Researchers Just Looked at Neanderthal Poop to Understand Their Guts

The site at El Salt, Spain, where ancient poop keeps turning up.
The site at El Salt, Spain, where ancient poop keeps turning up.
Photo: University of Bologna

Around 50,000 years ago, a bunch of Neanderthals made a home—and a bathroomout of what is now a rocky escarpment south of Valencia, Spain. Over the last few years, some of those paleo-poops, the oldest known to come from a human species, have been excavated and analyzed. Now, researchers have caught a glimpse of the ecosystems that existed in the guts of those early hominins, from a fecal deposit in the remnants of a fire pit on the site.

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Over 200 bacterial microorganisms were extracted from the ancient poop by an interdisciplinary team of archaeologists, microbiologists, and anthropologists. The researchers found a striking amount of consistency between the microbial residents of the Neanderthal gut and the sort of microbes that populate the guts of modern humans. That consistency shows many minuscule denizens of our insides are actually longstanding residents, living in us for hundreds of thousands of years, and have coevolved with the hominins they inhabit. The research was published in the Nature journal Communications Biology.

According to Marco Candela, a microbiologist at the University of Bologna and co-author of the paper, the team wanted “to see which microbiomes are coevolving with the Homo lineage in evolutionary time.” To do this, they looked for microbes that contemporary humans might share with Neanderthals.

Having an early reconstruction of a human gut is useful in contextualizing what our microbiomes look like today; researchers want to know which bacteria have remained with us and which have disappeared entirely from our internal ecosystems. Microorganisms with substantial staying power in the guts of mammals were termed “old friends” in the mid-2000s, and their co-evolution with us has been linked to the ways humans have lived for hundreds of thousands of years.

Understanding Neanderthals allows us to better chart our own evolutionary path.
Understanding Neanderthals allows us to better chart our own evolutionary path.
Photo: CESAR MANSO/AFP via Getty Images (Getty Images)

The oldest gut microbiome data for humans is about 8,000 years old—it doesn’t even precede the last ice age, which ended about 11,000 years ago. That has left researchers in the lurch when it comes to understanding the insides of our early ancestors. The Neanderthal poop pushes the chronology back some 40,000 years—shortly before Neanderthals as we know them disappear from the evolutionary record.

“The point is that we identified some microorganisms that are shared between modern humans and Neanderthals,” Candela said. “This means that these microorganisms populate the gut of the human lineage before the segregation of the Neanderthal and sapiens lineages.”

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An important find in the Neanderthal poop was the inclusion of short-chain fatty acid-producing bacteria, many of which allow humans to eke out extra energy from dietary fiber, and one of which the researchers suggest may have provided health benefits to ancient mothers and their children. But just as good microbes hitchhiked through time in our guts, so too did the hell-raisers—the researchers also found bacterial pathogens in the feces that remain around today, causing oral and dental diseases in modern humans.

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Ainara Sistiaga, a geoarchaeologist and geochemist at the Massachusetts Institute of Technology and co-author of the study, said that some of the specific groups of bacteria identified could provide some insight into ancient diets. For example, some of the bacteria found by the researchers are known to help convert cholesterol into a form that can’t be absorbed by our guts, possibly lowering the risk of certain cardiovascular diseases. “This trait might have been a clear evolutionary advantage for Neanderthals having a high-meat diet,” she said.

According to Candela, the microbiomes of populations that live in traditional, rural ways, like the Hazda, a group of hunter-gatherers in northern Tanzania, tend to have guts that are more alike. On the other side are humans who inhabit urban environments, which isolate our guts and make our bacterial residents less similar from person to person. The paper describes a wholesale loss in bacterial diversity in the modern human gut and a situation in which each of our guts aren’t talking to one another like they did in our evolutionary past. “Each of us is like an island,” Candela said.

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Often, the human evolutionary path is framed heroically—out of many early humans, ours was the one to succeed. But as the Neanderthal microbiome shows, we were hardly alone for that journey. Plenty of micro-organisms had the same path.

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“Based on these results, we can anticipate the symbiotic time-depth between humans and some co-resident microbes to be at least one million years,” wrote co-author Stephanie Schnorr in a Nature blog on the research. “This implies a fixed physiological relationship that is linked to normal development and health in longevity across both humans and Neanderthals as an ancient legacy.”

The implication of 1 million years coexistence with certain microorganisms on human health is that this means there is a long-standing relationship between us and certain gut residents, which impact our physiology,” said co-author Stephanie Schnorr, a biological anthropologist at the University of Nevada, Las Vegas, in an email. “If they have had this role for 1 million years, then this would appear to be evolutionarily important, integral to our normal growth and development, and essential for working with our own bodies to perform their functions as we would want and expect as being healthy humans.

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Hopefully, more feces will be studied in the future, so we can further unpack the guts that have made us who we are. For now, we can be grateful that the findings aren’t crap.

This article has been updated to include comments from Ainara Sistiaga and Stephanie Schnorr.

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DISCUSSION

By
AuBricker

I wonder how much if at all Neanderthals and the early modern humans with whom they mingled realize they were different sorts of creatures.