Microplastics in the Danube River Basin: A First Comprehensive Screening with a Harmonized Analytical Approach

In this study, carried out within the Joint Danube Survey 4, a comprehensive microplastic screening in the water column within a large European river basin from its source to estuary, including major tributaries, was realized. The objective was to develop principles of a systematic and practicable m...

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Published in:ACS ES&T water Vol. 2; no. 7; pp. 1174 - 1181
Main Authors: Kittner, Maria, Kerndorff, Alexander, Ricking, Mathias, Bednarz, Marius, Obermaier, Nathan, Lukas, Marcus, Asenova, Mina, Bordós, Gábor, Eisentraut, Paul, Hohenblum, Philipp, Hudcova, Hana, Humer, Franko, István, Tóth György, Kirchner, Michal, Marushevska, Olena, Nemejcová, Denisa, Oswald, Peter, Paunovic, Momir, Sengl, Manfred, Slobodnik, Jaroslav, Spanowsky, Karl, Tudorache, Madalina, Wagensonner, Helmut, Liska, Igor, Braun, Ulrike, Bannick, Claus G.
Format: Journal Article
Language:English
Published: American Chemical Society 08-07-2022
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Summary:In this study, carried out within the Joint Danube Survey 4, a comprehensive microplastic screening in the water column within a large European river basin from its source to estuary, including major tributaries, was realized. The objective was to develop principles of a systematic and practicable microplastic monitoring strategy using sedimentation boxes for collection of suspended particulate matter followed by its subsequent analysis using thermal extraction desorption-gas chromatography/mass spectrometry. In total, 18 sampling sites in the Danube River Basin were investigated. The obtained suspended particulate matter samples were subdivided into the fractions of >100 μm and <100 μm and subsequently analyzed for microplastic mass contents. The results showed that microplastics were detected in all samples, with polyethylene being the predominant polymer with maximum contents of 22.24 μg/mg, 3.23 μg/mg for polystyrene, 1.03 μg/mg for styrene-butadiene-rubber, and 0.45 μg/mg for polypropylene. Further, polymers such as different sorts of polyester, polyacrylates, polylactide, and natural rubber were not detected or below the detection limit. Additional investigations on possible interference of polyethylene signals by algae-derived fatty acids were assessed. In the context of targeted monitoring, repeated measurements provide more certainty in the interpretation of the results for the individual sites. Nevertheless, it can be stated that the chosen approach using an integrative sampling and determination of total plastic content proved to be successful.
ISSN:2690-0637
2690-0637
DOI:10.1021/acsestwater.1c00439