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Microplastics in the crustaceans Nephrops norvegicus and Aristeus antennatus: Flagship species for deep-sea environments?
Environmental Pollution2019
139 citations
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Score: 40
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Claudia Dessì,
Francesco Regoli
Carlo Giacomo Avio,
Alessandro Cau,
Alessandro Cau,
Francesco Regoli
Francesco Regoli
Alessandro Cau,
Alessandro Cau,
Alessandro Cau,
Alessandro Cau,
Alessandro Cau,
Claudia Dessì,
Carlo Giacomo Avio,
Carlo Giacomo Avio,
Carlo Giacomo Avio,
Carlo Giacomo Avio,
Carlo Giacomo Avio,
Carlo Giacomo Avio,
Carlo Giacomo Avio,
Carlo Giacomo Avio,
Carlo Giacomo Avio,
Carlo Giacomo Avio,
Francesco Regoli
Carlo Giacomo Avio,
Carlo Giacomo Avio,
Carlo Giacomo Avio,
Carlo Giacomo Avio,
Carlo Giacomo Avio,
Carlo Giacomo Avio,
Carlo Giacomo Avio,
Carlo Giacomo Avio,
Carlo Giacomo Avio,
Carlo Giacomo Avio,
Alessandro Cau,
Alessandro Cau,
Alessandro Cau,
Davide Moccia,
Alessandro Cau,
Alessandro Cau,
Alessandro Cau,
Carlo Giacomo Avio,
Claudia Dessì,
Francesco Regoli
Claudia Dessì,
Claudia Dessì,
Alessandro Cau,
Alessandro Cau,
Francesco Regoli
Francesco Regoli
Francesco Regoli
Francesco Regoli
Francesco Regoli
Francesco Regoli
Antonio Pusceddu,
Carlo Giacomo Avio,
Carlo Giacomo Avio,
Carlo Giacomo Avio,
Carlo Giacomo Avio,
Antonio Pusceddu,
Francesco Regoli
Antonio Pusceddu,
Carlo Giacomo Avio,
Maria Cristina Follesa,
Francesco Regoli
Carlo Giacomo Avio,
Maria Cristina Follesa,
Francesco Regoli
Francesco Regoli
Davide Moccia,
Maria Cristina Follesa,
Maria Cristina Follesa,
Maria Cristina Follesa,
Francesco Regoli
Francesco Regoli
Francesco Regoli
Francesco Regoli
Francesco Regoli
Francesco Regoli
Francesco Regoli
Francesco Regoli
Alessandro Cau,
Francesco Regoli
Francesco Regoli
Maria Cristina Follesa,
Francesco Regoli
Alessandro Cau,
Francesco Regoli
Francesco Regoli
Davide Moccia,
Maria Cristina Follesa,
Alessandro Cau,
Alessandro Cau,
Maria Cristina Follesa,
Antonio Pusceddu,
Alessandro Cau,
Davide Moccia,
Davide Moccia,
Francesco Regoli
Francesco Regoli
Francesco Regoli
Francesco Regoli
Francesco Regoli
Francesco Regoli
Francesco Regoli
Francesco Regoli
Francesco Regoli
Francesco Regoli
Francesco Regoli
Francesco Regoli
Alessandro Cau,
Francesco Regoli
Carlo Giacomo Avio,
Francesco Regoli
Francesco Regoli
Francesco Regoli
Francesco Regoli
Antonio Pusceddu,
Antonio Pusceddu,
Francesco Regoli
Francesco Regoli
Francesco Regoli
Francesco Regoli
Antonio Pusceddu,
Francesco Regoli
Francesco Regoli
Francesco Regoli
Maria Cristina Follesa,
Francesco Regoli
Francesco Regoli
Antonio Pusceddu,
Maria Cristina Follesa,
Francesco Regoli
Francesco Regoli
Francesco Regoli
Alessandro Cau,
Francesco Regoli
Francesco Regoli
Francesco Regoli
Francesco Regoli
Francesco Regoli
Francesco Regoli
Alessandro Cau,
Francesco Regoli
Francesco Regoli
Francesco Regoli
Francesco Regoli
Francesco Regoli
Alessandro Cau,
Francesco Regoli
Francesco Regoli
Francesco Regoli
Carlo Giacomo Avio,
Francesco Regoli
Summary
Researchers found microplastics in 83% of Norwegian lobster (Nephrops norvegicus) and the majority of shrimp (Aristeus antennatus) collected from deep-sea sites around Sardinia at depths of 270-660 m, identifying over 2000 microplastic-like particles by μFT-IR, suggesting deep-sea crustaceans could serve as flagship indicators of microplastic contamination.
Ingestion of microplastics (MPs) has been documented in several marine organisms, but their occurrence in deep-sea species remains almost unknown. In this study, MPs were investigated in two economically and ecologically key crustaceans of the Mediterranean Sea, the Norwegian lobster Nephrops norvegicus and the shrimp Aristeus antennatus. Both the species were collected from 14 sites around Sardinia Island, at depths comprised between 270 and 660 m. A total of 89 and 63 stomachs were analysed for N. norvegicus and A. antennatus respectively, and more than 2000 MPs-like particles were extracted and sorted for identification and characterization by μFT-IR. In N. norvegicus, 83% of the specimens contained MPs, with an average abundance of 5.5 ± 0.8 MPs individual, while A. antennatus showed a lower frequency of ingestion (67%) and a lower mean number of MPs (1.66 ± 0.1 MPs individual). Composition and size of particles differed significantly between the two species. The non-selective feeding strategy of N. norvegicus could explain the 3-5 folds higher numbers of MPs in its stomach, which were mostly composed of films and fragments derived by polyethylene and polypropylene single-use plastic items. Contrarily, most MPs in the stomachs of A. antennatus were polyester filaments. The MPs abundance observed in N. norvegicus is among the highest detected in Mediterranean species considering both fish and invertebrates species, and provides novel insights on MPs bioavailability in deep-sea habitats. The overall results suggest that both N. norvegicus and A. antennatus, easily available in common fishery markets, could be valuable bioindicators and flagship species for plastic contamination in the deep-sea.