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Mangrove mud clam as an effective sentinel species for monitoring changes in coastal microplastic pollution
Summary
Researchers collected mangrove mud clams from 18 stations along China's Leizhou Peninsula to evaluate their effectiveness as sentinel organisms for monitoring coastal microplastic pollution. They found that microplastic contamination in the clams correlated with local pollution levels, making them useful biological indicators. The study suggests that this widely distributed species could serve as a standardized tool for tracking changes in coastal microplastic contamination over time.
The worldwide mangrove shorelines are experiencing considerable contamination from microplastics (MPs). Finding an effective sentinel species in the mangrove ecosystem is crucial for early warning of ecological and human health risks posed by coastal microplastic pollution. This study collected 186 specimens of the widely distributed mangrove clam (Geloina expansa, Solander, 1786) from 18 stations along the Leizhou Peninsula, the largest mangrove coast in Southern China. This study discovered that mangrove mud clams accumulated a relatively high abundance of MPs (2.96 [1.61 - 6.03] items·g<sup>-1</sup>) in their soft tissue, wet weight, as compared to previously reported levels in bivalves. MPs abundance is significantly (p < 0.05 or 0.0001) influenced by coastal urban development, aquaculture, and shell size. Furthermore, the aggregated MPs exhibit a significantly high polymer risk index (Level III, H = 353.83). The estimated annual intake risk (EAI) from resident consumption, as calculated via a specific questionnaire survey, was at a moderate level (990 - 2475, items·g <sup>-1</sup>·Capita <sup>-1</sup>). However, the EAI based on suggested nutritional standards is very high, reaching 113,990 (79,298 - 148,681), items·g <sup>-1</sup>·Capita <sup>-1</sup>. We recommend utilizing the mangrove mud clam as sentinel species for the monitoring of MPs pollution changing across global coastlines.
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