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20 resultsShowing papers similar to Characterization of Plastics Ingested by the Bioindicator Cory’s Shearwater from Tenerife Island (Canary Islands): Implications for Marine Environmental Monitoring
ClearMicroplastics ingestion and chemical pollutants in seabirds of Gran Canaria (Canary Islands, Spain)
Gastrointestinal examination of 88 seabirds from 14 species on Gran Canaria revealed widespread plastic ingestion alongside elevated chemical pollutant levels in liver tissue. The study documents the co-occurrence of plastic ingestion and chemical contamination in Canary Island seabirds, where plastic pollution research has previously been limited.
Plastic ingestion in seabirds of the western Indian Ocean
Researchers examined stomach contents of 222 seabirds from nine species in the western Indian Ocean and found plastic in all species, with tropical shearwaters (79%) and Barau's petrels (59%) most affected, and juvenile birds carrying significantly greater plastic mass than adults, indicating regional ocean plastic pollution and age-dependent exposure risks.
The hidden cost of following currents: Microplastic ingestion in a planktivorous seabird
Researchers documented microplastic ingestion in Mediterranean storm petrels, finding that these planktivorous seabirds ingest microplastics while foraging in pelagic areas where plastic debris accumulates alongside their planktonic prey in ocean currents.
Size and dynamics of microplastic in gastrointestinal tracts of Northern Fulmars ( Fulmarus glacialis ) and Sooty Shearwaters ( Ardenna grisea )
Researchers examined microplastic in the gastrointestinal tracts of 143 Northern Fulmars and 25 Sooty Shearwaters stranded on Oregon and Washington beaches, finding plastic in 89.5% and 64% of birds respectively, with larger particles concentrated in the stomach's upper chamber and no significant reduction in plastic load in birds held in a plastic-free rehabilitation environment for up to seven days.
Plastic ingestion by seabirds in New Caledonia, South Pacific
Researchers examined stomach contents of 90 seabirds from 12 species in New Caledonia and found plastic debris in 14.4% of individuals, with the highest rates in procellariids (petrels and shearwaters), providing the first plastic ingestion baseline for this Pacific island region.
Characterization of plastic ingestion in urban gull chicks and its implications for their use as pollution sentinels in coastal cities
Researchers examined the stomach contents of 56 yellow-legged gull chicks in Barcelona and found microplastics in 100% of the birds, with larger plastic pieces in about 20%. The chicks ingested plastics from their urban coastal environment, mostly fragments and fibers from common consumer plastics. This study shows how urban wildlife can serve as indicators of plastic pollution levels and highlights the widespread contamination of coastal food webs that humans also depend on.
Long-term variations in size and polymer type of meso- and microplastics in seabirds and on beaches since the 1980s
Researchers analyzed plastics found in seabird stomachs and on beaches at a remote South Atlantic island across several decades since the 1980s to track long-term changes in marine plastic pollution. They found shifts in the types and sizes of plastic polymers over time, reflecting changes in global plastic production and how plastics degrade at sea. The study demonstrates that seabirds can serve as effective long-term monitors of floating plastic pollution trends in the ocean.
Microplastics and organic pollutants in stranded northern gannet (Morus bassanus) from Southern Spain
Researchers conducted the first comprehensive assessment of plastic ingestion and organic pollutant exposure in northern gannets stranded along the southern Spanish coast. The study found that 88% of the 42 birds examined had ingested plastics, with microplastics dominating the debris, and transparent fibers being the most common type, alongside measurable levels of persistent organic pollutants in muscle tissue.
Seabird plastic ingestion differs among collection methods: Examples from the short-tailed shearwater.
This study compared plastic loads in short-tailed shearwaters collected as fishing bycatch versus naturally dead beached birds, finding that naturally dead birds carried significantly more plastic debris. The results suggest that studies relying only on beached carcasses overestimate typical plastic ingestion rates in seabird populations.
