Your search keyword '"Putschew, Anke"' showing total 12 results

1. Seasonal Differences in the Attenuation of Polar Trace Organics in the Hyporheic Zone of an Urban Stream.

Author

Mueller, Birgit M., Schulz, Hanna, Höhne, Anja, Putschew, Anke, and Lewandowski, Joerg

Subjects

DARCY'S law, ANOXIC zones, SEASONS, TIME series analysis, ELECTRIC conductivity, BIOLOGICAL nutrient removal

Abstract

Attenuation of trace organic compounds (TrOCs) in a river occurs to a large extent in its hyporheic zone. A major part of the attenuation of polar TrOCs is of microbial origin. As microbial activity depends on temperature and redox conditions, seasonal differences in TrOC attenuation are likely. We investigated TrOC attenuation at a river influenced by treated wastewater during two sampling campaigns, one in summer and one in winter. In addition to redox conditions and temperature, we also determined residence times of porewater in sediment using three methods: (a) non‐parametric deconvolution of electrical conductivity time series, (b) the model VFLUX 2.0 based on temperature time series (only summer), and (c) applying Darcy's law to differences in hydraulic heads (only summer). Contrary to our expectations, we found higher attenuation for 12 out of 18 TrOCs in winter, while three TrOCs were better attenuated in summer. Sediment conditions varied between seasons as more of the top sandy layer with a higher hydraulic permeability accumulated on the river bed in summer. As a result, residence times in the sediment were shorter in summer. In winter, longer residence times, lower temperatures, and a steeper oxygen gradient in sediment coincided with higher TrOC attenuation. Further research is needed to understand our unexpected findings and underlying mechanisms. Key Points: The attenuation of 12 out of 18 trace organic compounds (TrOCs) in the hyporheic zone was higher in winter while three TrOCs were attenuated better in summerResidence times in sediment were longer and more diverse in winterThe extent of the oxic sediment was similar between seasons but the gradient from the oxic to anoxic zone was steeper in winter [ABSTRACT FROM AUTHOR]

Published

2022

2. Simultaneous attenuation of trace organics and change in organic matter composition in the hyporheic zone of urban streams.

Author

Mueller, Birgit M., Schulz, Hanna, Danczak, Robert E., Putschew, Anke, and Lewandowski, Joerg

Subjects

ORGANIC compounds, DISSOLVED organic matter, WASTEWATER treatment, GABAPENTIN, VENLAFAXINE

Abstract

Trace organic compounds (TrOCs) enter rivers with discharge of treated wastewater. These effluents can contain high loads of dissolved organic matter (DOM). In a 48 h field study, we investigated changes in molecular composition of seven DOM compound classes (FTICR-MS) and attenuation of 17 polar TrOCs in a small urban stream receiving treated wastewater. Correlations between TrOCs and DOM were used to identify simultaneous changes in surface water and the hyporheic zone. Changes in TrOC concentrations in surface water ranged between a decrease of 29.2% for methylbenzotriazole and an increase of 152.2% for the transformation product gabapentin-lactam. In the hyporheic zone, only decreasing TrOC concentrations were observed, ranging from 4.9% for primidone to 93.8% for venlafaxine. TrOC attenuation coincided with a decline of molecular diversity of easily biodegradable DOM compound classes while molecular diversity of poorly biodegradable DOM compound classes increased. This concurrence indicates similar or linked attenuation pathways for biodegradable DOM and TrOCs. Strong correlations between TrOCs and DOM compound classes as well as high attenuation of TrOCs primarily occurred in the hyporheic zone. This suggests high potential for DOM turnover and TrOC mitigation in rivers if hyporheic exchange is sufficient. [ABSTRACT FROM AUTHOR]

Published

2021

3. Simultaneous attenuation of trace organics and change in organic matter composition in the hyporheic zone of urban streams.

