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Article ? AI-assigned paper type based on the abstract. Classification may not be perfect — flag errors using the feedback button. Tier 2 ? Original research — experimental, observational, or case-control study. Direct primary evidence. Detection Methods Environmental Sources Marine & Wildlife Sign in to save

Comparison of μ-ATR-FTIR spectroscopy and py-GCMS as identification tools for microplastic particles and fibers isolated from river sediments

Analytical and Bioanalytical Chemistry 2018 286 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 45 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.
Marten Fischer, Dieter Fischer, Dieter Fischer, Sonja Oberbeckmann, Sonja Oberbeckmann, Sonja Oberbeckmann, Sonja Oberbeckmann, Sonja Oberbeckmann, Sonja Oberbeckmann, Sonja Oberbeckmann, Sonja Oberbeckmann, Sonja Oberbeckmann, Matthias Labrenz, Barbara M. Scholz‐Böttcher Andrea Käppler, Andrea Käppler, Andrea Käppler, Andrea Käppler, Andrea Käppler, Andrea Käppler, Marten Fischer, Marten Fischer, Marten Fischer, Marten Fischer, Marten Fischer, Dieter Fischer, Marten Fischer, Marten Fischer, Matthias Labrenz, Marten Fischer, Matthias Labrenz, Marten Fischer, Dieter Fischer, Marten Fischer, Andrea Käppler, Marten Fischer, Matthias Labrenz, Barbara M. Scholz‐Böttcher Sonja Oberbeckmann, Andrea Käppler, Sonja Oberbeckmann, Dieter Fischer, Marten Fischer, Marten Fischer, Sonja Oberbeckmann, Andrea Käppler, Sonja Oberbeckmann, Marten Fischer, Andrea Käppler, Marten Fischer, Matthias Labrenz, Barbara M. Scholz‐Böttcher Barbara M. Scholz‐Böttcher Marten Fischer, Matthias Labrenz, Matthias Labrenz, Matthias Labrenz, Matthias Labrenz, Barbara M. Scholz‐Böttcher Sonja Oberbeckmann, Matthias Labrenz, Sonja Oberbeckmann, Matthias Labrenz, Matthias Labrenz, Barbara M. Scholz‐Böttcher Matthias Labrenz, Dieter Fischer, Dieter Fischer, Barbara M. Scholz‐Böttcher Dieter Fischer, Dieter Fischer, Barbara M. Scholz‐Böttcher Barbara M. Scholz‐Böttcher Dieter Fischer, Barbara M. Scholz‐Böttcher Barbara M. Scholz‐Böttcher Matthias Labrenz, Barbara M. Scholz‐Böttcher Barbara M. Scholz‐Böttcher Sonja Oberbeckmann, Barbara M. Scholz‐Böttcher Barbara M. Scholz‐Böttcher Matthias Labrenz, Barbara M. Scholz‐Böttcher Matthias Labrenz, Barbara M. Scholz‐Böttcher Barbara M. Scholz‐Böttcher Matthias Labrenz, Barbara M. Scholz‐Böttcher Matthias Labrenz, Sonja Oberbeckmann, Barbara M. Scholz‐Böttcher Dieter Fischer, Sonja Oberbeckmann, Sonja Oberbeckmann, Dieter Fischer, Dieter Fischer, Dieter Fischer, Sonja Oberbeckmann, Sonja Oberbeckmann, Dieter Fischer, Marten Fischer, Barbara M. Scholz‐Böttcher Marten Fischer, Matthias Labrenz, Barbara M. Scholz‐Böttcher Matthias Labrenz, Barbara M. Scholz‐Böttcher Matthias Labrenz, Matthias Labrenz, Matthias Labrenz, Matthias Labrenz, Matthias Labrenz, Matthias Labrenz, Matthias Labrenz, Matthias Labrenz, Barbara M. Scholz‐Böttcher Barbara M. Scholz‐Böttcher Barbara M. Scholz‐Böttcher Barbara M. Scholz‐Böttcher Barbara M. Scholz‐Böttcher Sonja Oberbeckmann, Sonja Oberbeckmann, Sonja Oberbeckmann, Dieter Fischer, Dieter Fischer, Dieter Fischer, Dieter Fischer, Dieter Fischer, Dieter Fischer, Dieter Fischer, Dieter Fischer, Matthias Labrenz, Dieter Fischer, Matthias Labrenz, Klaus‐Jochen Eichhorn, Sonja Oberbeckmann, Matthias Labrenz, Matthias Labrenz, Matthias Labrenz, Matthias Labrenz, Sonja Oberbeckmann, Dieter Fischer, Matthias Labrenz, Matthias Labrenz, Marten Fischer, Sonja Oberbeckmann, Barbara M. Scholz‐Böttcher Matthias Labrenz, Dieter Fischer, Matthias Labrenz, Dieter Fischer, Dieter Fischer, Dieter Fischer, Matthias Labrenz, Dieter Fischer, Barbara M. Scholz‐Böttcher Barbara M. Scholz‐Böttcher Barbara M. Scholz‐Böttcher Klaus‐Jochen Eichhorn, Dieter Fischer, Dieter Fischer, Dieter Fischer, Klaus‐Jochen Eichhorn, Sonja Oberbeckmann, Klaus‐Jochen Eichhorn, Sonja Oberbeckmann, Klaus‐Jochen Eichhorn, Matthias Labrenz, Brigitte Voit, Dieter Fischer, Dieter Fischer, Dieter Fischer, Barbara M. Scholz‐Böttcher Dieter Fischer, Matthias Labrenz, Matthias Labrenz, Matthias Labrenz, Matthias Labrenz, Klaus‐Jochen Eichhorn, Klaus‐Jochen Eichhorn, Barbara M. Scholz‐Böttcher Klaus‐Jochen Eichhorn, Matthias Labrenz, Barbara M. Scholz‐Böttcher Sonja Oberbeckmann, Barbara M. Scholz‐Böttcher Sonja Oberbeckmann, Barbara M. Scholz‐Böttcher Brigitte Voit, Matthias Labrenz, Matthias Labrenz, Brigitte Voit, Dieter Fischer, Brigitte Voit, Dieter Fischer, Matthias Labrenz, Matthias Labrenz, Sonja Oberbeckmann, Sonja Oberbeckmann, Sonja Oberbeckmann, Barbara M. Scholz‐Böttcher Matthias Labrenz, Klaus‐Jochen Eichhorn, Barbara M. Scholz‐Böttcher Dieter Fischer, Matthias Labrenz, Matthias Labrenz, Matthias Labrenz, Barbara M. Scholz‐Böttcher Barbara M. Scholz‐Böttcher Barbara M. Scholz‐Böttcher Andrea Käppler, Andrea Käppler, Matthias Labrenz, Dieter Fischer, Matthias Labrenz, Barbara M. Scholz‐Böttcher Matthias Labrenz, Matthias Labrenz, Sonja Oberbeckmann, Matthias Labrenz, Sonja Oberbeckmann, Sonja Oberbeckmann, Sonja Oberbeckmann, Matthias Labrenz, Sonja Oberbeckmann, Sonja Oberbeckmann, Sonja Oberbeckmann, Barbara M. Scholz‐Böttcher Barbara M. Scholz‐Böttcher Barbara M. Scholz‐Böttcher Barbara M. Scholz‐Böttcher Sonja Oberbeckmann, Marten Fischer, Barbara M. Scholz‐Böttcher Barbara M. Scholz‐Böttcher Brigitte Voit, Barbara M. Scholz‐Böttcher

