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Microplastic accumulation in oysters along a Bornean coastline (Brunei, South China Sea): Insights into local sources and sinks

Marine Pollution Bulletin 2022 22 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count.
Huan Chiao Lee, Mohammad Mansoob Khan, Amal 'Aqilah Yusli, Nor Asmaa' Jaya, David J. Marshall

Summary

Researchers found microplastics in all oyster samples along a Bornean coastline, with contamination levels in the polluted Brunei Estuarine System reaching up to 7.20 particles/g tissue, dominated by small polypropylene fragments under 50 µm, while relatively pristine open-shore sites showed substantially lower accumulation.

Polymers
Study Type Environmental

The number of studies on microplastic accumulation in marine organisms has increased precipitously recently, though information is geographically-skewed and limited in terms of local effects. We characterized microplastic accumulation in oysters (Saccostrea cucullata) along a Bornean coastline, focusing on spatial variation. Comparisons were made between locally-polluted (Brunei Estuarine System, BES) and relatively pristine, open-shore (South China Sea, SCS) coastlines. Sixteen coloured microplastic types were characterized into three shapes (fragments, fibres, pellets). Fragments (74.9%), especially smaller polypropylene black fragments predominated in the samples (<50 μm, 31.7%). Site-specific levels of microplastic accumulation varied from 0.43 to 7.20 particles/g oyster tissue. BES and SCS sites differed qualitatively, indicating limited interaction. In the BES, accumulation was greatest near the predicted source (Bandar) and declined strongly seawards, implying current flow, environmental sequestration (local sinks) and seawater dilution effects. Such local-scale variation in microplastic loading in estuaries cautions against extrapolating from limited sampling.

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