Author

Mueller, Birgit M., Schulz, Hanna, Danczak, Robert E., Putschew, Anke, and Lewandowski, Joerg

Subjects

WASTEWATER treatment, ORGANIC compounds, BIODEGRADATION, BIOTRANSFORMATION (Metabolism), BIOGEOCHEMISTRY

Abstract

Trace organic compounds (TrOCs) enter rivers with discharge of treated wastewater. These effluents can contain high loads of dissolved organic matter (DOM). In a 48 h field study, we investigated changes in molecular composition of seven DOM compound classes (FTICR-MS) and attenuation of 17 polar TrOCs in a small urban stream receiving treated wastewater. Correlations between TrOCs and DOM were used to identify simultaneous changes in surface water and the hyporheic zone. Changes in TrOC concentrations in surface water ranged between a decrease of 29.2% for methylbenzotriazole and an increase of 152.2% for the transformation product gabapentin-lactam. In the hyporheic zone, only decreasing TrOC concentrations were observed, ranging from 4.9% for primidone to 93.8% for venlafaxine. TrOC attenuation coincided with a decline of molecular diversity of easily biodegradable DOM compound classes while molecular diversity of poorly biodegradable DOM compound classes increased. This concurrence indicates similar or linked attenuation pathways for biodegradable DOM and TrOCs. Strong correlations between TrOCs and DOM compound classes as well as high attenuation of TrOCs primarily occurred in the hyporheic zone. This suggests high potential for DOM turnover and TrOC mitigation in rivers if hyporheic exchange is sufficient. [ABSTRACT FROM AUTHOR]

Published

2021

4. Deiodination in the presence of Dehalococcoides mccartyi strain CBDB1: comparison of the native enzyme and co-factor vitamin B12.

Author

El-Athman, Fatima, Adrian, Lorenz, Jekel, Martin, and Putschew, Anke

Subjects

CONTRAST media, ELECTROPHILES, VITAMINS, MEDICAL screening, ACID derivatives, BROMINATION, DECHLORINATION (Chemistry)

Abstract

Triiodinated benzoic acid derivatives are widely used as contrast media for medical examinations and are found at high concentrations in urban aquatic environments. During bank filtration, deiodination of iodinated contrast media has been observed under anoxic/anaerobic conditions. While several bacterial strains capable of dechlorination and debromination have been isolated and characterized, deiodination has not yet been shown for an isolated strain. Here, we investigate dehalogenation of iodinated contrast media (ICM), triiodobenzoic acids (TIBA), and analogous chlorinated compounds by Dehalococcoides mccartyi strain CBDB1 and its corrinoid co-factor vitamin B12. No cell growth of CBDB1 was observed using iodinated compounds as electron acceptor. Only negligible deiodination occurred for ICM, whereas 2,3,5-TIBA was nearly completely deiodinated by CBDB1 without showing cell growth. Furthermore, TIBA inhibited growth with hexachlorobenzene which is usually a well-suited electron acceptor for strain CBDB1, indicating that TIBA is toxic for CBDB1. The involvement of CBDB1 enzymes in the deiodination of TIBA was verified by the absence of deiodination activity after heat inactivation. Adding iodopropane also inhibited the deiodination of TIBA by CBDB1 cells, indicating the involvement of a corrinoid-enzyme in the reductive TIBA deiodination. The results further suggest that the involved electron transport is decoupled from proton translocation and therefore growth. [ABSTRACT FROM AUTHOR]

Published

2019

5. Adsorbable organic bromine compounds (AOBr) in aquatic samples: a nematode-based toxicogenomic assessment of the exposure hazard.

Author

Saul, Nadine, Stürzenbaum, Stephen, Chakrabarti, Shumon, Baberschke, Nora, Lieke, Thora, Putschew, Anke, Kochan, Cindy, Menzel, Ralph, and Steinberg, Christian

Subjects

HALOGEN compounds, TOXICOGENOMICS, ORGANOBROMINE compounds, MICROCYSTINS, GENE expression

Abstract

Elevated levels of adsorbable organic bromine compounds (AOBr) have been detected in German lakes, and cyanobacteria like Microcystis, which are known for the synthesis of microcystins, are one of the main producers of natural organobromines. However, very little is known about how environmental realistic concentrations of organobromines impact invertebrates. Here, the nematode Caenorhabditis elegans was exposed to AOBr-containing surface water samples and to a Microcystis aeruginosa-enriched batch culture (MC-BA) and compared to single organobromines and microcystin-LR exposures. Stimulatory effects were observed in certain life trait variables, which were particularly pronounced in nematodes exposed to MC-BA. A whole genome DNA-microarray revealed that MC-BA led to the differential expression of more than 2000 genes, many of which are known to be involved in metabolic, neurologic, and morphologic processes. Moreover, the upregulation of cyp- and the downregulation of abu-genes suggested the presence of chronic stress. However, the nematodes were not marked by negative phenotypic responses. The observed difference in MC-BA and microcystin-LR (which impacted lifespan, growth, and reproduction) exposed nematodes was hypothesized to be likely due to other compounds within the batch culture. Most likely, the exposure to low concentrations of organobromines appears to buffer the effects of toxic substances, like microcystin-LR. [ABSTRACT FROM AUTHOR]

