface and groundwater has to be considered according to the different geochemical environments.
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7 References
Ahel M, Molnar E, Ibric S, Giger W (2000): Estrogenic metabolites of alkylphenol polyethoxylates in secondary sewage effluents and rivers. Water Sci Technol 42,(7–8) 15–22
Andreozzi R, Marotta R, Pinto G, Pollio A (2002): Carbamacepine in water: Persistence in the environment, ozonation treatment and preliminary assessment on algal toxicity. Water Res 36, 2869–2877
ATV-Abwassertechn. Vereinigung (1999): Endokrine Stoffe: Stoffflußanalyse endokrin wirksamer Substanzen — Produktion, Verwendung, Umwelteinträge. ATV-Schriftenreihe Bd. 15, 22–37. Hennef
Balk F, Ford RA (1999): Environmental risk assessment for the polycyclic musks AHTN and HHCB in the EU I. Fate and exposure assessment. Toxicol Lett 111, 57–79
Braun P, Möder M, Schrader S, Popp P, Kuschk P, Engewald W (2003): Trace analysis of technical nonylphenol, bisphenol A and 17alpha-ethinylestradiol in wastewater using solid phase microextraction and GC-MS. J Chromatogr A 988, 41–51
Clara M, Strenn B, Gans O, Martinez E, Kreuzinger N, Kroiss H (2005): Removal of selected pharmaceuticals, fragrances and endocrine disrupting compounds in a membrane bioreactor and conventional wastewater treatment plants. Water Research 39,19, 4797–4807
Cunningham VL, Buzby M, Hutchinson T, Mastrocco F, Parke N, Roden N (2006): Effects of human pharmaceuticals on aquatic life: Next steps. Environm Sci Technol 40(11) 3457–3462
Eiswirth M, Wolf L, Hötzl H (2004): Balancing the contaminant input into urban water resources. Environmental Geology 46, 246–256
Geiler N (2006): Pharmaka im Abwasserpfad. Wasser-& Abwassertechnik 7–8, 13–15
Gläßer W (1995): Der Einfluss des Braunkohlenbergbaus auf Grundund Oberflächenwasser — Hydrogeologische Untersuchungen in Mitteldeutschland. Geowissenschaften 13(8–9) 291–296
Heberer T, Gramer S, Stan HJ (1999): Occurrence and distribution of organic contaminants in the aquatic system: Part III: determination of synthetic musks in Berlin Surface Water applying solidphase microextraction (SPME) and gas chromatography-mass spectrometry (GC/MS). Acta Hydrochim Hydrobiol 27, 150–156
Heemcken OP, Reincke H, Stachel B, Theobald N (2001): The occurrence of xenoestrogens in the Elbe river and the North Sea. Chemosphere 45, 245–259
Hennebrüder K, Wennrich R, Mattusch J, Stärk HJ, Engewald W (2004): Determination of gadolinium in river water by SPE preconcentration and ICP-MS. Talanta 63, 309–316
Jørgensen ES, Halling-Sørensen B (2000): Drugs in the environment. Chemosphere 40(7) 691–793
Jordan H, Weder HJ (1995): Hydrogeologische Grundlagen und Methoden — Regionale Hydrogeologie: Mecklenburg-Vorpommern, Brandenburg und Berlin, Sachsen-Anhalt, Sachsen, Thüringen. 2. Auflage, Ferdinand-Enke-Verlag, Stuttgart, 603 pp
Junghanns C, Möder M, Krauss G, Martin C, Schlosser D (2005): Degradation of the xenoestrogen nonylphenol by aquatic fungi and their laccases. Microbiology 151, 45–57
Knappe A, Möller P, Dulski P, Pekdeger A (2005): Positive gadolinium anomaly in surface water and ground water of the urban area Berlin, Germany. Chemie der Erde 65, 167–189
Knöller K, Fauville A, Mayer B, Strauch G, Friese K, Veizer J (2004): Sulfur cycling in an acid mining lake and its vicinity in Lusatia, Germany. Chem Geology 204, 303–323
Krumbiegel G, Schwab M (1974: Saalestadt Halle und Umgebung — Ein geologischer Führer, Teil 1 und 2. Halle/Saale
Kümmerer K, Helmers E (2000): Hospital Effluents as a Source of Gadolinium in the Aquatic Environ Sci Technol 34, 573–577