Summary

Researchers compared two identification methods — micro-ATR-FTIR spectroscopy and pyrolysis-GC-MS — for characterizing microplastics extracted from river sediments, finding that the methods generally agreed on dominant polymers but differed in sensitivity to certain types. The comparison provides practical guidance for choosing analytical methods in freshwater microplastic monitoring programs.

Study Type Environmental

In recent years, many studies on the analysis of microplastics (MP) in environmental samples have been published. These studies are hardly comparable due to different sampling, sample preparation, as well as identification and quantification techniques. Here, MP identification is one of the crucial pitfalls. Visual identification approaches using morphological criteria alone often lead to significant errors, being especially true for MP fibers. Reliable, chemical structure-based identification methods are indispensable. In this context, the frequently used vibrational spectroscopic techniques but also thermoanalytical methods are established. However, no critical comparison of these fundamentally different approaches has ever been carried out with regard to analyzing MP in environmental samples. In this blind study, we investigated 27 single MP particles and fibers of unknown material isolated from river sediments. Successively micro-attenuated total reflection Fourier transform infrared spectroscopy (μ-ATR-FTIR) and pyrolysis gas chromatography-mass spectrometry (py-GCMS) in combination with thermochemolysis were applied. Both methods differentiated between plastic vs. non-plastic in the same way in 26 cases, with 19 particles and fibers (22 after re-evaluation) identified as the same polymer type. To illustrate the different approaches and emphasize the complementarity of their information content, we exemplarily provide a detailed comparison of four particles and three fibers and a critical discussion of advantages and disadvantages of both methods.

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