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Analysis of prehistoric feces shows Stonehenge people had parasites


The prehistoric monument of Stonehenge in Wiltshire, UK. A large Neolithic settlement known as Durrington Walls is less than two miles away and is believed to be where the people who built the famous site camped during the main stage of construction.
Enlarge / The prehistoric monument of Stonehenge in Wiltshire, UK. A large Neolithic settlement known as Durrington Walls is less than two miles away and is believed to be where the people who built the famous site camped during the main stage of construction.

Adam Stanford

Nearly two miles away from Stonehenge, there is a large Neolithic settlement known as Durrington Walls, believed to be where the people who built the famous site camped during the main stage of construction. British archaeologists have analyzed fossilized fecal matter collected at the site and found that it contained the eggs of parasitic worms, according to a new paper published in the journal Parasitology. The preserved feces belonged to both dogs and humans, indicating that people brought dogs to the site with them for winter feasts and likely shared the scraps with the canines.

“This is the first time intestinal parasites have been recovered from Neolithic Britain, and to find them in the environment of Stonehenge is really something,” said co-author Piers Mitchell, an archaeologist at the University of Cambridge. “The type of parasites we find are compatible with previous evidence for winter feasting on animals during the building of Stonehenge.”

For archaeologists keen on learning more about the health and diet of past populations—as well as how certain parasites evolved over the evolutionary history of the microbiome—preserved samples of ancient poo can be a veritable goldmine of information. For instance, ancient Iron Age miners in what is now Austria were quite fond of beer and blue cheese, according to a 2021 analysis of preserved paleo-poop excavated from the prehistoric underground salt mines of Hallstatt-Dachstein/Salzkammergut, a UNESCO World Heritage site. Fecal samples are usually found in dry caves, desert areas, frozen areas, or waterlogged environments (like bogs), where desiccation, freezing, and similar processes preserve the fecal matter for posterity.

As we’ve reported previously, it can be difficult to determine whether fecal samples are human or were produced by other animals, particularly dogs. Usually, only those samples found with human skeletons or mummies could be designated as being of human origin with any certainty. Scientists recently developed a tool (dubbed coproID) capable of determining whether paleofeces and coprolites recovered from archaeological sites are of human or animal origin. Among other discoveries, the researchers found that the archaeological record was unexpectedly full of dog poop.

Human coprolite (preserved human feces) from Durrington Walls, a Neolithic settlement near Stonehenge.
Enlarge / Human coprolite (preserved human feces) from Durrington Walls, a Neolithic settlement near Stonehenge.

Lisa-Marie Shillito

Prior studies have compared fecal parasites found in hunter-gatherer and farming communities, thereby revealing dramatic dietary changes, as well as shifts in settlement patterns and social organization coinciding with the rise of agriculture. The wealthy, privileged elite of Jerusalem in the 7th century BCE were plagued by poor sanitary conditions and resulting parasitic intestinal diseases, according to a paper published earlier this year in the International Journal of Paleopathology. An analysis of soil samples collected from a stone toilet found within the ruins of a swanky villa revealed the presence of parasitic eggs from four different species.

However, very little is known about the degree of parasitic infection in the prehistoric population of Britain up to the Neolithic period, according to Mitchell et al. So the authors decided to examine coprolites excavated from the Durrington Walls site (dated to around 2500 BCE) to determine whether humans and animals living at the site were indeed infected with parasites and whether it was possible to detect the eggs of non-infective parasites some 4,500 years later.

Coprolites aren’t quite the same as paleofeces, which retain a lot of organic components that can be reconstituted and analyzed for chemical properties. Coprolites are fossils, so most organic components have been replaced by mineral deposits like silicate and calcium carbonates. It can be challenging to distinguish the smallest coprolites from eggs, for example, or other kinds of inorganic pellets. But coprolites typically boast spiral or annular markings and may contain undigested fragments of food.

(left) Microscopic egg of capillariid worm from Durrington Walls. (right) Microscopic egg of fish tapeworm found in dog coprolite.
Enlarge / (left) Microscopic egg of capillariid worm from Durrington Walls. (right) Microscopic egg of fish tapeworm found in dog coprolite.

Evilena Anastasiou/University of Cambridge

Archaeologists excavated the site in 2004-2007 and found the floors of several houses, middens (deposits for organic waste), and over 100 pits. They found a large collection of pottery, worked stone tools, and over 38,000 animal bones, mostly from pigs, indicating this was a site of feasting. And some of the pits held coprolites. Mitchell et al. examined 19 samples collected from the site and subjected them to scientific analysis.

Five of those coprolites contained parasitic eggs—four coprolites from dogs, one from a human. One canine coprolite contained the eggs of fish tapeworm, so the dog would have consumed raw freshwater fish at some point. Since there was no evidence of any consumption of fish at the site—which was likely mainly occupied during the winter season—the authors believe the dog picked up the tapeworm eggs from one of the home settlements elsewhere.

The human coprolite and three of the canine coprolites contained the lemon-shaped eggs of capillariid worms. It’s unusual to find the eggs in human stool since, with human infections, the eggs tend to end up in the liver and are never excreted. The authors interpret this to mean that the person in question had likely eaten raw or under-cooked lungs or liver from an animal that was already carrying the parasite, so the eggs passed straight through the body. And that person likely shared the leftovers with the dogs.

“We know they must have been eating internal organs such as the liver, where this parasite would normally live, and they were also feeding it to their dogs, because the dogs had the same kind of parasite,” Mitchell told New Scientist. “[The results] show a really interesting way that humans were living with their companion animals thousands of years ago. They were still treating their dogs as one of the family even back then. It’s given us this wonderful window of evidence that we didn’t have before.”

DOI: Parasitology, 2022. 10.1017/S0031182022000476  (About DOIs).



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