Landesumweltamt Brandenburg (2000): Endokrin wirksame Stoffe in der Umwelt. Schriften und Tagungsberichte, Schriftenreihe des LUA Brandenburg, Band 26, Potsdam, 49 pp
Massmann G, Knappe A, Richter D, Pekdeger A (2004): Investigating the influence of treated sewage on groundwater and surface water using wastewater indicators in Berlin, Germany. Acta Hydrochim Hydrobiol 32(4–5) 336–350
Mayer B, Boyer EW, Goodale C, Jaworski NA, Howarth RW, Seitzinger S (2002): Sources of nitrate in rivers draining sixteen watersheds in the northeastern US: Isotopic constraints. Biogeochemistry 57,171–197
Moeder M, Martin C, Schlosser D, Harynuk J, Gorecki T (2006): Separation of technical 4-nonylphenols and their biodegradation products by comprehensive two-dimensional gas chromatography coupled to time-of-flight mass spectrometry. J Chromatogr A 1107, 233–239
Möller P, Paces T, Dulski P, Morteani G (2002): Anthropogenic Gd in Surface Water, Drainage System, and the Water Supply of the City of Prague, Czech Republic. Environ Sci Technol 36, 2387–2394
Peck AM, Hornbuckle KC (2004): Synthetic musk fragrances in Lake Michigan. Environ Sci Technol 38, 367–372
Peck AM, Linebaugh EK, Hornbuckle KC (2006): Synthetic Musk Fragrances in Lake Erie and Lake Ontario Sediment Cores. Environ Sci Technol 40(18) 5629–5635
Reinstorf F, Strauch G, Schirmer M, Glaeser HR, Moeder M, Wennrich R, Osenbrueck K, Schirmer K (2007): Xenobiotics in urban areas — Investigation and estimation of chemical fluxes. In: Howard KWF (ed), Urban groundwater — Meeting the challenge. International Association of Hydrologists Selected Papers 8, 145–159. Taylor and Francis/Balkema, ISBN13 978-0-415-40745-8 (Hbk)
Ricking M, Schwarzbauer J, Franke S (2003): Molecular markers of anthropogenic activity in sediments of the Havel and Spree Rivers (Germany). Water Res 37, 2607–2617
Sauerwein M (2004): Are cities sinks or sources of pollution? Examples of anthropogenic interventions (water, sediments and soils) in Halle/Saale (Germany). Expert Symposium Future Trends & Challenges of Urban Ecosystem Management, Salzburg 29th June 2004, 〈www.urbanecostudio.net/133_228.htm〉
Schmidt H, Mayer G, Wiktorin D (2005): Der Leipzig Atlas. 1. Auflage, Emons Verlag, Calbe, 229 pp
Sebilio M, Billen G, Grably M, Mariotti A (2003): Isotopic composition of nitrate-nitrogen as a marker of riparian and benthic denitrification at the scale of the whole Seine River system. Biogeochemistry 63, 35–51
Stachel B, Ehrhorn U, Heemken OP, Lepom P, Reincke H, Sawal G, Theobald N (2003): Xenoestrogens in the river Elbe and its tributaries. Environmental Pollution 124, 497–507
Ternes TA (1998): Occurrence of drugs in German sewage treatment plants and rivers. Water Res 32, 3245–3260
Tixier C, Singer HP, Oellers S, Müller S (2003): Occurrence and fate of carbamacepine, clofibric acid, diclofenac, ibuprofen, ketoprofen, and naxoprofen in surface waters. Environ Sci Technol 37(6) 1061–1068
Wassenaar LI (1995): Evaluation of the origin and fate of nitrate in the Abbotsford aquifer using the isotopes of 15N and 18O in NO3 −. Appl Geochemistry 10, 391–405
Wichmann G, Daegelmann C, Herbarth O, Strauch G, Schirmer K, Wöstemeyer J, Lehmann I (2004): Inflammatory Activity in River-Water Samples. Environ Toxicol 19(6) 594–602
Wolf L, Klinger J, Held I, Hötzl H (2006): Integrating groundwater into urban water management. Water Sci Technol 54(6–7) 395–403
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Strauch, G., Möder, M., Wennrich, R. et al. Indicators for assessing anthropogenic impact on urban surface and groundwater. J Soils Sediments 8, 23–33 (2008). https://doi.org/10.1065/jss2007.06.234
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DOI: https://doi.org/10.1065/jss2007.06.234