4.6 Article

Uptake and Transfer of Polyamide Microplastics in a Freshwater Mesocosm Study

Journal

WATER
Volume 14, Issue 6, Pages -

Publisher

MDPI
DOI: 10.3390/w14060887

Keywords

Chaoborus; zooplankton; ontogenetic transfer; trophic transfer; macroinvertebrates

Funding

  1. German Federal Ministry of Education and Research (BMBF), MikroPlaTaS (Microplastics in Dams and Reservoirs: Sedimentation, Spread, Effects) project [02WPL1448]
  2. Open Access Publication Fund of the University of Muenster

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The increasing presence of microplastics in aquatic ecosystems poses a growing threat to aquatic fauna. This study investigates the transfer of microplastics through the food chain and their effects on populations and ecosystems. The findings suggest that while larvae of Chaoborus spp. can uptake microplastics through predation, most of the plastic is regurgitated and remains in the water, potentially harming other organisms.
Steadily increasing inputs of microplastics pose a growing threat to aquatic fauna, but laboratory studies potentially lack realism to properly investigate its effects on populations and ecosystems. Our study investigates the trophic and ontogenetic transfer of microplastics in a near-natural exposure scenario. The controlled outdoor freshwater mesocosms were exposed to polyamide (PA) 5-50 mu m in size in concentrations of 15 and 150 mg L-1 and a control without microplastic addition. To verify the uptake of particles via the food chain, larvae and imagines of the midges Chaoborus crystallinus and C. obscuripes were examined, which feed on zooplankton during their larval stage. Larvae were captured after 117 days and imagines were caught in emergence traps that were emptied weekly. To detect the microparticles within the organisms, 200 larvae and 100 imagines per application were macerated and treated with fluorescent dye before investigation under a fluorescent microscope. We could detect up to 12 PA particles per individual larvae, while nearly no plastic was found in the imagines. This shows that, while Chaoborus sp. takes up microplastics via predation, most of the pollutant is egested through regurgitation and remains in the water, where it can further accumulate and potentially harm other organisms.

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