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Salt marshes as the final watershed fate for meso- and microplastic contamination: A case study from Southern Brazil
Plastics pose a major threat to aquatic ecosystems especially in smaller size fractions. Salt marshes play a crucial role in maintaining the coastal zone and aquatic food web, yet their contamination, including by plastic materials, is still poorly investigated. This work investigated meso- (MEP, 5–...
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Published in: | The Science of the total environment 2022-09, Vol.838 (Pt 2), p.156077-156077, Article 156077 |
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Main Authors: | , , , , , , |
Format: | Article |
Language: | English |
Subjects: | |
Citations: | Items that this one cites Items that cite this one |
Online Access: | Get full text |
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Summary: | Plastics pose a major threat to aquatic ecosystems especially in smaller size fractions. Salt marshes play a crucial role in maintaining the coastal zone and aquatic food web, yet their contamination, including by plastic materials, is still poorly investigated. This work investigated meso- (MEP, 5–25 mm) and microplastic (MIP, 1 μm–5 mm) contamination of a salt marsh, which reached average levels of 279.63 ± 410.12 items kg−1, 366.92 ± 975.18 items kg−1, and 8.89 ± 8.75 items L−1 in surface sediment, sediment cores and water, respectively. Photomicrographs revealed a complex fouling community on plastics surface for both different salt marsh zones and plastic formats. Abundance of plastics in sediment was higher in the dryer, vegetated zones compared to flooded, unvegetated zones. This is consistent with the role of vegetation as a trap for solid litter and final fate of plastic deposition, but also with local hydrodynamics influencing deposition pattern. Plastics were detected up to 66 cm-depth, presenting higher levels at surface sediments. It was also possible to identify the main groups of microorganisms (1638 bacterial cells, 318 microalgae cells, and 20049.93 μm2 of filamentous fungi) composing the Plastisphere communities on all plastic items recorded in the different zones. These results are a pioneer contribution, highlighting that regional salt marshes participate in sequestration and longstanding accumulation of plastic particles in estuarine environments, before exportation to the ocean.
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•Salt marshes are transitional biotopes heavily contaminated by meso/microplastics.•Microplastic abundance reached 1123.16 items kg−1 in sediment surface.•Sediment mixing processes promote microplastic contamination within deep layers.•Plastic sequestration was modulated by vegetation, flooding rate and marsh zonation.•A diverse Plastisphere in salt marsh was composed by bacteria, microalgae and fungi. |
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ISSN: | 0048-9697 1879-1026 |
DOI: | 10.1016/j.scitotenv.2022.156077 |