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Nanoplastics
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Sublethal effects induced by different plastic nano-sized particles in Daphnia magna at environmentally relevant concentrations
Environmental Pollution2023
10 citations
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Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count.
Score: 40
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0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.
Francesco Saliu,
Francesco Saliu,
Gabriella F. Schirinzi,
Gabriella F. Schirinzi,
Gabriella F. Schirinzi,
Francesco Saliu,
Gabriella F. Schirinzi,
Camilla Della Torre,
Gabriella F. Schirinzi,
Andrea Masseroni,
Francesco Saliu,
Jessica Ponti
Francesco Saliu,
Camilla Della Torre,
Gabriella F. Schirinzi,
Francesco Saliu,
Andrea Masseroni,
Andrea Masseroni,
Francesco Saliu,
Andrea Masseroni,
Francesco Saliu,
Francesco Saliu,
Alessandro Becchi,
Andrea Masseroni,
Camilla Della Torre,
Gabriella F. Schirinzi,
Gabriella F. Schirinzi,
Gabriella F. Schirinzi,
Francesco Saliu,
Francesco Saliu,
Francesco Saliu,
Alessandro Becchi,
Marco Fossati,
Marco Fossati,
Jessica Ponti
Jessica Ponti
Francesco Saliu,
Francesco Saliu,
Francesco Saliu,
Francesco Saliu,
Camilla Della Torre,
Francesco Saliu,
Camilla Della Torre,
Francesco Saliu,
Francesco Saliu,
Francesco Saliu,
Francesco Saliu,
Camilla Della Torre,
Gabriella F. Schirinzi,
Sara Villa,
Alessandro Becchi,
Andrea Masseroni,
Alessandro Becchi,
Alessandro Becchi,
Jessica Ponti
Jessica Ponti
Jessica Ponti
Jessica Ponti
Sara Villa,
Francesco Saliu,
Alessandro Becchi,
Alessandro Becchi,
Gabriella F. Schirinzi,
Sara Villa,
Alessandro Becchi,
Gabriella F. Schirinzi,
Francesco Saliu,
Valentina Soler,
Francesco Saliu,
Alessandro Becchi,
Camilla Della Torre,
Sara Villa,
Valentina Soler,
Camilla Della Torre,
Camilla Della Torre,
Jessica Ponti
Camilla Della Torre,
Camilla Della Torre,
Camilla Della Torre,
Camilla Della Torre,
Gabriella F. Schirinzi,
Gabriella F. Schirinzi,
Francesco Saliu,
Gabriella F. Schirinzi,
Gabriella F. Schirinzi,
Camilla Della Torre,
Francesco Saliu,
Camilla Della Torre,
Camilla Della Torre,
Francesco Saliu,
Alessandro Becchi,
Alessandro Becchi,
Jessica Ponti
Jessica Ponti
Marco Fossati,
Alessandro Becchi,
Alessandro Becchi,
Francesco Saliu,
Alessandro Becchi,
Jessica Ponti
Jessica Ponti
Camilla Della Torre,
Francesco Saliu,
Gabriella F. Schirinzi,
Francesco Saliu,
Camilla Della Torre,
Jessica Ponti
Francesco Saliu,
Valentina Soler,
Francesco Saliu,
Valentina Soler,
Camilla Della Torre,
Gabriella F. Schirinzi,
Camilla Della Torre,
Francesco Saliu,
Jessica Ponti
Maddalena Collini,
Camilla Della Torre,
Jessica Ponti
Francesco Saliu,
Francesco Saliu,
Sara Villa,
Camilla Della Torre,
Jessica Ponti
Summary
Researchers tested whether nanoplastics made from three different plastics — polystyrene, polyethylene, and polyvinyl chloride (PVC) — harm tiny water fleas called Daphnia magna at environmentally realistic concentrations, finding that PVC nanoplastics caused the most damage to both cellular health and swimming behavior. This suggests that studies focused only on polystyrene nanoplastics may be underestimating the true hazard of nanoplastic pollution.
A growing number of studies have reported the toxic effects of nanoplastics (NPs) on organisms. However, the focus of these studies has almost exclusively been on the use of polystyrene (PS) nanospheres. Herein, we aim to evaluate the sublethal effects on Daphnia magna juveniles of three different NP polymers: PS-NPs with an average size of 200 nm, polyethylene [PE] NPs and polyvinyl chloride [PVC] NPs with a size distribution between 50 and 350 nm and a comparable mean size. For each polymer, five environmentally relevant concentrations were tested (from 2.5 to 250 μg/L) for an exposure time of 48 h. NP effects were assessed at the biochemical level by investigating the amount of reactive oxygen species (ROS) and the activity of the antioxidant enzyme catalase (CAT) and at the behavioral level by evaluating the swimming behavior (distance moved). Our results highlight that exposure to PVC-NPs can have sublethal effects on Daphnia magna at the biochemical and behavioral levels. The potential role of particle size on the measured effects cannot be excluded as PVC and PE showed a wider size range distribution than PS, with particles displaying sizes from 50 to 350 nm. However, we infer that the chemical structure of PVC, which differs from that of PE of the same range size, concurs to explain the observed effects. Consequently, as PS seems not to be the most hazardous polymer, we suggest that the use of data on PS toxicity alone can lead to an underestimation of NP hazards.