URN zum Zitieren der Version auf EPub Bayreuth: urn:nbn:de:bvb:703-epub-7994-7
Titelangaben
Kernchen, Sarmite ; Schmalz, Holger ; Löder, Martin G. J. ; Georgi, Christoph ; Einhorn, Andrej ; Greiner, Andreas ; Nölscher, Anke C. ; Laforsch, Christian ; Held, Andreas:
Atmospheric deposition studies of microplastics in Central Germany.
In: Air Quality, Atmosphere & Health.
(2024)
.
ISSN 1873-9326
DOI der Verlagsversion: https://doi.org/10.1007/s11869-024-01571-w
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Angaben zu Projekten
Projekttitel: |
Offizieller Projekttitel Projekt-ID SFB1357 Mikroplastik Ohne Angabe |
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Projektfinanzierung: |
Deutsche Forschungsgemeinschaft |
Abstract
Emission of microplastics (MP) to the atmosphere, airborne transport, and subsequent deposition are now recognized. However, the temporal and spatial resolution of data on MP pollution and knowledge of their atmospheric behaviour and fate is still very limited. Hence, we investigated MP wet and dry deposition in Central Germany and examined the role of weather conditions on MP contamination levels. Monthly samples of dry and wet deposition were taken over an eight-month period (05/2019-12/2019) and analysed by micro-Fourier-Transform Infrared spectroscopy (µFTIR) down to 11 μm particle size and one dry deposition sample was subjected to Raman analysis to determine plastic particles down to a size of 0.5 μm. MP in a size range from 11 μm to 130 μm were detected in all wet deposition samples and in 4 out of 8 dry deposition samples by µFTIR. Polypropylene particles were found most frequently and accounted for 62% and 54% of all particles in wet and dry deposition samples, respectively. Over the eight-month period, wet deposition of MP slightly dominated at the study site and comprised 59% of the total MP deposition. The MP mean total (wet + dry) deposition flux (DF) was 17 ± 14 MP m− 2 day− 1. Extensive Raman analyses of an exemplary dry deposition sample revealed additional plastic particles in the extended size range from 1 to 10 μm resulting in a deposition flux of 207 MP m− 2 day− 1. Our results suggest that MP analysis by µFTIR down to 11 μm may underestimate DF at least by an order of magnitude. More comprehensive studies on submicron plastics and nanoplastics are needed to fully assess air pollution by plastic particles.