Marine plastic debris emits a keystone infochemical for olfactory foraging seabirds.

Plastic debris is ingested by hundreds of species of organisms, from zooplankton to baleen whales, but how such a diversity of consumers can mistake plastic for their natural prey is largely unknown. The sensory mechanisms underlying plastic detection and consumption have rarely been examined within...

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Bibliographic Details
Main Authors: Savoca, Matthew S, Wohlfeil, Martha E, Ebeler, Susan E, Nevitt, Gabrielle A
Format: Article in Journal/Newspaper
Language:unknown
Published: eScholarship, University of California 2016
Subjects:
Animals
Birds
Dimethyl Sulfoxide
Plastics
Water Pollutants
Feeding Behavior
Olfactory Perception
Chemical ecology
conservation biology
dimethyl sulfide
foraging ecology
marine pollution
plastic debris
sensory ecology
baleen whales
Online Access:https://escholarship.org/uc/item/3fx529wx
Description
Summary:Plastic debris is ingested by hundreds of species of organisms, from zooplankton to baleen whales, but how such a diversity of consumers can mistake plastic for their natural prey is largely unknown. The sensory mechanisms underlying plastic detection and consumption have rarely been examined within the context of sensory signals driving marine food web dynamics. We demonstrate experimentally that marine-seasoned microplastics produce a dimethyl sulfide (DMS) signature that is also a keystone odorant for natural trophic interactions. We further demonstrate a positive relationship between DMS responsiveness and plastic ingestion frequency using procellariiform seabirds as a model taxonomic group. Together, these results suggest that plastic debris emits the scent of a marine infochemical, creating an olfactory trap for susceptible marine wildlife.

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