9 results on '"Zwiener, Christian"'
Search Results
2. Formation and occurrence of transformation products of metformin in wastewater and surface water.
- Author
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Tisler, Selina and Zwiener, Christian
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BIGUANIDE , *METFORMIN , *HYPOGLYCEMIC agents , *WASTEWATER treatment , *HYDROPHILIC interaction liquid chromatography - Abstract
The aim of this work was to investigate the occurrence and fate of the antidiabetic metformin (MF) and its transformation products (TPs) in wastewater and surface water samples. New TPs of MF were approached by electrochemical degradation with a boron-doped-diamond electrode (at 1.5 V for 10 min). 2,4-Diamino-1,3,5-triazine (2,4-DAT), methylbiguanide (MBG), 2-amino-4-methylamino-1,3,5-triazine (2,4-AMT) and 4-amino-2-imino-1-methyl-1,2-dihydro-1,3,5-triazine (4,2,1-AIMT) were identified by hydrophilic interaction chromatography (HILIC) with quadrupole time-of-flight mass spectrometry (QTOF-MS) and accurate mass fragmentation. However, the well-known transformation product guanyl urea (GU) could not be formed electrochemically. In samples from wastewater treatment plants (WWTP), 2,4-AMT and 2,4-DAT showed an increasing trend from influents to effluents, which implies formation of the TPs during WWT. MBG is also formed by hydrolysis of MF and therefore didn't show this trend in WWTPs. Compared to GU, the concentrations of other TPs are generally three orders of magnitude lower. MBG and 2,4-DAT were also detected in surface water which was impacted by waste water, while 4,2,1-AIMT could not be detected in any sample. The concentrations of MF were in an expected range for influent (14 to 95 μg/l), effluent (0.7 to 6.5 μg/l), surface water (up to 234 ng/l) and tap water (34 ng/l). GU concentrations, however, were in one of the two investigated WWTP much higher in the influent (between 158 μg/l and 2100 μg/l) than in the effluent (between 26 and 810 μg/l). This is a rather unexpected result which has not been reported yet. Obviously, GU has been already formed in parts of the sewer system from MF or from other biguanide compounds like antidiabetics or disinfection chemicals. Furthermore, lower concentrations of GU in the effluents than in the influents indicate degradation processes of guanyl urea in the waste water treatment. [ABSTRACT FROM AUTHOR]
- Published
- 2018
- Full Text
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3. Tracking artificial sweeteners and pharmaceuticals introduced into urban groundwater by leaking sewer networks
- Author
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Wolf, Leif, Zwiener, Christian, and Zemann, Moritz
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NONNUTRITIVE sweeteners , *DRUGS , *GROUNDWATER , *QUANTITATIVE chemical analysis , *MUNICIPAL water supply , *WATER management , *MATHEMATICAL models , *HYDRAULICS , *CARBAMAZEPINE - Abstract
Abstract: There is little quantitative information on the temporal trends of pharmaceuticals and other emerging compounds, including artificial sweeteners, in urban groundwater and their suitability as tracers to inform urban water management. In this study, pharmaceuticals and artificial sweeteners were monitored over 6years in a shallow urban groundwater body along with a range of conventional sewage tracers in a network of observation wells that were specifically constructed to assess sewer leakage. Out of the 71 substances screened, 24 were detected at above the analytical detection limit. The most frequent compounds were the iodinated X-ray contrast medium amidotrizoic acid (35.3%), the anticonvulsant carbamazepine (33.3%) and the artificial sweetener acesulfame (27.5%), while all other substances occurred in less than 10% of the screened wells. The results from the group of specifically constructed focus wells within 10m of defective sewers confirmed sewer leaks as being a major entrance pathway into the groundwater. The spatial distribution of pharmaceuticals and artificial sweeteners corresponds well with predictions by pipeline leakage models, which operate on optical sewer condition monitoring data and hydraulic information. Correlations between the concentrations of carbamazepine, iodinated X-ray contrast media and artificial sweeteners were weak to non-existent. Peak concentrations of up to 4130ng/l of amidotrizoic acid were found in the groundwater downstream of the local hospital. The analysis of 168 samples for amidotrizoic acid, taken at 5 different occasions, did not show significant temporal trends for the years 2002–2008, despite changed recommendations in the medical usage of amidotrizoic acid. The detailed results show that the current mass balance approaches for urban groundwater bodies must be adapted to reflect the spatially distributed leaks and the variable wastewater composition in addition to the lateral and horizontal groundwater fluxes. [Copyright &y& Elsevier]
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- 2012
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4. Identification of transformation products of denatonium – Occurrence in wastewater treatment plants and surface waters.
