Ingestion and Egestion of Microplastics by the Cladoceran Daphnia magna: Effects of Regular and Irregular Shaped Plastic and Sorbed Phenanthrene

The presence of microplastics in aquatic ecosystems is of increasing global concern. This study investigated ingestion, egestion and acute effects of polyethylene microplastics in Daphnia magna . Fate of regular shaped microplastic beads (10–106 µm) were compared with irregular shaped microplastic f...

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Bibliographic Details
Published in:Bulletin of environmental contamination and toxicology 2017-12, Vol.99 (6), p.655-661
Main Authors: Frydkjær, Camilla Krogh, Iversen, Niels, Roslev, Peter
Format: Article
Language:English
Subjects:
Acute effects
Algae
Animals
Aquatic ecosystems
Aquatic Pollution
Bacteria
Beads
Daphnia - drug effects
Daphnia - physiology
Daphnia magna
Dietary Exposure
Earth and Environmental Science
Eating
Ecosystem
Ecotoxicology
Environment
Environmental Chemistry
Environmental conditions
Environmental Health
Fragments
Hydrophobicity
Ingestion
Invertebrates
Microplastics
Phenanthrene
Phenanthrenes - analysis
Phenanthrenes - toxicity
Plankton
Plastics
Plastics - analysis
Plastics - toxicity
Pollutants
Pollution
Polyethylene
Polyethylenes
Soil Science & Conservation
Waste Water Technology
Water Management
Water Pollutants, Chemical - analysis
Water Pollutants, Chemical - toxicity
Water Pollution Control
Yeast
Yeasts
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Summary:The presence of microplastics in aquatic ecosystems is of increasing global concern. This study investigated ingestion, egestion and acute effects of polyethylene microplastics in Daphnia magna . Fate of regular shaped microplastic beads (10–106 µm) were compared with irregular shaped microplastic fragments (10–75 µm). Daphnia magna ingested regular and irregular microplastic with uptake between 0.7 and 50 plastic particles/animal/day when exposed to microplastic concentrations of 0.0001–10 g/L. Egestion of irregular fragments was slower than that of microplastic beads. The EC50 for irregular microplastic was 0.065 g/L whereas microplastic beads were less inhibitory. The potential of microplastic to act as vector for hydrophobic pollutants was examined using [ 14 C]phenanthrene as tracer. Polyethylene microplastic sorbed less [ 14 C]phenanthrene compared to natural plankton organisms (bacteria, algae, yeast). As microplastics are much less abundant in most aquatic ecosystems compared to plankton organisms this suggests a limited role as vector for hydrophobic pollutants under current environmental conditions.
ISSN:0007-4861
1432-0800
DOI:10.1007/s00128-017-2186-3