Wild birds’ health is affected by the gut microbiome
Posted on: 15 October 2024
Researchers have just discovered that the gut microbiome affects the health of wild birds, which could in turn impact their survival rates and ultimately population sizes.
The first-of-its-kind study, published today in Proceedings of the National Academy of Sciences (PNAS), was led by researchers at University College Cork (UCC). It also involved Dr Caroline McKeon, from Trinity’s School of Natural Sciences and the Climate + Biodiversity + Water Co-Centre, the cross-institutional research centre co-hosted by Trinity.
The work provides direct evidence of the role of the gut microbiome in the ecology and evolution of natural populations.
The researchers manipulated a wild bird’s (the great tit) microbiome by feeding them a microorganism known as Lactobacillus kimchicus, which belongs to a group of bacteria that are known to be beneficial to health.
Large quantities of this bacterium were cultured from the gut microbiome of nestling birds in 2020 and converted into a freeze-dried powder. In a woodland location in West Cork, pots of mealworms were placed outside bird’s nest boxes. A selection of nests received plain mealworms in pots and a selection received mealworms coated in freeze-dried Lactobacillus kimchicus bacteria.
Taking the mealworms from the pots, the parent birds in the nests fed both themselves and the nestling birds. At various points throughout the nesting stage, the researchers measured the weight of the nestling birds and collected their faecal samples to examine their gut microbiota.
The researchers discovered that nestling birds fed with the added Lactobacillus had a different composition of bacteria in their gut microbiota and were also heavier in weight during the all-important growth period just before they fledge the nest.
“While laboratory studies have shown that the microbiome can affect the health of rodents and humans, very few studies have looked at the microbiome of wild animals,” said lead author of the study, Dr Shane Somers, who conducted the study as part of his PhD in the School of BEES and APC Microbiome Ireland at UCC.
“Calories in the wild are hard to come by; much harder, for example, than for humans in contemporary society. This means any advantage an individual can get will be important for their survival. Our findings are significant because we show that the gut microbiome can give its host a likely survival advantage in the wild.”
Professor John Quinn, School of Biological, Earth and Environmental Sciences, UCC, said: “Culturing bacteria from hosts is very difficult. Most probiotics used are off-the-shelf and not necessarily adapted to the animal they are given to. This study is different because we isolated the strain directly from the faeces of wild birds and fed it back to them. Why the strain we isolated and cultured is beneficial is not clear, but our analysis suggests that it is most likely linked to carbohydrate and protein metabolism.”
Co-author of the study, Dr Gabrielle Davidson, University of East Anglia, said: “Our research suggests that replenishing essential gut microbes could play a key role in helping wildlife adapt and survive. Probiotics could become an important tool for wildlife conservation in the future.”
Professor Paul Ross, Director of APC Microbiome Ireland, said: “Lactobacillus kimchicus was isolated from a wild bird in the laboratory of Professor Catherine Stanton at Teagasc Moorepark Food Research Centre, where it was fully characterised and prepared for the study. This publication is significant in that it is a very rare example of the ability to positively manipulate the gut microbiome of an animal in the wild.”
Dr Caroline McKeon, from Trinity’s School of Natural Sciences and the Climate + Biodiversity + Water Co-Centre, the cross-institutional research centre co-hosted by Trinity, added: “This work is a great example of the benefits of collaborative research; bringing together skill sets across fieldwork, lab work, sequencing, bioinformatics, statistical analysis and of course ecological theory has helped to make a significant contribution to understanding the microbiome’s role in ecology and evolution.”
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