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Bisphenol A leachate from polystyrene microplastics has species-specific impacts on scleractinian corals
Summary
Researchers tested how polystyrene microplastics and the chemical bisphenol A that leaches from them affect two species of reef-building corals. They found that microplastics alone caused minimal harm, but bisphenol A leachate significantly damaged one coral species by reducing its photosynthetic ability and tissue health, while the other species was unaffected. The study demonstrates that chemical leachates from degrading plastics, not just the particles themselves, can be a major driver of harm to marine life.
Plastic waste causes pervasive environmental contamination and can result in the release of harmful chemical leachates into marine ecosystems, especially as they fragment to smaller microplastics (<5 mm). The toxicity of commonly found polystyrene (PS) microplastics and associated bisphenol A (BPA) leachate to framework-building corals Pocillopora damicornis and Dipsastraea pallida was assessed through exposure experiments. Intermittent exposure over 14-days to 1) virgin PS, 2) preformulated PS with bound BPA (BPA-PS) and 3) leached BPA-PS (L-BPA-PS; simulating early stages of weathering) showed that microplastics void of leachable BPA had minimal effect on either coral species. However, BPA leachate had negative effects on the maximal photochemical yield (F/F) and tissue composition of P. damicornis fragments (e.g., decreased chlorophyll and protein compared to controls). Conversely, BPA leachate did not compromise tissues of D. pallida fragments. These results reveal that exposure to chemicals leaching out of microplastics can drive negative effects of microplastic exposure distinct from physical mechanisms due to ingestion alone, and that effects are species specific.