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Influence of microplastic-associated biofilms on the bioavailability of a mixture of cadmium and benzo[a]pyrene by the analysis of biomarker gene expression in larval zebrafish
Di Natale, M.; Catarino, A.I.; Summers, S.; Boyle, D.; Torri, M.; Nicosia, A.; Musco, M.; Masullo, T.; Russo, S.; Bennici, C.D.; Mazzola, A.; Cuttitta, A.; Henry, T.B. (2023). Influence of microplastic-associated biofilms on the bioavailability of a mixture of cadmium and benzo[a]pyrene by the analysis of biomarker gene expression in larval zebrafish. Ecol. Indic. 152: 110369. https://dx.doi.org/10.1016/j.ecolind.2023.110369
In: Ecological Indicators. Elsevier: Shannon. ISSN 1470-160X; e-ISSN 1872-7034
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| Trefwoorden |
Danio rerio (Hamilton, 1822) [WoRMS]
Marien/Kust |
| Author keywords |
Microplastics; Biofilm; Contaminants; Mixture; Zebrafish; Sorption; Bioavailability |
| Auteurs | | Top |
- Di Natale, M.
- Catarino, A.I.
- Summers, S.
- Boyle, D.
- Torri, M.
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- Nicosia, A.
- Musco, M.
- Masullo, T.
- Russo, S.
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- Bennici, C.D.
- Mazzola, A.
- Cuttitta, A.
- Henry, T.B.
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| Abstract |
Microplastics (MPs, 1 µm – 5 mm) in aquatic environments undergo complex weathering transformations such as those induced by microbial colonization and biofilm formation, that affect their ability to interact with environmental contaminants (co-contaminants). In this study, the microbial composition of MP biofilms and its influence on the sorption and bioavailability of two co-contaminants with different physicochemistry, benzo[a]pyrene (B[a]P) and cadmium (Cd) in a mixture, were assessed. Aqueous-phase bioavailability was measured by assessment of biomarker gene expression for these toxicants (cytochrome P450 1A, cyp1a, and metallothionein 2, mt2, for B[a]P and Cd respectively) in larval zebrafish, Danio rerio. Significant induction of cyp1a and mt2 gene expression (p < 0.05) was observed after exposure to the mixture of Cd, B[a]P and MPs compared to joint exposure with individual contaminants and MPs. Significant changes in bioavailability for mt2 biomarker (p < 0.001) resulted after exposure to a Cd and B[a]P mixture with MPs compared to the same exposure without MPs. Biofilms significantly reduced bioavailability of B[a]P (cyp1a gene expression (p < 0.01)) but not Cd (mt2 gene expression) in the mixture with Cd and B[a]P (HDPE + BF + B[a]P + Cd) compared to the same treatment without biofilm (HDPE + B[a]P + Cd). Thus, compared to Cd, the biofilm could provide additional interactions with B[a]P, and new specific active sites on the MPs surface, that reduced B[a]P bioavailability. Additionally, the biofilm microbial community included hydrocarbon-degrading bacteria able to metabolize hydrophobic chemicals. These data indicated that in a mixture of co-contaminants, the biofilm selectively influenced their bioavailability and that the microbial composition of MPs biofilm may have played a key role in reducing B[a]P bioavailability. The results of this study highlight how in a complex exposure scenario characterized by a mixture of different co-contaminants, the polymer and chemical properties and micro-surroundings of the organisms may affect contaminants' bioavailability and/or exposure. |
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