Published

2015

6. Contrasting cellular stress responses of Baikalian and Palearctic amphipods upon exposure to humic substances: environmental implications.

Author

Protopopova, Marina, Pavlichenko, Vasiliy, Menzel, Ralph, Putschew, Anke, Luckenbach, Till, and Steinberg, Christian

Subjects

HUMUS, PALEARCTIC, ECOLOGICAL zones, AMPHIPODA, HABITATS

Abstract

The species-rich, endemic amphipod fauna of Lake Baikal does not overlap with the common Palearctic fauna; however, the underlying mechanisms for this are poorly understood. Considering that Palearctic lakes have a higher relative input of natural organic compounds with a dominance of humic substances (HSs) than Lake Baikal, we addressed the question whether HSs are candidate factors that affect the different species compositions in these water bodies. We hypothesized that interspecies differences in stress defense might reveal that Baikalian amphipods are inferior to Palearctic amphipods in dealing with HS-mediated stress. In this study, two key mechanisms of general stress response were examined: heat-shock protein 70 (HSP70) and multixenobiotic resistance-associated transporters (ABCB1). The results of quantitative polymerase chain reaction (qPCR) showed that the basal levels (in 3-day acclimated animals) of hsp70 and abcb1 transcripts were lower in Baikalian species ( Eulimnogammarus cyaneus, Eulimnogammarus verrucosus, Eulimnogammarus vittatus-the most typical littoral species) than in the Palearctic amphipod ( Gammarus lacustris-the only Palearctic species distributed in the Baikalian region). In the amphipods, the stress response was induced using HSs at 10 mg L dissolved organic carbon, which was higher than in sampling sites of the studied species, but well within the range (3-10 mg L) in the surrounding water bodies populated by G. lacustris. The results of qPCR and western blotting ( n = 5) showed that HS exposure led to increased hsp70/ abcb1 transcripts and HSP70 protein levels in G. lacustris, whereas these transcript levels remained constant or decreased in the Baikalian species. The decreased level of stress transcripts is probably not able to confer an effective tolerance to Baikalian species against further environmental stressors in conditions with elevated HS levels. Thus, our results suggest a greater robustness of Palearctic amphipods and a higher sensitivity of Baikalian amphipods to HS challenge, which might prevent most endemic species from migrating to habitats outside Lake Baikal. [ABSTRACT FROM AUTHOR]

Published

2014

7. Cyanobacterial Xenobiotics as Evaluated by a Caenorhabditis elegans Neurotoxicity Screening Test.

Author

Jingjuan Ju, Saul, Nadine, Kochan, Cindy, Putschew, Anke, Yuepu Pu, Lihong Yin, and Steinberg, Christian E. W.

Published

2014

8. Toxicity of hydroquinone to different freshwater phototrophs is influenced by time of exposure and pH.

Author

Bährs, Hanno, Putschew, Anke, and Steinberg, Christian

Subjects

HYDROQUINONE, FRESH water, PH effect, ORGANIC compounds & the environment, PHENOLS & the environment, POLYMERIZATION, CYANOBACTERIAL blooms, ALGAL blooms

