Environmental consequences of plastic pollution have come under scrutiny over the past 20 years as stewardship of the biosphere has risen in popularity. Microplastic research has focused on fragmented particles from hard plastics with limited research focused on microfibers released from textiles, which constitute a significant portion of microplastics in aquatic environments. The present study investigated hazards associated with two natural microfibers (cotton and silk) and four synthetic microfibers (acrylonitrile, Kevlar, nylon, and polyester) towards Daphnia magna. Results demonstrated that toxicity is dependent on the polymer type and morphology. Natural microfibers had no significant effects on D. magna whereas nylon microfibers were acutely toxic. While the total number of microfibers in exposure chambers contributed to microfiber ingestion and toxicity, suspended microfibers were weakly correlated to microfiber ingestion and toxicity. Microfibers with smoother surfaces were more toxic than microfibers that were frayed. Toxicity was more strongly related to microfiber ingestion than exposure concentration, suggesting that microfiber uptake is an important measurement endpoint for characterizing effects. Research with longer exposure times and emphasis on endpoints other than survival, such as uptake and retention of microfibers, feeding rates, growth and development, and reproduction are needed to understand the ecotoxicity of microfibers.

Department of Biosystems Engineering College of Agriculture Auburn University Auburn AL USA

Department of Material Engineering Faculty of Textile Engineering Technical University of Liberec 461 17 Liberec Czech Republic

Institute for Nanomaterials Advanced Technologies and Innovation Technical University of Liberec Studentska 1402 2 Liberec Czechia

School of Fisheries Aquaculture and Aquatic Sciences College of Agriculture Auburn University Auburn AL USA

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Release of Microplastic Fibers from Polyester Knit Fleece during Abrasion, Washing, and Drying