Article
?
AI-assigned paper type based on the abstract. Classification may not be perfect — flag errors using the feedback button.
Tier 2
?
Original research — experimental, observational, or case-control study. Direct primary evidence.
Human Health Effects
Nanoplastics
Sign in to save
Molecular, biochemical and behavioral responses of Daphnia magna under long-term exposure to polystyrene nanoplastics
Environment International2022
77 citations
?
Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count.
Score: 55
?
0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.
Beatrice De Felice,
Beatrice De Felice,
Marco Parolini,
Marco Parolini,
Marco Parolini,
Marco Parolini,
Marco Parolini,
Marco Parolini,
Marco Parolini,
Marco Parolini,
Marco Parolini,
Marco Parolini,
Marco Parolini,
Marco Parolini,
Michela Sugni
Beatrice De Felice,
Beatrice De Felice,
Beatrice De Felice,
Beatrice De Felice,
Beatrice De Felice,
Beatrice De Felice,
Beatrice De Felice,
Beatrice De Felice,
Beatrice De Felice,
Beatrice De Felice,
Beatrice De Felice,
Beatrice De Felice,
Beatrice De Felice,
Beatrice De Felice,
Beatrice De Felice,
Beatrice De Felice,
Michela Sugni
Beatrice De Felice,
Beatrice De Felice,
Beatrice De Felice,
Beatrice De Felice,
Marco Parolini,
Marco Parolini,
Beatrice De Felice,
Marco Parolini,
Marco Parolini,
Marco Parolini,
Marco Parolini,
Marco Parolini,
Marco Parolini,
Marco Parolini,
Beatrice De Felice,
Beatrice De Felice,
Beatrice De Felice,
Marco Parolini,
Marco Parolini,
Marco Parolini,
Beatrice De Felice,
Marco Parolini,
Beatrice De Felice,
Beatrice De Felice,
Beatrice De Felice,
Beatrice De Felice,
Beatrice De Felice,
Beatrice De Felice,
Beatrice De Felice,
Beatrice De Felice,
Beatrice De Felice,
Beatrice De Felice,
Lavinia Casati,
Beatrice De Felice,
Michela Sugni
Beatrice De Felice,
Beatrice De Felice,
Marco Parolini,
Michela Sugni
Marco Parolini,
Marco Parolini,
Michela Sugni
Marco Parolini,
Marco Parolini,
Beatrice De Felice,
Marco Parolini,
Marco Parolini,
Marco Parolini,
Lavinia Casati,
Beatrice De Felice,
Michela Sugni
Michela Sugni
Lavinia Casati,
Beatrice De Felice,
Marco Parolini,
Lavinia Casati,
Marco Parolini,
Marco Parolini,
Marco Parolini,
Marco Parolini,
Michela Sugni
Marco Parolini,
Marco Parolini,
Marco Parolini,
Marco Parolini,
Beatrice De Felice,
Marco Parolini,
Marco Parolini,
Michela Sugni
Marco Parolini,
Marco Parolini,
Marco Parolini,
Marco Parolini,
Marco Parolini,
Beatrice De Felice,
Marco Parolini,
Michela Sugni
Michela Sugni
Michela Sugni
Marco Parolini,
Marco Parolini,
Marco Parolini,
Marco Parolini,
Marco Parolini,
Marco Parolini,
Beatrice De Felice,
Beatrice De Felice,
Beatrice De Felice,
Marco Parolini,
Marco Parolini,
Marco Parolini,
Lavinia Casati,
Lavinia Casati,
Marco Parolini,
Marco Parolini,
Marco Parolini,
Marco Parolini,
Michela Sugni
Summary
Researchers studied the long-term effects of polystyrene nanoplastics on the water flea Daphnia magna over a 21-day exposure period at environmentally relevant concentrations. The study found molecular, biochemical, and behavioral changes even at low concentrations, suggesting that chronic exposure to nanoplastics may have significant impacts on aquatic organisms that short-term studies might miss.
The presence and potential toxicity of nanoplastics (NPs) in aquatic ecosystems is an issue of growing concern. Although many studies have investigated the adverse effects of short-term exposure to high concentrations of NPs to aquatic organisms, the information on the consequences caused by the administration of low NPs concentrations over long-term exposure is limited. The present study aimed at investigating the effects induced by a long-term exposure (21-days) to two sub-lethal concentrations of polystyrene nanoplastics (PS-NPs; 0.05 and 0.5 µg/mL) on Daphnia magna. A multi-level approach was performed to assess potential sub-individual (i.e., molecular and biochemical) and individual (i.e., behavioural) adverse effects. At molecular level, the modulation of the expression of genes involved in antioxidant defence, response to stressful conditions and specific physiological pathways was investigated. Oxidative stress (i.e., the amount of pro-oxidants, the activity of antioxidant and detoxifying enzymes and lipid peroxidation) and energetic (i.e., protein, carbohydrate, lipid and total caloric content) biomarkers were applied to assess effects at the biochemical level, while swimming activity was measured to monitor changes in individual behavior. Although the 21-days exposure to PS-NPs induced a slight modulation of gene involved in oxidative stress response, biochemical analyses showed that D. magna individuals did not experience an oxidative stress condition. Significant changes in energy reserves of individuals exposed for 21 days to both the PS-NPs concentrations were observed, but no alterations of swimming activity occurred. Our results highlighted that the exposure to low concentrations of PS-NPs could pose a limited risk to D. magna individuals and suggested the importance of a multi-level approach to assess the risks of NPs on aquatic organisms.