Our bodies are teeming with bacteria: for every one human cell in your body, there are at least 10 microbial cells. That’s about 100,000,000,000,000 microbes – what are they all doing?
The communities of microorganisms that live on or in a particular host are called the microbiota, and are responsible for a lot of physiological and biochemical functions. It’s probably no surprise that the gut microbiota digest complex molecules we’ve eaten and they keep pathogens from colonizing our bodies (most of the time). They synthesize vitamins and amino acids that we can’t make ourselves. Recent studies have shown that variation in gut microbiota are associated with obesity, diabetes, normal brain development and insulin signaling (which has a downstream affects on body size and developmental rate). But there’s one effect that variation in microbiota can have on their host that is particularly fascinating to me: they can influence host mate choice.
In 1989, Diane Dodd reared fruit flies (Drosophila pseudoobscura) from a common stock on two different food sources: starch and maltose. She found that after multiple generations of isolation on their separate substrates, starch-flies preferred to mate with starch-flies and maltose-flies preferred to mate with maltose-flies. The result was robust and repeatable, but the reason why and its mechanism were unknown.