Chemoreception drives plastic consumption in a hard coral.
The drivers behind microplastic (up to 5mm in diameter) consumption by animals are uncertain and impacts on foundational species are poorly understood. We investigated consumption of weathered, unfouled, biofouled, pre-production and microbe-free National Institute of Standards plastic by a scleractinian coral that relies on chemosensory cues for feeding. Experiment one found that corals ingested many plastic types while mostly ignoring organic-free sand, suggesting that plastic contains phagostimulents. Experiment two found that corals ingested more plastic that wasn't covered in a microbial biofilm than plastics that were biofilmed. Additionally, corals retained ~8% of ingested plastic for 24h or more and retained particles appeared stuck in corals, with consequences for energetics, pollutant toxicity and trophic transfer. The potential for chemoreception to drive plastic consumption in marine taxa has implications for conservation.
Duke Scholars
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- Water Pollutants, Chemical
- Plastics
- Particle Size
- Marine Biology & Hydrobiology
- Eating
- Chemoreceptor Cells
- Biofilms
- Anthozoa
- Animals
Citation
Published In
DOI
EISSN
ISSN
Publication Date
Volume
Issue
Start / End Page
Related Subject Headings
- Water Pollutants, Chemical
- Plastics
- Particle Size
- Marine Biology & Hydrobiology
- Eating
- Chemoreceptor Cells
- Biofilms
- Anthozoa
- Animals