Microplastics in the digestive tract of seabirds alter the microbiome of their gut, a new study shows.
That increases the presence of pathogens and antibiotic-resistant microbes, while decreasing the beneficial bacteria found in the intestines, the researchers report.
Scientists have worried about the potential harms of microplastics for years. These small plastic particles less than 5 mm in length have been found everywhere because of plastic pollution—from the Earth’s deep oceans to remote regions in Antarctica, and even the seafood we eat.
“Our findings reflect the circumstances of animals in the wild. Since humans also uptake microplastics from the environment and through food, this study should act as a warning for us,” the authors say.
“The gut microbiome encompasses all the microbes in the gastrointestinal tract, which help control the digestion of food, immune system, central nervous system, and other bodily processes. It’s a key indicator of health and well-being,” says Julia Baak, a PhD candidate in the natural resource sciences department at McGill University and a coauthor of the study in Nature Ecology & Evolution.
To gain a better understanding of how species are affected by diets chronically contaminated with microplastics, the scientists examined the gut microbiome of two seabird species, the northern fulmar (Fulmarus glacialis) and the Cory’s shearwater (Calonectris borealis) that live mainly on the high seas and feed on marine mollusks, crustaceans, and fish.
“Until now there was little research on whether the amounts of microplastics present in the natural environment have a negative impact on the gut microbial health of affected species,” says Gloria Fackelmann, who conducted the study as part of her doctoral thesis at the Institute of Evolutionary Ecology and Conservation Genomics at Ulm University in Germany.
In studying the seabirds, the researchers discovered that microplastic ingestion changed the microbial communities throughout the gastrointestinal tract of both seabird species.
“The more microplastics found in the gut, the fewer commensal bacteria could be detected. Commensal bacteria supply their host with essential nutrients and help defend the host against opportunistic pathogens. Disturbances can impair many health-related processes and may lead to diseases in the host,” says Fackelmann.
Most studies exploring the impact of microplastics on the microbiome are done in labs using very high concentrations of microplastics, the researchers say.
“By studying animals in the wild, our research shows that changes in the microbiome can occur at lower concentrations that are already present in the natural environment,” Fackelmann says.
Source: McGill University
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