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Your gut bacteria may be telling you what to eat in order to FEED THEM

Two new studies revealed that bacterial composition in the intestines may greatly affect the dietary choices and reproductive success in animals. The studies were carried out by a team of researchers at the University of Sydney’s multidisciplinary Charles Perkins Centre and School of Life and Environmental Sciences and the Macquarie University’s Department of Biological Sciences.

The first study, published in Current Biology, examined the effects of gut bacteria on the foraging behavior of fruit flies. The researchers also assessed how the insects’ foraging behavior influenced the type and timing of bacteria they were exposed. Likewise, the experts examined the insects’ olfactory-guided preferences to nutrients and food microbes.

The researchers found that the fruit flies foraged for nutrients to attain a balanced diet. The experts also noted that the insects foraged for bacteria to populate a healthy gut microbiome. When taking into account the animals’ olfactory response to certain food bacteria, the researchers found that the fruit flies were more likely to forage for beneficial bacteria over less beneficial ones.

“We knew animals foraged for nutrients, in ways that optimise their performance and physiology. Understanding they also forage for beneficial microbes opens up a whole new dimension for future research. The symbiotic relationship can shape how animals, including humans, may perceive and prefer different nutrients and microbes for better overall health,” said lead author Dr Adam Wong.

The second study, featured in Biology Letters, examined the effects of intestinal bacteria on the insects’ reproduction. To carry out the study, the researchers injected the fruit flies with different types of microbes in order to determine the consequences of altering gut bacteria on the animals’ reproduction. The researchers concluded that the type of gut bacteria influenced the success of reproductive investment and mating, as well as the offspring weight in the animal models.

“Given the importance of the gut microbiota in physiology and health, our findings reveal important and long-lasting effects of gut bacteria on reproduction and offspring traits. As understanding of the gut microbiome and its effect increases, the potential for breakthroughs in understanding broader health impacts increases too,” lead author Dr Juliano Morimoto told


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