Abstract
Wastewater treatment systems collect and treat sewage that includes microplastics (MPs). However, we are not aware of any studies on the occurrence and distribution of MPs in wastewater stabilization ponds (WSPs), which serve small communities worldwide. Here, we characterized MPs (~45 µm–5 mm) in an aerated WSP serving ~500 houses and an adjacent lake. Putative MPs were most abundant in duckweed (Lemna minor) and sludge (75 ± 22 and 12.8 ± 3.1 particles/g, respectively: ±1 standard deviation (SD), n = 6, dry weight). In the water, average concentrations (particles/L ± 1 SD, n = 6) were highest in the pond (4.1 ± 0.6), followed by effluent (3.9 ± 0.5) and the lake (2.6 ± 0.6). Over 20 types of MPs were identified in each different compartment, with the distribution varying somewhat between the water, sludge, and duckweed. Polyester and polyethylene were the predominant types, followed by polyethylene terephthalate, polyacrylate, polyvinyl chloride, polystyrene, and others. Morphologies consisted of fibers (62–71%), fragments (28–37%), and beads (1–6%). High-density polymers were more frequently found in sludge. Potential sources of the MPs include synthetic textiles from laundry and other plastics washed down household drains. Overall, with ~786,000 MPs/day released in the pond effluent and with duckweed a source of food for waterfowl, we demonstrate that WSPs can be point sources of MPs to both aquatic and terrestrial ecosystems and thus deserve further scrutiny.
Highlights
IntroductionMicroplastics (MPs), fibers, particles, or fragments of synthetic polymers between
We demonstrate the partitioning of MPs into different environmental and biological compartments within the wastewater stabilization ponds (WSPs) and show that the duckweed and sludge harbor the majority of the MPs
This study investigated MPs in a WSP serving a community of ~500 houses, as well as in an adjacent lake
Summary
Microplastics (MPs), fibers, particles, or fragments of synthetic polymers between. 1 μm and 5-mm in size, are pervasive in the natural environment [1,2]. Given their small size and ubiquity in water bodies, their ingestion and impact on both aquatic life and ecosystems is of great concern [3,4,5]. Primary MPs are manufactured small and include fibers, beads, and plastic pellets [6]. Secondary MPs are generated by fragmentations of larger plastic debris through physical, chemical, and biological effects, and are predominant in the environment [7,8]. A pair of jeans can release > 50,000 microfibers per wash [11], and microbeads, banned in some countries and the European Union, may still be on shelves and in use in people’s homes
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