Abstract

The interaction of natural organic matter with phytoplankton communities in freshwater ecosystems is an intensively studied subject matter. Previous studies showed that apparently plant-derived phenols were able to inhibit algal and cyanobacterial growth. Furthermore, it was also assumed that humic substances (HS), which comprise the major part of dissolved organic carbon in freshwater ecosystems, directly interact with freshwater phototrophs. For example, quinoid building blocks of HS were thought to be algicidal. To identify key environmental variable for the toxic action of potential quinone algicides, we tested the toxicity of hydroquinone (HQ) to different eukaryotic and prokaryotic freshwater phototrophs in terms of growth performance and investigated also the effect of HQ oxidation at different pH values on its algicidal potential. It was shown that cyanobacterial species were much more susceptible to hydroquinone than coccal green algal species were, with Microcystis aeruginosa being the most sensitive species by far. In addition, it was obvious that the aging of hydroquinone-stock solution at pH 11 led to polymerization and, by this process, to a total loss of toxicity; whereas the algicidal potential sustained if the polyphenol was kept at pH 7. Since most lakes with heavy blooms of phototrophs possess pH values clearly above 7.0, it is questionable, if polyphenols in general and quinones in particular are the effective chemicals and if litter and straw leachates are applied as means to combat algal and cyanobacterial blooms. [ABSTRACT FROM AUTHOR]

Published

2013

9. Selective detection of unknown organic bromine compounds and quantification potentiality by negative-ion electrospray ionization mass spectrometry with induced in-source fragmentation.

Author

Hütteroth, Alexandra, Putschew, Anke, and Jekel, Martin

Subjects

BROMINE compounds, ORGANOHALOGEN compounds, LIQUID chromatography, MASS spectrometry, ELECTROSPRAY ionization mass spectrometry, BROMINE, ANIONS, INTERMEDIATES (Chemistry), FIELD-flow fractionation

Abstract

For the detection of unknown organic bromine compounds, a liquid chromatography-mass spectrometry (LC-MS) method with negative-ion electrospray ionization (NI-ESI) and induced in-source fragmentation (IISF) was established. After LC separation, the molecules are fragmentized in the source, and bromide is detected via m/z 79 and m/z 81 based on the isotopic occurrence of bromine. In this way, the retention times of the unknown organobromine compounds are determined, and this can be used to extract additional structural information (number of bound bromine atoms, molecular mass and fragmentation scheme) from measurements in the commonly used but less sensitive scan mode. The analysis of known organobromine compounds shows that LC/NI-ESI-IISF mass spectrometry with detection of m/z 79 and 81 is more sensitive than the detection of daughter ions (LC/ESI/MS-MS). Therefore, we present a method not only for the detection of unknown organic bromine compounds, but also for the selective and sensitive detection and quantification of known organobromine compounds. [ABSTRACT FROM AUTHOR]

Published

2007

10. Differentiation of the halogen content of peat samples using ion chromatography after combustion (TX/TOX-IC).

Author

Putschew, Anke, Keppler, Frank, and Jekel, Martin

Subjects

HALOGENS, PEAT, CHROMATOGRAPHIC analysis, COMBUSTION, CHLORINE, ANALYTICAL chemistry, HALIDES

Abstract

The proposed method for the differential AOX analysis of water samples was tested for its applicability to differentiate the halogen content of peat samples. For determination of the total and the total organic-bound chlorine, bromine and iodine, peat samples were combusted, and the combustion gases trapped and analyzed by ion chromatography (TX/TOX-IC). The total and the organically bound chlorine, bromine and iodine, respectively, can be determined by two-fold analysis with deviations of around 10%. With respect to chlorine more than a double determination could be required. The limit of quantification is 20 mg kg-1 for chlorine, 2 mg kg-1 for bromine and 1 mg kg-1 for iodine, if 25 mg of peat is combusted. The most crucial step of the analysis is the inorganic halogen removal, which is necessary if the organically bound fraction is determined. However, there are some uncertainties about the complete removal of the inorganic halides from the solid samples. Thus, the values of the organically bound fraction have to be discussed as maximal concentrations. Nevertheless, we suggest that the applied method can be useful as a tool for studying the fate of halogens in soils. [ABSTRACT FROM AUTHOR]

Published

2003

11. Effects of invasive ecosystem engineers on the fate of trace organic pollutants during bank filtration.

Author

Kronsbein, Anna Lena, Wegner, Benjamin, Gillefalk, Mikael, Putschew, Anke, Hellweger, Ferdi Leberecht, Schmidt, Torsten C., Lewandowski, Jörg, and Hilt, Sabine

Published

2019

12. Fate of trace organics and their metabolites in an urban stream in South Australia.

Author

Schaper, Jonas L., Shanafield, Margaret A., Banks, Eddie W., Höhne, Anja, Posselt, Malte, Putschew, Anke, and Lewandowski, Jörg

Published

2018