'More advanced' farming women married hunter-gatherer men in Europe thousands of years ago, ancient DNA reveals

1. Archaeology

'More advanced' farming women married hunter-gatherer men in Europe thousands of years ago, ancient DNA reveals

Opinion By Maria Pala, Martin B. Richards published 8 March 2026

Two researchers discuss how ancient DNA is used to track how people moved and lived during Britain's bronze age.

When you purchase through links on our site, we may earn an affiliate commission. Here’s how it works.

Ancient DNA helps researchers uncover more clues about the bronze age in Britain. (Image credit: Photo - Lyn Randle via Getty Images)

• Copy link
• Facebook
• X
• Whatsapp
• Reddit
• Pinterest
• Flipboard
• Email

Share this article 0 Join the conversation Follow us Add us as a preferred source on Google Newsletter Live Science Get the Live Science Newsletter

Get the world’s most fascinating discoveries delivered straight to your inbox.

Become a Member in Seconds

Unlock instant access to exclusive member features.

Contact me with news and offers from other Future brands Receive email from us on behalf of our trusted partners or sponsors By submitting your information you agree to the Terms & Conditions and Privacy Policy and are aged 16 or over.

You are now subscribed

Your newsletter sign-up was successful

Want to add more newsletters?

Delivered Daily

Daily Newsletter

Sign up for the latest discoveries, groundbreaking research and fascinating breakthroughs that impact you and the wider world direct to your inbox.

Signup +

Once a week

Life's Little Mysteries

Feed your curiosity with an exclusive mystery every week, solved with science and delivered direct to your inbox before it's seen anywhere else.

Signup +

Once a week

How It Works

Sign up to our free science & technology newsletter for your weekly fix of fascinating articles, quick quizzes, amazing images, and more

Signup +

Delivered daily

Space.com Newsletter

Breaking space news, the latest updates on rocket launches, skywatching events and more!

Signup +

Once a month

Watch This Space

Sign up to our monthly entertainment newsletter to keep up with all our coverage of the latest sci-fi and space movies, tv shows, games and books.

Signup +

Once a week

Night Sky This Week

Discover this week's must-see night sky events, moon phases, and stunning astrophotos. Sign up for our skywatching newsletter and explore the universe with us!

Signup +

Join the club

Get full access to premium articles, exclusive features and a growing list of member rewards.

Explore An account already exists for this email address, please log in. Subscribe to our newsletter

When ancient DNA studies began to gain attention, little more than a decade ago, the view took hold among geneticists that everything we thought we knew about the peopling of Europe by modern humans was wrong. The story was simpler than anyone was expecting: Europe was settled in just three massive migrations from the east.

First came the hunter-gatherers, more than 40,000 years ago. Then, after 9,000 years ago, there was an expansion of farming people from Anatolia during the Neolithic age.

Finally, from 5,000 years ago, the Corded Ware people expanded out of the Russian steppe to inaugurate the European Bronze Age. The Corded Ware were named after the cord-like impressions in their pottery and carried a distinctive genetic signature previously absent from most of Europe. Genetically, most present-day Europeans have some of each.

You may like

• 5,500 years ago, a teenage girl was buried with her father's bones on her chest, new DNA study reveals
• 'Biological time capsules': How DNA from cave dirt is revealing clues about early humans and Neanderthals
• 7,500-year-old deer skull headdress discovered in Germany indicates hunter-gatherers shared sacred items and ideas with region's first farmers

This was always an over-simplification, however. Our new paper, produced with colleagues from the U.S. and across Europe, has highlighted some of the more complex interactions between ancient populations that took place in north-west Europe.

Our research untangles the origins of prehistoric populations across Belgium and the Netherlands, as well as identifying the source population for a migration into Britain during the late Neolithic that seems to have led to a 90% replacement of Britain's Neolithic farmers.

Ancient DNA research already suggested a much more nuanced picture. For example, when early Neolithic farmers first moved into Europe, they interacted little with the local hunter-gatherer people. As a result, although they now lived far from their homeland, their genomes still resembled those of their ancestors from Anatolia.