- Author
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Lege, Sascha, Eisenhofer, Anna, Heras, Jorge Eduardo Yanez, and Zwiener, Christian
- Abstract
Denatonium, one of the bitterest substances known to man, was recently identified as wastewater borne micropollutant in surface waters. Therefore, photodegradation experiments and electrochemical degradation were performed to identify abiotic and putative biotic transformation products (TPs). Indirect rather than direct photodegradation proved to be important for denatonium removal by solar irradiation and produced seven TPs. Amide hydrolysis, hydroxylation, N-dealkylation, and N-dearylation were revealed as the main mechanisms. Anodic oxidation of denatonium was related to the formation of overall ten products and despite considerable different yields, all TPs from indirect photodegradation were mimicked electrochemically. Among them, lidocaine was the only TP detected after conventional wastewater treatment and in surface waters. The occurrence of lidocaine was however associated with its application as local anesthetic rather than to a degradation of denatonium. The absence of additional products suggests that denatonium degradation is negligible under environmental conditions, supporting the previously described persistent nature of this compound. Advanced water treatment techniques however have the potential to degrade denatonium. About 74% of the initial denatonium load was removed from wastewater during pilot-scale ozonation. The degradation of denatonium was accompanied here with the formation of at least two polar products, which are passing unchanged through a sand filter after ozonation. Both substances have completely unknown (toxicological) properties and this study seems to be the first report about their structures in general, as none of them was found in any of the large compound libraries (e.g. PubChem). Unlabelled Image • Indirect photodegradation and electrochemical oxidation resulted in overall ten TPs. • Five products were identified with a confidence level of 2 or better. • High persistence of denatonium in conventional wastewater treatment and in surface waters observed. • Denatonium removal by ozonation is associated with the formation of polar TPs. [ABSTRACT FROM AUTHOR]
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- 2019
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5. Fate of wastewater contaminants in rivers: Using conservative-tracer based transfer functions to assess reactive transport.
- Author
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Guillet, Gaëlle, Knapp, Julia L.A., Merel, Sylvain, Cirpka, Olaf A., Grathwohl, Peter, Zwiener, Christian, and Schwientek, Marc
- Abstract
Abstract Interpreting the fate of wastewater contaminants in streams is difficult because their inputs vary in time and several processes synchronously affect reactive transport. We present a method to disentangle the various influences by performing a conservative-tracer test while sampling a stream section at various locations for chemical analysis of micropollutants. By comparing the outflow concentrations of contaminants with the tracer signal convoluted by the inflow time series, we estimated reaction rate coefficients and calculated the contaminant removal along a river section. The method was tested at River Steinlach, Germany, where 38 contaminants were monitored. Comparing day-time and night-time experiments allowed distinguishing photo-dependent degradation from other elimination processes. While photo-dependent degradation showed to be highly efficient for the removal of metroprolol, bisoprolol, and venlafaxine, its impact on contaminant removal was on a similar scale to the photo-independent processes when averaged over 24 h. For a selection of compounds analyzed in the present study, bio- and photodegradation were higher than in previous field studies. In the Steinlach study, we observed extraordinarily effective removal processes that may be due to the higher proportion of treated wastewater, temperature, DOC and nitrate concentrations, but also a higher surface to volume ratio from low flow conditions that favorizes photodegradation through the shallow water column and a larger transient storage than observed in comparable studies. Graphical abstract Unlabelled Image Highlights • Studying reactive processes in river channels is inherently difficult. • Tracer tests allowed separating conservative transport from the measured signal. • Comparison of day and night experiments highlighted photodegradation. • Photodegradation is weaker than photo-independent elimination on the long term. [ABSTRACT FROM AUTHOR]
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- 2019
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6. Photolysis of four β‑lactam antibiotics under simulated environmental conditions: Degradation, transformation products and antibacterial activity.
