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The potential of aerial insectivores for monitoring microplastics in terrestrial environments

The Science of The Total Environment 2021 53 citations ? Citation count from OpenAlex, updated daily. May differ slightly from the publisher's own count. Score: 55 ? 0–100 AI score estimating relevance to the microplastics field. Papers below 30 are filtered from public browse.
Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Jennifer F. Provencher, Chelsea M. Rochman Keenan Munno, Cassandra Sherlock, Chelsea M. Rochman Jennifer F. Provencher, Jennifer F. Provencher, Jennifer F. Provencher, Jennifer F. Provencher, Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Jennifer F. Provencher, Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Jennifer F. Provencher, Chelsea M. Rochman Keenan Munno, Chelsea M. Rochman Keenan Munno, Keenan Munno, Keenan Munno, Keenan Munno, Keenan Munno, Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Jennifer F. Provencher, Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Kim J. Fernie, Cassandra Sherlock, Keenan Munno, Keenan Munno, Keenan Munno, Keenan Munno, Keenan Munno, Jennifer F. Provencher, Chelsea M. Rochman Chelsea M. Rochman Jennifer F. Provencher, Chelsea M. Rochman Chelsea M. Rochman Jennifer F. Provencher, Jennifer F. Provencher, Chelsea M. Rochman Jennifer F. Provencher, Chelsea M. Rochman Jennifer F. Provencher, Jennifer F. Provencher, Jennifer F. Provencher, Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Jennifer F. Provencher, Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Jennifer F. Provencher, Jennifer F. Provencher, Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Jennifer F. Provencher, Kim J. Fernie, Cassandra Sherlock, Cassandra Sherlock, Chelsea M. Rochman Chelsea M. Rochman Keenan Munno, Keenan Munno, Chelsea M. Rochman Keenan Munno, Keenan Munno, Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Jennifer F. Provencher, Chelsea M. Rochman Keenan Munno, Chelsea M. Rochman Chelsea M. Rochman Keenan Munno, Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Kim J. Fernie, Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Keenan Munno, Jennifer F. Provencher, Jennifer F. Provencher, Chelsea M. Rochman Chelsea M. Rochman Keenan Munno, Jennifer F. Provencher, Chelsea M. Rochman Jennifer F. Provencher, Keenan Munno, Jennifer F. Provencher, Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Jennifer F. Provencher, Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman 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, Jennifer F. Provencher, Jennifer F. Provencher, Jennifer F. Provencher, Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Jennifer F. Provencher, Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Jennifer F. Provencher, Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Jennifer F. Provencher, Chelsea M. Rochman Keenan Munno, Chelsea M. Rochman Chelsea M. Rochman Keenan Munno, Keenan Munno, Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Jennifer F. Provencher, Kim J. Fernie, Kim J. Fernie, Chelsea M. Rochman Chelsea M. Rochman Jennifer F. Provencher, Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Jennifer F. Provencher, Chelsea M. Rochman Kim J. Fernie, Jennifer F. Provencher, Chelsea M. Rochman Jennifer F. Provencher, Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Jennifer F. Provencher, Jennifer F. Provencher, Jennifer F. Provencher, Jennifer F. Provencher, Keenan Munno, Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Jennifer F. Provencher, Keenan Munno, Jennifer F. Provencher, Chelsea M. Rochman Jennifer F. Provencher, Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Keenan Munno, Chelsea M. Rochman Keenan Munno, Chelsea M. Rochman Chelsea M. Rochman Jennifer F. Provencher, Chelsea M. Rochman Jennifer F. Provencher, Keenan Munno, Jennifer F. Provencher, Chelsea M. Rochman Chelsea M. Rochman Jennifer F. Provencher, Jennifer F. Provencher, Chelsea M. Rochman Jennifer F. Provencher, Jennifer F. Provencher, Jennifer F. Provencher, Jennifer F. Provencher, Jennifer F. Provencher, Jennifer F. Provencher, Jennifer F. Provencher, Jennifer F. Provencher, Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman Keenan Munno, Jennifer F. Provencher, Jennifer F. Provencher, Cassandra Sherlock, Chelsea M. Rochman Chelsea M. Rochman Chelsea M. Rochman

Summary

Researchers examined microplastic contamination in tree swallow chicks near a wastewater treatment plant and at a rural conservation area. They found anthropogenic microparticles, predominantly fibers, in nearly all chicks at both sites, suggesting that aerial insectivores could serve as useful biological monitors for tracking microplastic contamination in terrestrial environments.

Study Type Environmental

Limited research has been conducted on microplastics in terrestrial ecosystems and biota, despite being some of the most ubiquitous environmental pollutants. We investigated the presence of microplastics (over 125 μm) in tree swallow (Tachicyneta bicolor) chicks (10 d. o.), an aerial insectivore whose diet involves terrestrial and/or freshwater sources. Swallows nested immediately downstream (300 m) of the discharge pipe of a large, urban wastewater treatment plant (WWTP) or at a rural conservation area (40 km apart). Anthropogenic microparticles (including microplastics) were identified in nearly all WWTP chicks (90%; N = 20) and reference chicks (83%; N = 20). All microparticles were fibers (100%) in the gastro-intestinal (GI) tracts of WWTP nestlings, whereas unexpectedly, they were more diverse in the GI tracts of reference chicks, with ~15% characterized as pre-production plastic pellets. The fecal sacs of most nestlings (90%) contained microparticles, and all were characterized as fibers suggesting their excretion by tree swallows. Compared to WWTP chicks, the reference chicks had more microparticles in their fecal sacs and larger particles (length, width) in their GI tracts, likely reflecting the more aquatic-based diet of the reference chicks fed insects caught adjacent to the nearby dam, compared to the more terrestrial-based diet of the WWTP chicks. The numbers of microparticles were not correlated between GI tracts and fecal sacs, nor with the chicks' condition or size (weight, organs, feathers). We recommend sampling macroinvertebrate prey to permit stronger conclusions regarding WWTPs as possible sources of microplastics for swallows, and to determine if such macroinvertebrates may be a non-lethal method to characterize microparticle diversity ingested by birds as presently identified in chicks' GI tracts. We conclude that sampling fecal sacs only, while not indicative of the diversity of microplastics ingested by terrestrial passerines (e.g., tree swallows), is useful for determining their exposure to microparticles.

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