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61,005 resultsShowing papers similar to Bioaccumulation of Microplastics in Thrushes: Analysis for Monitoring Environmental Quality by Comparing Different and Innovative Extraction Techniques
ClearThrushes (Aves: Passeriformes) as indicators of microplastic pollution in terrestrial environments
Researchers examined thrushes (songbirds) as sentinel species for terrestrial microplastic pollution, finding MPs in digestive tracts of birds sampled from multiple habitats. The study supports using thrushes as bioindicators of land-based plastic contamination, given their broad distribution and feeding behaviors that bring them into contact with soil and invertebrates.
A methodology for the sampling and identification of microplastics in bird nests
Researchers developed and tested a green (chemical-free) method to extract and identify microplastics from bird nests, finding an average of 250 microplastic items per nest in urban Great-tailed grackle nests, mostly synthetic polyethylene and polypropylene fibers. Bird nests offer a practical, non-invasive way to monitor microplastic contamination in urban and terrestrial environments.
Microplastics presence in wild bird species through an environmental forensic lens
This study examined microplastic presence in wild bird species using an environmental forensics approach, finding plastic particles across multiple bird taxa in ecosystems ranging from urban to remote. The results highlight wild birds as both sentinels of and victims of plastic pollution.
Non-invasive methodology for the ecotoxicological sampling of anatids in urban and peri-urban areas
Researchers proposed a non-invasive methodology for ecotoxicological sampling of urban ducks and waterfowl to monitor environmental pollution including microplastics. The multidisciplinary approach uses urban waterbirds as bioindicators, taking advantage of their correlation with human pollutant exposure. The study emphasizes that these readily accessible urban species offer a practical way to assess environmental contamination levels in populated areas.
Testing and optimizing methodologies for microplastic extractions from owl pellets
Researchers developed and compared procedures for extracting microplastics from owl pellets, identifying optimal methods that efficiently recovered both prey remains and microplastic particles without damage—providing a validated protocol for using owl pellets as passive biomonitors of environmental microplastic contamination.
Birds as bioindicators of plastic pollution in terrestrial and freshwater environments: A 30-year review
This 30-year review of 106 studies examines how birds in freshwater and land environments are affected by plastic pollution. Most research has focused on larger plastic pieces, while microplastic exposure in these bird species is understudied and nanoplastic exposure has not been investigated at all. The authors urge researchers to develop standardized methods for measuring small plastic particles in birds, which could serve as valuable warning signs of plastic pollution across ecosystems.
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.
Birds and plastic pollution: recent advances
This review summarizes how plastic pollution affects birds across both aquatic and terrestrial habitats, covering ingestion, entanglement, and chemical exposure from macro- and microplastics. Researchers found that hundreds of bird species have accumulated plastic in their tissues, with effects ranging from physical injury to hormonal disruption and reproductive harm. The study positions birds as valuable indicator species for monitoring the broader environmental impact of plastic pollution.
Organ-level translocation and tissue-specific accumulation of micro- and nanoplastics in wild birds
Researchers quantified micro- and nanoplastic burdens across six tissues in ten wild bird species and found that smaller-bodied birds carried higher plastic loads. Nanoplastics showed greater ability to move into internal organs than larger microplastics, and plastic particles were detected in the brain, blood, lungs, and muscle tissue. The study suggests that blood plastic levels could serve as a proxy for internal organ contamination and positions wild birds as potential bioindicators for plastic pollution.
Microplastic accumulation in various bird species in Turkey
Researchers analyzed microplastic contamination in 12 bird species in Turkey, providing the first data of its kind for the country. They found microplastics in all species examined, with variations in particle types and concentrations across different birds. The study contributes to the growing evidence that microplastic pollution affects wildlife across diverse habitats and feeding strategies.
Microplastics in Urban Bird Feces: A Methodological Approach and Case Study in Mexico City
Researchers analyzed pigeon droppings from three sites in Mexico City and found 16 to 28 microplastic particles per gram, mostly fragments of polystyrene and polyethylene smaller than 1 millimeter. The study developed a reliable method for extracting microplastics from organic material with a 93% recovery rate. Urban birds like pigeons can serve as indicators of microplastic pollution levels in cities, reflecting the contamination that humans in those same areas are also exposed to.
The potential of aerial insectivores for monitoring microplastics in terrestrial environments
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.
