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Gut & Microbiome
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Breeding seabirds as vectors of microplastics from sea to land: Evidence from colonies in Arctic Canada
The Science of The Total Environment2020
123 citations
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Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count.
Score: 45
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0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.
Jesse C. Vermaire
Jennifer F. Provencher,
Madelaine P.T. Bourdages,
Jennifer F. Provencher,
Madelaine P.T. Bourdages,
Jennifer F. Provencher,
Madelaine P.T. Bourdages,
Madelaine P.T. Bourdages,
Jennifer F. Provencher,
Jennifer F. Provencher,
Jennifer F. Provencher,
Jennifer F. Provencher,
Jennifer F. Provencher,
Jesse C. Vermaire
Jennifer F. Provencher,
Mark L. Mallory,
Madelaine P.T. Bourdages,
Madelaine P.T. Bourdages,
Madelaine P.T. Bourdages,
Madelaine P.T. Bourdages,
Julia E. Baak,
Julia E. Baak,
Julia E. Baak,
Julia E. Baak,
Julia E. Baak,
Jennifer F. Provencher,
Jesse C. Vermaire
Jennifer F. Provencher,
Jesse C. Vermaire
Jennifer F. Provencher,
Jennifer F. Provencher,
Jennifer F. Provencher,
Jennifer F. Provencher,
Jennifer F. Provencher,
Madelaine P.T. Bourdages,
Jennifer F. Provencher,
Jesse C. Vermaire
Jesse C. Vermaire
Jesse C. Vermaire
Jesse C. Vermaire
Jesse C. Vermaire
Jesse C. Vermaire
Julia E. Baak,
Julia E. Baak,
Madelaine P.T. Bourdages,
Madelaine P.T. Bourdages,
Jennifer F. Provencher,
Mark L. Mallory,
Jennifer F. Provencher,
Mark L. Mallory,
Mark L. Mallory,
Jennifer F. Provencher,
Jennifer F. Provencher,
Madelaine P.T. Bourdages,
Jennifer F. Provencher,
Jesse C. Vermaire
Mark L. Mallory,
Mark L. Mallory,
Mark L. Mallory,
Mark L. Mallory,
Jennifer F. Provencher,
Jesse C. Vermaire
Jesse C. Vermaire
Mark L. Mallory,
Jennifer F. Provencher,
Jennifer F. Provencher,
Jesse C. Vermaire
Jennifer F. Provencher,
Jennifer F. Provencher,
Mark L. Mallory,
Jesse C. Vermaire
Mark L. Mallory,
Mark L. Mallory,
Julia E. Baak,
Jesse C. Vermaire
Jesse C. Vermaire
Jesse C. Vermaire
Jesse C. Vermaire
Jesse C. Vermaire
Jennifer F. Provencher,
Mark L. Mallory,
Jennifer F. Provencher,
Jennifer F. Provencher,
Jennifer F. Provencher,
Jennifer F. Provencher,
Mark L. Mallory,
Jennifer F. Provencher,
Jennifer F. Provencher,
Mark L. Mallory,
Jennifer F. Provencher,
Jennifer F. Provencher,
Jennifer F. Provencher,
Jennifer F. Provencher,
Jesse C. Vermaire
Jennifer F. Provencher,
Jennifer F. Provencher,
Madelaine P.T. Bourdages,
Jesse C. Vermaire
Jennifer F. Provencher,
Jennifer F. Provencher,
Jennifer F. Provencher,
Jennifer F. Provencher,
Jennifer F. Provencher,
Jennifer F. Provencher,
Mark L. Mallory,
Madelaine P.T. Bourdages,
Julia E. Baak,
Madelaine P.T. Bourdages,
Jennifer F. Provencher,
Jesse C. Vermaire
Jennifer F. Provencher,
Jennifer F. Provencher,
Jennifer F. Provencher,
Jennifer F. Provencher,
Jennifer F. Provencher,
Jennifer F. Provencher,
Jennifer F. Provencher,
Jesse C. Vermaire
Jennifer F. Provencher,
Jennifer F. Provencher,
Jennifer F. Provencher,
Julia E. Baak,
Julia E. Baak,
Mark L. Mallory,
Mark L. Mallory,
Mark L. Mallory,
Mark L. Mallory,
Jesse C. Vermaire
Mark L. Mallory,
Jesse C. Vermaire
Madelaine P.T. Bourdages,
Jennifer F. Provencher,
Jennifer F. Provencher,
Jennifer F. Provencher,
Jennifer F. Provencher,
Jennifer F. Provencher,
Jennifer F. Provencher,
Jennifer F. Provencher,
Jennifer F. Provencher,
Jennifer F. Provencher,
Jennifer F. Provencher,
Jennifer F. Provencher,
Jennifer F. Provencher,
Jesse C. Vermaire
Jesse C. Vermaire
Jennifer F. Provencher,
Mark L. Mallory,
Jesse C. Vermaire
Mark L. Mallory,
Jennifer F. Provencher,
Jennifer F. Provencher,
Mark L. Mallory,
Jesse C. Vermaire
Summary
Breeding seabirds were studied as potential vectors transporting microplastics from the sea to land via regurgitation and excretion at colony sites. Evidence from colony soils confirmed that seabirds transfer marine-sourced microplastics to terrestrial environments, with colony sites accumulating elevated microplastic concentrations compared to surrounding habitats.
The presence and persistence of microplastics in the environment is increasingly recognized, however, how they are distributed throughout environmental systems requires further understanding. Seabirds have been identified as vectors of chemical contaminants from marine to terrestrial environments, and studies have recently identified seabirds as possible vectors of plastic pollution in the marine environment. However, their role in the distribution of microplastic pollution in the Arctic has yet to be explored. We examined two species of seabirds known to ingest plastics: northern fulmars (Fulmarus glacialis; n = 27) and thick-billed murres (Uria lomvia; n = 30) as potential vectors for the transport of microplastics in and around breeding colonies. Our results indicated anthropogenic particles in the faecal precursors of both species. Twenty-four anthropogenic particles were found in the fulmar faecal precursor samples (M = 0.89, SD = 1.09; 23 fibres and one fragment), and 10 anthropogenic particles were found in the murre faecal precursor samples (M = 0.33, SD = 0.92; 5 fibres, 4 fragments, and one foam). Through the use of bird population surveys and the quantification of anthropogenic particles found in the faecal precursors of sampled seabirds from the same colony, we estimate that fulmars and murres may deposit between 3.3 (CI 1.9 × 10-4.9 × 10) and 45.5 (CI 9.1 × 10-91.9 × 10) million anthropogenic particles, respectively, per year into the environment during their breeding period at these colonies. These estimates indicate that migratory seabirds could be contributing to the distribution and local hotspots of microplastics in Arctic environments, however, they are still likely a relatively small source of plastic pollution in terms of mass in the environment and may not contribute as much as other reported sources such as atmospheric deposition in the Arctic.