Exposure to microplastics by pelagic and coastal seabirds from temperate and tropical environments
Researchers examined microplastic exposure in pelagic and coastal seabird species from temperate and tropical marine environments, using the birds' broad spatial distribution and feeding behavior to assess microplastic distribution and concentration patterns across oceanic regions.
The use of European shag pellets as indicators of microplastic fibers in the marine environment
Synthetic fibers were found in pellets regurgitated by European shag seabirds in northern Spain, providing a non-lethal method for monitoring microplastic pollution in coastal marine environments. Seabird pellets could serve as a low-cost, repeatable indicator of local microplastic contamination.
New Methods for the Quantification of Ingested Nano- and Ultrafine Plastics in Seabirds.
This study developed flow cytometry as a method to detect and quantify very small plastic particles (under 70 micrometers) in the feces of seabirds, addressing a major gap in detecting nano- and ultrafine plastics that standard techniques miss. Testing on two Australian shearwater species showed the method could detect particles far smaller than previously measurable, suggesting that seabirds ingest far more plastic by particle count than previously recognized.
Plastic debris ingestion by seabirds on the Korean Peninsula
Researchers examined plastic ingestion in 387 seabirds of 11 species on the Korean Peninsula and found the highest frequency in Swinhoe's storm petrels (93.7%), with plastic characteristics varying by species feeding ecology, providing baseline data for monitoring marine debris impacts in East Asian waters.
Microplastics in full view: Birds as bioindicators of Malta's coastal ecosystem health
This study used coastal water birds as bioindicators to assess microplastic contamination along Malta's Mediterranean coastline, finding microplastics in multiple bird species. The approach demonstrates how wildlife monitoring can provide a practical method for tracking regional marine pollution levels.
Microplastic ingestion: Are seabirds more affected than other marine species?
This review examines whether seabirds ingest plastic more frequently than other marine species, finding they are among the most affected groups with high rates of plastic ingestion documented across species. The review discusses factors including foraging behavior, habitat, and ocean plastic concentrations that explain why seabirds are particularly vulnerable.
Bioindicators for monitoring marine litter ingestion and its impacts on Mediterranean biodiversity
Researchers reviewed existing knowledge of marine litter ingestion impacts on Mediterranean biodiversity and proposed a new integrated monitoring framework using bioindicator species, identifying major knowledge gaps in understudied habitats and sub-regions while outlining a threefold approach to simultaneously measure plastic presence and its sub-lethal effects on organisms.
Métodos para avaliação da exposição a poluentes plásticos em procellariiformes
This paper reviews methods for assessing plastic exposure in Procellariiformes seabirds — including albatrosses and petrels — focusing on how to measure plastic ingestion in both live and beached birds. Standardized methods are needed to monitor how plastic pollution affects these ocean-going birds over time.
Using feral pigeon (Columba livia) to monitor anthropogenic debris in urban areas: a case study in Taiwan's capital city
Analysis of 46 feral pigeon carcasses from Taipei found 224 pieces of anthropogenic debris, 71.9% fibers, primarily polyethylene (20.5%), demonstrating that urban birds ingest microplastics and can serve as terrestrial bioindicators of plastic pollution.
Macro-and micro-plastics detected in razorbill Alca torda in the western Mediterranean Sea.
Researchers examined plastic items recovered from the tissues and digestive tracts of razorbill seabirds found dead along the western Mediterranean coast and found both macro- and microplastics. The study confirms that this Atlantic seabird species, which winters in the Mediterranean, is exposed to plastic pollution in a sea known to be a hotspot for plastic contamination.
Life starts with plastic: High occurrence of plastic pieces in fledglings of northern fulmars
Researchers found that 100% of northern fulmar fledglings examined from Svalbard in the Eurasian Arctic had ingested plastic, averaging 46 particles per bird. The most common plastics were white polyethylene fragments, with microplastics slightly outnumbering larger mesoplastics. The study suggests that fulmar fledglings may serve as effective indicators for monitoring plastic pollution trends over time.