Microplastic Quantification in Aquatic Birds: Biomonitoring the Environmental Health of the Panjkora River Freshwater Ecosystem in Pakistan
Researchers raised ducks on the banks of the Panjkora River in Pakistan for over four months to assess microplastic contamination in a freshwater ecosystem through biomonitoring. They found microplastics present in the gastrointestinal tracts of all sampled birds, with fibers and fragments being the most common types, primarily composed of polyethylene and polypropylene. The study demonstrates that aquatic birds can serve as effective biological indicators of microplastic pollution levels in river systems.
Assessing microplastic and nanoplastic contamination in bird lungs: evidence of ecological risks and bioindicator potential
Researchers examined the lungs of 51 bird species and found microplastics in all of them, averaging over 400 particles per gram of lung tissue, with nanoplastics also detected in five species tested. Birds may serve as early warning indicators of airborne plastic pollution, and the widespread contamination of their lungs suggests that humans breathing the same air face similar exposure risks.
Species-specific accumulation of microplastics in different bird species from South China: A comprehensive analysis
Across 24 bird species in South China, insectivorous birds accumulated significantly more small microplastics (under 0.1 mm) than other feeding guilds, while piscivorous birds accumulated more large microplastics (over 1 mm). Diet source was a stronger predictor of microplastic contamination than trophic level or body weight, with polypropylene and PET as the dominant polymer types found.
Urban waterbirds shifting microplastics
Researchers found microplastics in the feces of two urban waterbird species in Kerala, India, with polyethylene, polypropylene, and polystyrene being the most common types. Both juvenile and adult birds were affected equally, suggesting that waterbirds can transport microplastics through ecosystems and serve as indicators of local plastic waste levels in freshwater environments.
High microplastic pollution in birds of urban waterbodies revealed by non-invasively collected faecal samples
Researchers analyzed bird droppings from urban freshwater habitats in Germany and found microplastic particles, mainly fibers, in 98% of samples across all species studied. The pollution levels were substantially higher than those reported in other freshwater bird studies, likely reflecting the heavy contamination of urban waterways. Since all the investigated species are at least partially migratory, the findings suggest birds may transport microplastics over long distances.
New techniques for the detection of microplastics in sediments and field collected organisms
Researchers developed new techniques for detecting microplastics in sediment samples and for collecting particles in the field, improving the reliability and sensitivity of methods used to monitor environmental microplastic contamination.
Occurrence, Distribution, and Extraction Methods of Microplastics in Marine Organisms
This review synthesizes global data on microplastic occurrence and distribution across marine organisms, comparing the advantages and limitations of different extraction and identification methods used in the field.
The Presence of Microplastics in the Gastrointestinal Tracts of Song Thrushes (Turdus philomelos) Wintering in Apulia (Southern Italy)—Preliminary Results
Song thrushes hunted in southern Italy were found to contain microplastic fibers, films, fragments, and pellets in their digestive tracts, in a preliminary study of a migratory bird species that travels widely across Europe. The findings add to growing evidence that microplastic contamination is pervasive in terrestrial wildlife and that migratory birds may transport plastics across large geographic areas.
The potential use of birds as bioindicators of suspended atmospheric microplastics and artificial fibers
Researchers examined two aerial bird species, the Common House Martin and Common Swift, as potential bioindicators of atmospheric microplastic pollution. They found microplastics and artificial fibers in both the digestive and respiratory systems of the birds, suggesting these airborne-feeding species are regularly exposed to suspended plastic particles. The study proposes that monitoring microplastics in aerial birds could provide valuable data on atmospheric plastic contamination levels.
Tracing microplastics in environmental sources and migratory shorebirds along the Central Asian Flyway
Researchers tracked microplastic contamination along migratory bird routes in central Asia, testing mudflats, mangroves, and the birds themselves. They found microplastics in both the environment and the digestive tracts of shorebirds, showing that these pollutants are moving through coastal food webs and may be carried across continents by migrating birds.
Plastics and other anthropogenic debris in freshwater birds from Canada.
This study quantified plastic debris ingestion in 17 freshwater and one marine bird species across Canada, finding that over 11% of individuals had ingested anthropogenic debris. The results show that plastic pollution in freshwater environments affects birds at rates comparable to marine species, highlighting the need to extend plastic pollution monitoring beyond the ocean.
Microplastic accumulation in the gastrointestinal tracts of nestling and adult migratory birds
Researchers examined microplastic accumulation in the gastrointestinal tracts of both nestling and adult migratory birds across six species, finding widespread plastic ingestion with fibers predominating, suggesting that microplastic exposure begins early in avian life stages.