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Microplastic pollution in waters of the Antarctic coastal environment of Potter Cove (25 de Mayo Island/King George Island, South Shetlands)

The Science of The Total Environment 2024 21 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 55 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.

Julieta Carolina Antacli, Rosana Di Mauro, Julieta Carolina Antacli, Gastón Alurralde, Julieta Carolina Antacli, Julieta Carolina Antacli, Julieta Carolina Antacli, Rosana Di Mauro, Julieta Carolina Antacli, Rosana Di Mauro, Guido N. Rimondino Rosana Di Mauro, Guido N. Rimondino Guido N. Rimondino Guido N. Rimondino Guido N. Rimondino Guido N. Rimondino Guido N. Rimondino Rosana Di Mauro, Guido N. Rimondino Guido N. Rimondino Guido N. Rimondino Guido N. Rimondino Cristian Vodopívez, Cristian Vodopívez, Guido N. Rimondino Guido N. Rimondino Guido N. Rimondino Guido N. Rimondino Guido N. Rimondino Gastón Alurralde, Gastón Alurralde, Cristian Vodopívez, Guido N. Rimondino Guido N. Rimondino Guido N. Rimondino Gastón Alurralde, Guido N. Rimondino Guido N. Rimondino Guido N. Rimondino Cristian Vodopívez, Guido N. Rimondino Guido N. Rimondino Guido N. Rimondino Guido N. Rimondino Rosana Di Mauro, Guido N. Rimondino Guido N. Rimondino Guido N. Rimondino Guido N. Rimondino Guido N. Rimondino Irene R Schloss, Irene R Schloss, Guido N. Rimondino Guido N. Rimondino Cristian Vodopívez, Germán A. González, Cristian Vodopívez, Germán A. González, Guido N. Rimondino Cristian Vodopívez, Cristian Vodopívez, Guido N. Rimondino Sonia Morales, Sonia Morales, Guido N. Rimondino Sonia Morales, Germán A. González, Sonia Morales, Guido N. Rimondino Guido N. Rimondino Sonia Morales, A. Ottero, Sonia Morales, A. Ottero, A. Ottero, A. Ottero, Guido N. Rimondino Cristian Vodopívez, Cristian Vodopívez, Cristian Vodopívez, Cristian Vodopívez, Cristian Vodopívez, Cristian Vodopívez, Cristian Vodopívez, Guido N. Rimondino Irene R Schloss, Cristian Vodopívez, Cristian Vodopívez, Irene R Schloss, Cristian Vodopívez, Guido N. Rimondino

Summary

Researchers conducted the first comprehensive microplastic survey of Potter Cove, Antarctica, finding MPs in 100% of samples — dominated by synthetic microfibers — with concentrations higher near the Carlini research station, confirming local human activity as the primary source in this remote polar environment.

Plastic pollution in the Southern Ocean around Antarctica is a growing concern, but many areas in this vast region remain unexplored. This study provides the first comprehensive analysis of marine microplastic (MPs) concentrations in Potter Cove, located near the Argentinian Carlini research station on 25 de Mayo/King George Island, Antarctica. Water samples were collected at 14 sites within the cove, representing various influences from the station's activities. Two sampling methods were used: a 5 L Niskin bottle and an in-situ filtering device called Microfilter, allowing for large water volumes to be filtered. MPs were found in 100 % of the samples. Microfilter samples ranged from 0.02 to 2.14 MPs/L, with a mean concentration of 0.44 ± 0.44 MPs/L. Niskin bottle samples showed concentrations from 0.40 to 55.67 MPs/L, with a mean concentration of 19.03 ± 18.21 MPs/L. The dominant types of MPs were anthropogenic black, transparent, and pink microfibers (MFs) measuring between 0.11 and 3.6 mm (Microfilter) and 0.06 to 7.96 mm (Niskin bottle), with a median length of 0.01 mm for both methods. Transparent and black irregular microfragments (MFRs) with diameters from 0.10 to 5.08 mm and a median diameter of 0.49 mm were also prevalent. FTIR-spectroscopy revealed the presence of 14 types of polymers. Cellulose-based materials and polyethylene terephthalate were the most abundant in MFs, while polyurethanes and styrene-based copolymers dominated in MFRs. MPs were more abundant near the Carlini station. Compared to other coastal Antarctic areas, the MPs in the cove were relatively abundant and mostly smaller than 1 mm. Local activities on the island were identified as the primary source of MPs in the cove, and the cyclonic water circulation likely affects the distribution of small-sized particles. To protect the ecosystem, reducing plastic usage, improving waste management, regulating MPs debris, and enhancing wastewater practices are essential.

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