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Nanoplastics affect moulting and faecal pellet sinking in Antarctic krill (Euphausia superba) juveniles

Environment International 2020 85 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 50 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Elisa Bergami, Elisa Bergami, Elisa Bergami, Ilaria Corsi Elisa Bergami, Elisa Bergami, Clara Manno, Clara Manno, Ilaria Corsi Elisa Bergami, Ilaria Corsi Ilaria Corsi Ilaria Corsi Elisa Bergami, Elisa Bergami, Elisa Bergami, Ilaria Corsi Elisa Bergami, Clara Manno, Ilaria Corsi Elisa Bergami, Ilaria Corsi Simone Cappello, Ilaria Corsi Ilaria Corsi Elisa Bergami, Elisa Bergami, Elisa Bergami, Elisa Bergami, Clara Manno, Clara Manno, Elisa Bergami, Elisa Bergami, Elisa Bergami, Elisa Bergami, Elisa Bergami, Elisa Bergami, Elisa Bergami, Elisa Bergami, Elisa Bergami, Ilaria Corsi Ilaria Corsi Ilaria Corsi Ilaria Corsi Elisa Bergami, Elisa Bergami, Maria Luisa Vannuccini, Maria Luisa Vannuccini, Ilaria Corsi Ilaria Corsi Simone Cappello, Elisa Bergami, Ilaria Corsi Clara Manno, Elisa Bergami, Elisa Bergami, Simone Cappello, Elisa Bergami, Ilaria Corsi Ilaria Corsi Ilaria Corsi Elisa Bergami, Elisa Bergami, Elisa Bergami, Elisa Bergami, Elisa Bergami, Elisa Bergami, Clara Manno, Clara Manno, Clara Manno, Clara Manno, Clara Manno, Maria Luisa Vannuccini, Simone Cappello, Ilaria Corsi Clara Manno, Ilaria Corsi Elisa Bergami, Ilaria Corsi Ilaria Corsi Elisa Bergami, Elisa Bergami, Ilaria Corsi Ilaria Corsi Ilaria Corsi Ilaria Corsi Ilaria Corsi Ilaria Corsi Elisa Bergami, Ilaria Corsi Ilaria Corsi Maria Luisa Vannuccini, Ilaria Corsi Clara Manno, Ilaria Corsi Ilaria Corsi Ilaria Corsi Ilaria Corsi Ilaria Corsi Ilaria Corsi Ilaria Corsi Ilaria Corsi Ilaria Corsi Ilaria Corsi Clara Manno, Clara Manno, Clara Manno, Clara Manno, Maria Luisa Vannuccini, Ilaria Corsi Ilaria Corsi Elisa Bergami, Ilaria Corsi Ilaria Corsi Elisa Bergami, Ilaria Corsi Clara Manno, Elisa Bergami, Clara Manno, Ilaria Corsi Ilaria Corsi Ilaria Corsi Ilaria Corsi Ilaria Corsi Ilaria Corsi Ilaria Corsi

Summary

Researchers exposed juvenile Antarctic krill to nanoplastics and found that nanoplastic ingestion interfered with moulting (a key growth process) and reduced the sinking rate of faecal pellets, which could impair the biological carbon pump in Southern Ocean ecosystems.

Polymers

Body Systems

Digestive

Study Type Environmental

Plastic debris has been identified as a potential threat to Antarctic marine ecosystems, however, the impact of nanoplastics (<1 μm) is currently unexplored. Antarctic krill (Euphausia superba) is a keystone species of Southern Ocean pelagic ecosystems, which plays a central role in the Antarctic food webs and carbon (C) cycle. Krill has been shown to rapidly fragment microplastic beads through the digestive system, releasing nanoplastics with unknown toxicological effects. Here we exposed krill juveniles to carboxylic (COOH, anionic) and amino- (NH2, cationic) polystyrene nanoparticles (PS NPs) and we investigated lethal and sub-lethal endpoints after 48 h. The analysis of PS NP suspensions in Antarctic sea water (SW) media showed that PS-COOH formed large agglomerates (1043 ± 121 nm), while PS-NH2 kept their nominal size (56.8 ± 3 nm) during the exposure time. After 48 h, no mortality was found but increase in exuviae production (12.6 ± 1.3%) and reduced swimming activity were observed in juveniles exposed to PS-NH2. The microbial community composition in SW supports the release of krill moults upon PS NP exposure and stimulates further research on the pivotal role of krill in shaping Southern Ocean bacterial assemblages. The presence of fluorescent signal in krill faecal pellets (FPs) confirmed the waterborne ingestion and egestion of PS-COOH at 48 h of exposure. Changes in FP structure and properties were also associated to the incorporation of PS NPs regardless of their surface charge. The effects of PS NPs on krill FP properties were compared to Control 0 h as a reference for full FPs (plastic vs food) and Control 48 h as a reference for more empty-like FPs (plastic vs lack of food). Exposure to PS NPs led to a FP sinking rate comparable to Control 48 h, but significantly lower than Control 0 h (58.40 ± 23.60 m/d and 51.23 ± 28.60 m/d for PS-COOH and PS-NH2; 168.80 ± 74.58 m/d for Control 0 h). Considering the important role played by krill in the food web and C export in the Southern Ocean, the present study provides cues about the potential impact of nanoplastics on Antarctic pelagic ecosystems and their biogeochemical cycles.

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