Hunter-gatherer ancestry in populations across Europe between 4500 B.C. and 2500 B.C. (Image credit:  Nature / University of Huddersfield)

But by 1,000–2,000 years later, they had absorbed significant local ancestry. Their hunter-gatherer ancestry swelled from only 10% to 30–40% in some regions. Clearly the hunter-gatherers had not vanished as the farmers expanded.

Sign up for the Live Science daily newsletter now

Get the world’s most fascinating discoveries delivered straight to your inbox.

Contact me with news and offers from other Future brandsReceive email from us on behalf of our trusted partners or sponsorsBy submitting your information you agree to the Terms & Conditions and Privacy Policy and are aged 16 or over.

Northern wetlands

The new research takes us even further from the simple picture. Almost a decade ago, our research group at the University of Huddersfield began a collaboration with palaeoecologist Professor John Stewart from Bournemouth University and archaeologists at the Université de Liège, Belgium. We analyzed the genomes of Neolithic human remains excavated along the River Meuse in Belgium, dating to around 5,000 years ago.

This work became part of a larger project, led by Professor David Reich and Dr Iñigo Olalde at Harvard University, involving geneticists and archaeologists from across western Europe. This widened the focus to further sites around the Lower Rhine–Meuse area — wetlands and coastal areas as well as rivers — spanning the late hunter-gatherer cultures to the Bronze Age.

The fertile soils south of the Rhine-Meuse wetlands had attracted pioneer Neolithic farmer-colonists as early as 5,500 B.C. However, the rich resources of the northern wetlands were more suited to the lifestyle practiced by hunter-gatherers. Even so, the results, generated by our research student, Alessandro Fichera, in collaboration with Harvard, came as a big surprise.

What to read next

• 'More Neanderthal than human': How DNA from our long-lost ancestors affects our health today
• Stone Age woman was buried like a man, revealing flexible gender roles 7,000 years ago in Hungary
• Remote region in Greece has one of the most genetically distinct populations in Europe

The genomes of people from later Neolithic times in Belgium carried at least 50% local hunter-gatherer ancestry, alongside the expected Anatolian farmer ancestry. Discussing these results with our collaborators led to a "eureka" moment: the same pattern appeared at other sites situated in similarly water-rich environments across the region.

Notably, many of the earlier Neolithic Dutch samples from further north — such as the Swifterbant culture, well-known for maintaining a hunter-gatherer economy alongside some adoption of agriculture — carried close to 100% hunter-gatherer ancestry.

Women's role in the spread of farming

We then compared the Y-chromosome and mitochondrial DNA, which track the male and female lines of descent, respectively. The Y chromosomes in the Belgian remains were all characteristic of hunter-gatherers, but three-quarters of the mitochondrial DNA lineages had come from Neolithic farmers living further south. The implication was clear: farming know-how had been imported into the "waterworld" hunter-gatherer communities by women.

Our findings support a version of the "frontier mobility" or "availability" model for the spread of the Neolithic, proposed by archaeologists Marek Zvelebil and Peter Rowley-Conwy in the 1980s. They envisioned a contact zone between pioneer farming groups arriving by "leapfrog colonization" and hunter-gatherer areas.

A shovel from the Bronze Age (Image credit: IAA)

In the model, the "availability" phase entailed contact and small-scale movements across the frontier, with trading relationships and marriage alliances, for example, forming gradually. This would be followed by a "substitution" phase where farming develops alongside foraging in the hunter-gatherer area, and eventually a "consolidation" phase, when farming predominates.

Our results suggest that the frontier was much more permeable to women than it was to men, and that it may have been marriage of Neolithic women into the forager communities that eventually helped the hunter-gatherers to adopt farming full time. After all, because of the predominance of farming across Europe, the likely alternative long-term was extinction.

Perhaps this kind of model might also apply to other parts of Europe where we lack evidence for how the increased hunter-gatherer ancestry in the later Neolithic came about. In any case, the fact that, here, the "more advanced" farming women married into hunter-gatherer groups, contrary to many archaeologists' expectations that hunter-gatherer women would "marry up", suggests that perceptions need to change.

