Abstract
The presence of both microplastics and per- and polyfluoroalkyl substances (PFAS) is ubiquitous in the environment. The ecological impacts associated with their presence are still poorly understood, however, these contaminants are extremely persistent. Although plastic in the environment can concentrate pollutants, factors such as the type of plastic and duration of environmental exposure as it relates to the degree of adsorption have received far less attention. To address these knowledge gaps, experiments were carried out that examined the interactions of PFAS and microplastics in the field and in a controlled environment. For field experiments, we measured the abundance of PFAS on different polymer types of microplastics that were deployed in a lake for 1 month and 3 months. Based on these results, a controlled experiment was conducted to assess the adsorption properties of microplastics in the absence of associated inorganic and organic matter. The adsorption of PFAS was much greater on the field-incubated plastic than what was observed in the laboratory with plastic and water alone, 24 to 259 times versus one-seventh to one-fourth times background levels. These results suggest that adsorption of PFAS by microplastics is greatly enhanced by the presence of inorganic and/or organic matter associated with these materials in the environment, and could present an environmental hazard for aquatic biota.
Highlights
Per- and polyfluoroalkyl substances (PFAS) have received considerable attention from the scientific community and regulatory agencies
Primary microplastics can enter the environment through the loss of pre-production plastic pellets during manufacturing or transport, and more recently, wastewater effluent has been identified as a source of microbeads originating from cosmetic products and microfibers shed from clothing and textile laundering [9,10]
We examined the abundance of seven common Polyfluoroalkyl Substances (PFAS) on three different polymer types of microplastics that were deployed in a lake over a time period of 1 and 3 months
Summary
Per- and polyfluoroalkyl substances (PFAS) have received considerable attention from the scientific community and regulatory agencies. Bioaccumulation of legacy PFAS that was released into the environment has been observed in organisms at various trophic levels, such as phytoplankton, fish, porpoise, and polar bears [4,5,6,7]. Large knowledge gaps exist regarding bioavailability, bioaccumulation, and biotransformation of legacy and residual PFAS, in lower-trophic level freshwater organisms, which may influence PFAS exposure to humans via fish-based consumption. Plastic in the environment is persistent, and rather than biodegrade, macroplastics (≥5 mm) erode into microplastics (
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