DISCOVERIES
Our ancestors’ gut microbiome may have helped them adapt to new areas
All the month’s biggest science news. In this issue: how our microbiome could have allowed our species to spread; the feasibility of building a bridge between Scotland and Ireland; new research on the cause of migraines; cuttlefish cognition.
Our feet may be made for walking but it’s our gut bacteria that enabled us to spread so far around the globe, according to a new study carried out by a team of scientists at North Carolina State University in the US. The researchers suggest that our microbiome could have been the crucial factor that allowed us to adapt and survive in new locations. The hypotheses suggested by this study still need to be tested by palaeoanthropologists, ecologists and medical researchers, but Dr Rob Dunn, the biologist who led the team, hopes it will shift the emphasis of future research.
“We’re hoping the findings will change some questions, and that other researchers will study
The consequences of changes in the human microbiome,” said Dunn.
By using data from previously published studies of gut bacteria found in humans and other primates, the team found that there are big differences in the function and composition of a person’s microbiome depending on their location, their diet and their lifestyle. They think that when our ancestors arrived in new places and encountered new foods, it was the adaptability of their gut bacteria that allowed them to detoxify and digest the food.
But the team also believes that our ancestors learnt to process food by employing the bacteria from their bodies to initiate the fermentation process. Similar methods are still in use today – bacteria in saliva are used to produce alcoholic drinks in Latin America, and skin bacteria are involved in the production of some soft cheeses and sourdough breads. By using their microbes to ferment certain meats, tubers and roots, our ancestors were able to enrich the vitamin content of these foods as well as preserve them for longer to provide a lasting source of nutrition in a particular location.
“We outsourced our body microbes into our foods – that could well be the most important tool we ever invented.
But it’s a hard tool to see in the past and so we don’t talk about it much. Stone artefacts preserve, but fish or beer fermented in a hole in the ground doesn’t,” said Dunn. “Hopefully the next decade will see more focus on microbes in our past and less on sharp rocks.”
Dr Tim Spector, professor of genetic epidemiology at King’s College London and author of The Diet Myth, echoes the sentiment. “The hypothesis that microbes helped our ancestors adapt to new environments is compelling, though hard to prove,” he said. “Our gut microbes are the most unique and modifiable part of our bodies and will rapidly react to new foods and environment. We share only around 25 per cent of our microbes with each other compared to over 99 per cent of our genes, so it makes sense that we relied on them for the rapid adaptations needed as we expanded [our range].”
“We outsourced our body microbes into our foods – that could well be the most important tool we ever invented”