This study provides a pilot investigation of the relationship between microplastic ingestion and the trophic ecology of three pelagic fish species (Engraulis encrasicolus, Scomber scombrus, and Trachurus trachurus) from Anzio coast, Tyrrhenian Sea (Western Mediterranean). Stable isotope analysis has been performed to determine the trophic position and the isotopic niche of the three species. Then, data on the occurrence, abundance, and diversity of ingested microplastics have been analyzed considering the observed foraging patterns. The detected differences in the estimated trophic position (E. encrasicolus = 3.08 ± 0.18; S. scombrus = 3.57 ± 0.21; T. trachurus = 4.07 ± 0.21), together with the absence of overlap in the isotopic niches confirm that the three examined species cover different ecological roles within the coastal-pelagic food web. Results from the analysis of ingested microplastics show that the trophic position has no remarkable effects on the incidence of microplastic ingestion, with no significant differences detected in terms of both frequency of occurrence and number of ingested microplastics per individual. However, differences among species emerge when considering the diversity of ingested microplastic types in terms of shape, size, color, and polymer composition. Species at higher trophic levels show to ingest a greater diversity of microplastics, resulting in a significant increase in the size of the ingested particles (median surface area: 0.011 mm2 in E. encrasicolus; 0.021 mm2 in S. scombrus; 0.036 mm2 in T. trachurus). The ingestion of larger microplastics appears to be driven by active selection mechanisms, likely stimulated by the similarity of these particles to natural or potential prey of both S. scombrus and T. trachurus. In this view, fish species with higher trophic positions seem to provide a more comprehensive description of microplastic ingestion events occurring in the study area, and therefore of the impact of microplastic contamination on the pelagic community.

Tracing the route. Using stable isotope analysis to understand microplastic pathways through the pelagic-neritic food web of the Tyrrhenian Sea (Western Mediterranean) / Valente, T.; Costantini, M. L.; Careddu, G.; Berto, D.; Piermarini, R.; Rampazzo, F.; Sbrana, A.; Silvestri, C.; Ventura, D.; Matiddi, M.. - In: SCIENCE OF THE TOTAL ENVIRONMENT. - ISSN 0048-9697. - 885:(2023), pp. 1-7. [10.1016/j.scitotenv.2023.163875]

Tracing the route. Using stable isotope analysis to understand microplastic pathways through the pelagic-neritic food web of the Tyrrhenian Sea (Western Mediterranean)

Valente T.
Primo
;
Costantini M. L.
Secondo
;
Careddu G.
;
Ventura D.;
2023

Abstract

This study provides a pilot investigation of the relationship between microplastic ingestion and the trophic ecology of three pelagic fish species (Engraulis encrasicolus, Scomber scombrus, and Trachurus trachurus) from Anzio coast, Tyrrhenian Sea (Western Mediterranean). Stable isotope analysis has been performed to determine the trophic position and the isotopic niche of the three species. Then, data on the occurrence, abundance, and diversity of ingested microplastics have been analyzed considering the observed foraging patterns. The detected differences in the estimated trophic position (E. encrasicolus = 3.08 ± 0.18; S. scombrus = 3.57 ± 0.21; T. trachurus = 4.07 ± 0.21), together with the absence of overlap in the isotopic niches confirm that the three examined species cover different ecological roles within the coastal-pelagic food web. Results from the analysis of ingested microplastics show that the trophic position has no remarkable effects on the incidence of microplastic ingestion, with no significant differences detected in terms of both frequency of occurrence and number of ingested microplastics per individual. However, differences among species emerge when considering the diversity of ingested microplastic types in terms of shape, size, color, and polymer composition. Species at higher trophic levels show to ingest a greater diversity of microplastics, resulting in a significant increase in the size of the ingested particles (median surface area: 0.011 mm2 in E. encrasicolus; 0.021 mm2 in S. scombrus; 0.036 mm2 in T. trachurus). The ingestion of larger microplastics appears to be driven by active selection mechanisms, likely stimulated by the similarity of these particles to natural or potential prey of both S. scombrus and T. trachurus. In this view, fish species with higher trophic positions seem to provide a more comprehensive description of microplastic ingestion events occurring in the study area, and therefore of the impact of microplastic contamination on the pelagic community.
2023
marine litter; microplastic ingestion; pelagic fish; trophic level; accidental ingestion; trophic transfer
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Tracing the route. Using stable isotope analysis to understand microplastic pathways through the pelagic-neritic food web of the Tyrrhenian Sea (Western Mediterranean) / Valente, T.; Costantini, M. L.; Careddu, G.; Berto, D.; Piermarini, R.; Rampazzo, F.; Sbrana, A.; Silvestri, C.; Ventura, D.; Matiddi, M.. - In: SCIENCE OF THE TOTAL ENVIRONMENT. - ISSN 0048-9697. - 885:(2023), pp. 1-7. [10.1016/j.scitotenv.2023.163875]
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11573/1688699
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