Uptake and toxicity of methylmethacrylate-based nanoplastic particles in aquatic organisms

The uptake and toxicity of 2 poly(methylmethacrylate)‐based plastic nanoparticles (PNPs) with different surface chemistries (medium and hydrophobic) were assessed using aquatic organisms selected for their relevance based on the environmental behavior of the PNPs. Pure poly(methylmethacrylate) (medi...

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Bibliographic Details
Published in:Environmental toxicology and chemistry 2016-07, Vol.35 (7), p.1641-1649
Main Authors: Booth, Andy M., Hansen, Bjørn Henrik, Frenzel, Max, Johnsen, Heidi, Altin, Dag
Format: Article
Language:English
Subjects:
Aliivibrio fischeri - drug effects
Animals
Aquatic life
Aquatic organisms
Aquatic Organisms - drug effects
Aquatic Organisms - metabolism
Corophium volutator
Daphnia - drug effects
Daphnia magna
Dose-Response Relationship, Drug
Environmental behavior
Environmental Monitoring - methods
Methylmethacrylate - chemistry
Methylmethacrylate - metabolism
Methylmethacrylate - toxicity
Nanoparticles
Nanoparticles - chemistry
Nanoparticles - metabolism
Nanoparticles - toxicity
Particle Size
Plastic nanoparticle
Plastics
Sublethal effects
Toxicity
Toxicity Tests, Acute
Uptake
Vibrio fischeri
Water Pollutants, Chemical - chemistry
Water Pollutants, Chemical - metabolism
Water Pollutants, Chemical - toxicity
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Summary:The uptake and toxicity of 2 poly(methylmethacrylate)‐based plastic nanoparticles (PNPs) with different surface chemistries (medium and hydrophobic) were assessed using aquatic organisms selected for their relevance based on the environmental behavior of the PNPs. Pure poly(methylmethacrylate) (medium; PMMA PNPs) and poly(methylmethacrylate‐co‐stearylmethacrylate) copolymer (hydrophobic; PMMA–PSMA PNPs) of 86 nm to 125 nm were synthesized using a miniemulsion polymerization method. Fluorescent analogs of each PNP were also synthesized using monomer 7‐[4‐(trifluoromethyl)coumarin]acrylamide and studied. Daphnia magna, Corophium volutator, and Vibrio fischeri were employed in a series of standard acute ecotoxicity tests, being exposed to the PNPs at 3 different environmentally realistic concentrations (0.01 mg/L, 0.1 mg/L, and 1.0 mg/L) and a high concentration 500 mg/L to 1000 mg/L. In addition, sublethal effects of PNPs in C. volutator were determined using a sediment reburial test, and the uptake and depuration of fluorescent PNPs was studied in D. magna. The PNPs and fluorescent PNPs did not exhibit any observable toxicity at concentrations up to 500 mg/L to 1000 mg/L in any of the tests except for PMMA–PSMA PNPs and fluorescent PNPs following 48‐h exposure to D. magna (median lethal concentration values of 879 mg/L and 887 mg/L, respectively). No significant differences were observed between labeled and nonlabeled PNPs, indicating the suitability of using fluorescent labeling. Significant uptake and rapid excretion of the fluorescent PNPs was observed in D. magna. Environ Toxicol Chem 2016;35:1641–1649. © 2015 SETAC
ISSN:0730-7268
1552-8618
DOI:10.1002/etc.3076