Beakers, Bronze Age and Britain

Around 4,600 years ago, though, people were on the move again. A new wave of settlers — pastoralist-farmers hailing ultimately from the Russian steppe — began to infiltrate the Rhine area in the form of the Corded Ware culture. As growing numbers moved in from the east, they were transformed — we still don't understand exactly how — into what is known as the Bell Beaker culture.

Within a few centuries, the genetic landscape of the Rhine-Meuse region, including the wetlands, was completely reshaped. Our colleagues found that, 4,400 years ago, less than 20% of the ancestry of the people living there traced back to the earlier farmers and hunter-gatherers. At least 80% of their ancestry was now from the steppe.

RELATED STORIES

— 'You could almost see and smell their world': Remnants of 'Britain's Pompeii' reveal details of life in Bronze Age village

— Vast cemetery of Bronze Age burial mounds unearthed near Stonehenge

— People have been dumping corpses into the Thames since at least the Bronze Age, study finds

The Bell Beaker people rapidly expanded and rippled out further in all directions, creating the Bronze Age of Central Europe. And not only Central Europe — they also spread across the English Channel and throughout Britain, extending as far north as Orkney.

It looks as if the British farmers who had been building Stonehenge over the preceding centuries all but disappeared — again, for reasons which remain unclear.

But did they actually vanish? Perhaps this rather blunt picture might become more nuanced too, as we learn more fine-grained details of what happened from archaeology and ancient DNA.

This edited article is republished from The Conversation under a Creative Commons license. Read the original article.

Martin B. RichardsResearch Professor in Archaeogenetics, Department of Physical and Life Sciences, University of Huddersfield

Martin B. Richards is Professor of Archaeogenetics at the University of Huddersfield, UK. He studied genetics at the Universities of Sheffield and Manchester, moving into archaeogenetic research at the University of Oxford in 1990. He subsequently moved to UCL, the University of Huddersfield, the University of Leeds, and finally back to Huddersfield in 2012, to take up a Research Chair in Archaeogenetics.

View More

You must confirm your public display name before commenting

Please logout and then login again, you will then be prompted to enter your display name.

Logout Read more 5,500 years ago, a teenage girl was buried with her father's bones on her chest, new DNA study reveals    'Biological time capsules': How DNA from cave dirt is revealing clues about early humans and Neanderthals    7,500-year-old deer skull headdress discovered in Germany indicates hunter-gatherers shared sacred items and ideas with region's first farmers    'More Neanderthal than human': How DNA from our long-lost ancestors affects our health today    Stone Age woman was buried like a man, revealing flexible gender roles 7,000 years ago in Hungary    Remote region in Greece has one of the most genetically distinct populations in Europe    Latest in Archaeology 'Cikai Korran came here and saw': Visitors from India graffitied dozens of Egyptian tombs 2,000 years ago    The sword in the sea: How one lucky graduate student found his second Crusader sword while taking a swim off Israel's coast    Climate disasters caused societal upheaval 3,000 years ago in China, study of 'oracle bones' hints    Stone Age woman was buried like a man, revealing flexible gender roles 7,000 years ago in Hungary    9 ways people have modified their bodies since the dawn of time, from foot binding to castration    Ancient 'alien-like' skulls have been found on every continent but Antarctica. Anthropologists are starting to figure out why.    Latest in Opinion 'More advanced' farming women married hunter-gatherer men in Europe thousands of years ago, ancient DNA reveals    Pain lasts longer in women, and immune cells may be the culprit    Could gut microbes hold the secret to aging well? A researcher unpacks the emerging science    New tech allows parents to 'score' IVF embryos for desirable traits — and it's in desperate need of regulation    Vaccine denial sets Americans up for more chronic illness    How menopause affects the brain — and what we still don't know    LATEST ARTICLES

1. 1Scientists tracked faint signals from the stars — and may have turned up hundreds of undiscovered planets
2. 2Humans are being replaced by machines in the food supply chain — and it's leading to truckloads of waste
3. 3'Exposed Cranium' leaks its gory secrets in new James Webb telescope images: Space photo of the week
4. 4Why aren't mammals as colorful as reptiles, birds or fish?
5. 5Enormous 3D map of the universe shows brilliant 'sea of light' near the cosmic dawn