- Author
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Timm, Alexander, Borowska, Ewa, Majewsky, Marius, Merel, Sylvain, Zwiener, Christian, Bräse, Stefan, and Horn, Harald
- Abstract
Abstract β‑Lactam antibiotics are among the most widely used antibiotics in human medicine and their effects on the aquatic environment - concerning bacterial resistance - are controversially discussed. This study focused on the photolysis of the four β‑lactam antibiotics - amoxicillin, ampicillin, penicillin V and piperacillin - under simulated environmental conditions. It was observed that all investigated β‑lactam antibiotics are photolytically degradable by simulated sunlight (1 kW/m2) with half-lives between 3.2 and 7.0 h. Structure elucidation of transformation products performed with liquid chromatography coupled to high resolution mass spectrometry showed that the hydrolysis of the β‑lactam ring is the primary transformation reaction, followed by the elimination of carboxylic and dimethyl thiazolidine carboxylic acid. Growth inhibition tests on Bacillus subtilis showed the loss of bactericide activity of irradiated solutions of amoxicillin, ampicillin and piperacillin, suggesting the transformation of the β‑lactam ring is responsible for the antibiotic effect. In contrast, the solutions of penicillin V did not show any decline of the antibacterial activity after photolytic degradation, probably due to the formation of still active epimers. Graphical abstract Unlabelled Image Highlights • Simulated sunlight was shown to be able to degrade β‑lactam antibiotics. • New transformation products of β‑lactam antibiotics were elucidated. • Photolysis of amoxicillin, ampicillin and piperacillin reduces the growth inhibition effect. • Photolytically transformed penicillin V keeps the ability to inhibit bacterial growth. [ABSTRACT FROM AUTHOR]
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- 2019
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7. Occurrence of brominated disinfection by-products in thermal spas.
- Author
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Usman, Muhammad, Hüben, Michael, Kato, Takuro, Zwiener, Christian, Wintgens, Thomas, and Linnemann, Volker
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- 2022
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8. Temporal and spatial variable in-stream attenuation of selected pharmaceuticals.
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Glaser, Clarissa, Zarfl, Christiane, Werneburg, Martina, Böckmann, Matthias, Zwiener, Christian, and Schwientek, Marc
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Organic micropollutants enter rivers mainly with discharges of wastewater treatment plants (WWTP) and pose a risk to aquatic ecosystems and water quality. A considerable knowledge gap exists for disentangling overlapping processes and driving conditions that control the fate of these pollutants. Thus, the aim of this study was to identify the driving parameters for attenuation of selected pharmaceuticals (carbamazepine, diclofenac, tramadol and venlafaxine) under field conditions. The presented study was performed at a small river (Ammer River, mean discharge 0.87 m3 s−1) which is hydrologically complex due to karstification, numerous artificial discharges, and engineered modifications of the channel. We applied a Lagrangian sampling scheme at two sequential river reaches. In general, for the investigated compounds and over the length of the tested reaches, the absolute net attenuation representative for 24 h was low (≤ 23% net attenuation), yet calculated half-lives were comparable to literature. Photodegradation is specifically relevant for the first river reach characterized by a higher net attenuation of the photosensitive compound diclofenac (14.5% ±11.3%) compared to the second section (9.8% ±13.7%). This is likely due to a spatial difference in canopy shading, which is supported by significant correlations (R2 ≥ 0.8) of the temporally changing 'temperature' and 'solar radiation' with time-specific degradation rate constants of photosensitive compounds for consecutive hourly water parcels. In general, the presented spatially and temporally resolved approach is a suitable tool to determine the attenuation of organic micropollutants and to narrow down the interpretation of net attenuation to a few reasonable processes. Unlabelled Image • Integrated investigation combining field approaches and chemical analysis in a small river • River water influenced by (diffuse) groundwater inflow and wastewater • Application of a mass balance approach based on Lagrangian sampling • Determination of temporal and spatial variability in attenuation of organic micropollutants • Photodegradation identified as major attenuation mechanism in the studied river [ABSTRACT FROM AUTHOR]
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- 2020
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9. Corrigendum to "Fate of wastewater contaminants in rivers: Using conservative-tracer based transfer functions to assess reactive transport" [Sci. Total Environ. 656C (2019) 1250–1260].
- Author
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Guillet, Gaëlle, Knapp, Julia L.A., Merel, Sylvain, Cirpka, Olaf A., Grathwohl, Peter, Zwiener, Christian, and Schwientek, Marc
- Published
- 2019
- Full Text
- View/download PDF
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