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Environmental Sources
Gut & Microbiome
Marine & Wildlife
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Trophic niche influences ingestion of micro- and mesoplastics in pelagic and demersal fish from the Western Mediterranean Sea
Environmental Pollution2023
23 citations
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Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count.
Score: 45
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0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.
María Cristina Fossi
Cristina Panti,
Cristina Panti,
María Cristina Fossi
María Cristina Fossi
Dario Giani,
María Cristina Fossi
María Cristina Fossi
María Cristina Fossi
María Cristina Fossi
Matteo Baini,
Matteo Baini,
María Cristina Fossi
Matteo Baini,
Cristina Panti,
Cristina Panti,
Cristina Panti,
Cristina Panti,
María Cristina Fossi
Dario Giani,
Dario Giani,
Dario Giani,
María Cristina Fossi
Matteo Baini,
María Cristina Fossi
Matteo Baini,
Dario Giani,
María Cristina Fossi
María Cristina Fossi
Cristina Panti,
María Cristina Fossi
Matteo Baini,
María Cristina Fossi
María Cristina Fossi
María Cristina Fossi
María Cristina Fossi
Matteo Baini,
Cristina Panti,
Cristina Panti,
Cristina Panti,
María Cristina Fossi
Matteo Baini,
Cristina Panti,
Cristina Panti,
Cristina Panti,
Cristina Panti,
Cristina Panti,
Cristina Panti,
Cristina Panti,
María Cristina Fossi
María Cristina Fossi
María Cristina Fossi
Cristina Panti,
Matteo Baini,
Cristina Panti,
Matteo Baini,
María Cristina Fossi
María Cristina Fossi
Matteo Baini,
Matteo Baini,
Matteo Baini,
Matteo Baini,
Matteo Baini,
Matteo Baini,
Matteo Baini,
Matteo Baini,
Matteo Baini,
María Cristina Fossi
Matteo Baini,
Cristina Panti,
Cristina Panti,
Cristina Panti,
Matteo Baini,
Cristina Panti,
Cristina Andolina,
Matteo Baini,
Cristina Panti,
Cristina Panti,
Matteo Baini,
Cristina Panti,
Matteo Baini,
Matteo Baini,
Matteo Baini,
Matteo Baini,
Matteo Baini,
Matteo Baini,
Matteo Baini,
Matteo Baini,
Matteo Baini,
Matteo Baini,
Matteo Baini,
Matteo Baini,
Matteo Baini,
Matteo Baini,
Matteo Baini,
Matteo Baini,
Dario Giani,
Matteo Baini,
Cristina Panti,
Cristina Panti,
Cristina Panti,
Cristina Panti,
Cristina Panti,
Cristina Panti,
Cristina Panti,
Cristina Panti,
María Cristina Fossi
Cristina Panti,
Cristina Panti,
Cristina Panti,
Cristina Panti,
María Cristina Fossi
María Cristina Fossi
María Cristina Fossi
Matteo Baini,
María Cristina Fossi
María Cristina Fossi
Cristina Panti,
María Cristina Fossi
Matteo Baini,
Matteo Baini,
Matteo Baini,
Cristina Panti,
Matteo Baini,
María Cristina Fossi
Matteo Baini,
Matteo Baini,
María Cristina Fossi
María Cristina Fossi
Cristina Panti,
Cristina Panti,
Cristina Panti,
Cristina Panti,
Matteo Baini,
Matteo Baini,
Matteo Baini,
Cristina Panti,
Dario Giani,
Cristina Panti,
Matteo Baini,
Cristina Panti,
Matteo Baini,
Cristina Panti,
Matteo Baini,
María Cristina Fossi
Matteo Baini,
Matteo Baini,
Dario Giani,
María Cristina Fossi
Cristina Panti,
María Cristina Fossi
Cristina Panti,
María Cristina Fossi
Dario Giani,
María Cristina Fossi
Matteo Baini,
Matteo Baini,
Matteo Baini,
Matteo Baini,
Cristina Panti,
Matteo Baini,
María Cristina Fossi
Matteo Baini,
Dario Giani,
Dario Giani,
Cristina Panti,
María Cristina Fossi
Mariangela Sciandra,
Matteo Baini,
María Cristina Fossi
Matteo Baini,
