Plastic and Microplastic in the Environment. Группа авторов

Plastic and Microplastic in the Environment - Группа авторов


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et al. 2017). Suspected MPs are stained with the NR solution and analyzed with a fluorescence microscope. This technique is inexpensive, can utilize available instruments, and can be semi‐automated for large amounts of sample analysis.

      1.4.3.2 Identification of Microplastics by Chemical Composition

       Pyrolysis‐GC/MS

      Pyrolysis‐gas‐chromatography/mass spectrometry (Pyr‐GC/MS) can be used to determine the polymer types and additives. In this method, the samples are combusted, and the thermal degradation products of the polymers are used to detect MPs (Fries et al. 2013). The pyrolysis results provide characteristic pyrograms of MPs samples that can be identified by comparing with reference pyrograms of known polymer types. Particles must be inserted in pyrolysis tubes manually, and the technique can analyze only one particle per run; thus the method is unable for analyzing large amounts of samples (Dris et al. 2018; Klein et al. 2018).

       Infrared Spectroscopy

      In contrast to research in marine environments, MPs in freshwater environments have received less attention, but in the last few years, research on MPs in freshwater are advancing. This helps to reveal the occurrence of MPs in freshwater environments of several continents.

      1.5.1 Microplastic in Lakes

      1.5.2 Microplastic in Rivers

Types Study location Sampling method Sample process and analysis Study finding References
Lake water Taihu Lake, China Plankton net: 333 μm H2O2 (30%); Visual, subset by micro‐FIR or SEM/EDS Max: 6.8 × 106 items/km2 Min: 0.1 × 106 items/km2 Su et al. (2016)
Lake Hovsgol, Mongolia Manta trawl: 333 μm Density separation (saltwater, 1.6 g/cm3), wet peroxide oxidation; Stereomicroscope (visual), subsample with DSC. Max: 44 400 items/km2 Mean: 20 264 items/km2 Free et al. (2014)
Lake Winnipeg, Canada Manta trawl: 333 μm Subsample, wet peroxide oxidation; Visual, subsample with SEM/EDX Max: 748 000 items/km2 Mean: 193000 items/km2 Anderson et al. (2017)
Great Lakes,USA Manta trawl: 333 μm Sieved, hydrochloric acid; Subsamples SEM/EDX Max: 466 000 items/km2 Mean: 43 000 items/km2 Eriksen et al. (2013)
Lake Bolsena, Italy Manta trawl: 300 μm Sieved, density separation (NaCl, 1.2 g/cm3), HCl digestion, NR staining. Fluorescence microscopy, SEM. Max: 4.42 particles/m3 Min: 0.82 particles/m3 (Fischer et al. 2016)
Lake Geneva, Switzerland Manta trawl: 333 μm Sieved, wet peroxide oxidation; Stereomicroscope (visual), subsample with ATR‐FTIR Mean: 220 000 items/km2
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