Birds as bioindicators of microplastics in the air

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The common raptor ( Delichon urbicum ) is one of the species in which researcher
The common raptor ( Delichon urbicum ) is one of the species in which researchers have detected the presence of microplastics and plant fibers/ Image by Samarta Saiz
A study carried out by the Autonomous University of Madrid, the University of Alcalá and GREFA, has revealed the presence of microplastics and artificial fibers in birds. The results have been published in the journal "Ecotoxicology and Environmental Safety".

Plastic pollution is a global problem. Most plastics end up in the natural environment due to our mismanagement of our waste. Plastics, once in the environment, slowly degrade into smaller particles known as microplastics. Microplastics are plastic particles smaller than 5 millimeters. Their size allows them to move easily through nature. Today we can consider them almost ubiquitous pollutants as they are present in many ecosystems, including remote locations. However, they are least known about in the atmosphere.

The recent study, published in the journal Ecotoxicology and Environmental Safety , conducted by researchers from the Universidad Autónoma de Madrid and the Universidad de Alcalá and members of the Grupo de Rehabilitación de la Fauna Autóctona y su Hábitat (GREFA) of the EnviroPlaNet network, reveals the presence of microplastics and artificial fibers in two abundant bird species: the common house martin(Delichon urbicum) and the common swift(Apus apus).

Group of Common Swift (Apus apus) under care.

The research team collected samples from birds that died between 2021 and 2023. Using various techniques, they identified, characterized and quantified the microplastics and man-made fibers present in the digestive and respiratory systems of the birds. The findings indicated that 75% of the birds tested showed the presence of microplastics. Polyester was the most common type of microplastic found, representing 48% of the particles identified, followed by acrylic fibers (28%) and polyethylene (18%).

The authors highlight the usefulness of the birds selected for this study as bioindicators for monitoring microplastic pollution in the atmosphere. These birds spend most of their lives in flight and are constantly exposed to atmospheric pollution. Monitoring them after their death gives us very useful information on microplastic pollution that would otherwise be impossible to obtain. To achieve comparable data, a sampler would need to be permanently suspended hundreds of meters above the ground, which is impractical.

The study concludes that these birds can provide valuable data on the dispersion of microplastics and man-made fibers in the atmosphere, thus contributing to the assessment of plastic pollution from a One Health perspective (taking into account the health of the ecosystem, humans and, as in this case, animals).

Bibliographic reference:

Wayman, C.; Fernández-Piñas, F.; Fernández-Valeriano, R.; Anibarro, G.; López-Márquez, I.; González-González, F.; Rosa, R.; González-Pleiter, M. (2024). The potential use of birds as bioindicators of suspended atmospheric microplastics and artificial fibers. Ecotoxicology and Environmental Safety , 116744, ISSN 0147-6513, https://doi.org/10.1016/j­.ecoenv.20­24.116744.

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