Salvatrice Vizzini,
Matteo Baini,
Matteo Baini,
Matteo Baini,
Cristina Panti,
Cristina Panti,
Cristina Panti,
Cristina Panti,
María Cristina Fossi
María Cristina Fossi
María Cristina Fossi
María Cristina Fossi
María Cristina Fossi
María Cristina Fossi
María Cristina Fossi
María Cristina Fossi
María Cristina Fossi
María Cristina Fossi
Dario Giani,
María Cristina Fossi
Cristina Panti,
María Cristina Fossi
María Cristina Fossi
Cristina Panti,
Cristina Panti,
Cristina Panti,
María Cristina Fossi
Cristina Panti,
María Cristina Fossi
Cristina Panti,
Dario Giani,
Cristina Panti,
Cristina Panti,
María Cristina Fossi
Cristina Panti,
María Cristina Fossi
María Cristina Fossi
Matteo Baini,
Matteo Baini,
Cristina Panti,
Matteo Baini,
Cristina Panti,
Matteo Baini,
María Cristina Fossi
María Cristina Fossi
María Cristina Fossi
Cristina Panti,
María Cristina Fossi
María Cristina Fossi
María Cristina Fossi
Cristina Panti,
Matteo Baini,
Cristina Panti,
Matteo Baini,
María Cristina Fossi
María Cristina Fossi
Cristina Panti,
Matteo Baini,
María Cristina Fossi
Cristina Panti,
Dario Giani,
Cristina Panti,
María Cristina Fossi
María Cristina Fossi
Cristina Panti,
María Cristina Fossi
María Cristina Fossi
María Cristina Fossi
María Cristina Fossi
María Cristina Fossi
María Cristina Fossi
Matteo Baini,
Cristina Panti,
Cristina Panti,
María Cristina Fossi
Cristina Panti,
María Cristina Fossi
Matteo Baini,
Cristina Panti,
María Cristina Fossi
María Cristina Fossi
Summary
Stable isotope analysis of eight Mediterranean fish species found that fish with wider isotopic niches and higher trophic diversity ingested more micro- and mesoplastics, with zooplanktivorous and benthopelagic species ingesting more particles per individual than benthivorous or demersal species.
Plastic pollution has been extensively documented in the marine food web, but targeted studies focusing on the relationship between microplastic ingestion and fish trophic niches are still limited. In this study we investigated the frequency of occurrence and the abundance of micro- and mesoplastics (MMPs) in eight fish species with different feeding habits from the western Mediterranean Sea. Stable isotope analysis (δ<sup>13</sup>C and δ<sup>15</sup>N) was used to describe the trophic niche and its metrics for each species. A total of 139 plastic items were found in 98 out of the 396 fish analysed (25%). The bogue revealed the highest occurrence with 37% of individuals with MMPs in their gastrointestinal tract, followed by the European sardine (35%). We highlighted how some of the assessed trophic niche metrics seem to influence MMPs occurrence. Fish species with a wider isotopic niche and higher trophic diversity were more probable to ingest plastic particles in pelagic, benthopelagic and demersal habitats. Additionally, fish trophic habits, habitat and body condition influenced the abundance of ingested MMPs. A higher number of MMPs per individual was found in zooplanktivorous than in benthivore and piscivorous species. Similarly, our results show a higher plastic particles ingestion per individual in benthopelagic and pelagic species than in demersal species, which also resulted in lower body condition. Altogether, these results suggest that feeding habits and trophic niche descriptors can play a significant role in the ingestion of plastic particles in fish species.