After humans first migrated out of Africa about 60,000 years ago, we started having sex with Neanderthals – a now extinct archaic but closely-related species. 

Now, scientists claim to have the most accurate estimate yet of when this breeding period took place – and it’s more recently than we thought. 

Two comprehensive studies, including analysis of skulls of ancient modern humans (Homo sapiens) in Europe and Asia, were performed to pinpoint the time period. 

Results show the two species started to breed with each other about 50,500 years ago and continued to do so for about 7,000 years, until Neanderthals began to die out. 

For comparison, previous estimates for the time of interbreeding ranged from 54,000 to 41,000 years ago. 

Neanderthals, who were living in Europe and Asia, had large noses, strong double-arched brow ridge and relatively short and stocky bodies.

Meanwhile, modern humans (Homo sapiens) evolved in Africa but migrated out of the continent 60,000 to 70,000 years ago. 

When we reached Europe and Asia and found the Neanderthals, primitive sexual urges meant the two species couldn’t resist each other, despite the physical differences. 

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Neanderthals, who were already established in Europe and Asia when homo sapiens left Africa, had large noses, strong double-arched brow ridge and relatively short and stocky bodies

The new findings have been published by an international team of experts in two studies, published in Nature and Science. 

‘These results provide us with a deeper understanding of some of the earliest pioneers that settled in Europe,’ said Professor Johannes Krause, co-author of the Nature paper. 

‘They also indicate that any modern human remains found outside Africa that are older than 50,000 years could not have been part of the common non-African population that interbred with Neanderthals.’ 

The scientific community already knows Homo sapiens had sex with Neanderthals because DNA from Neanderthals has been found in the genomes of modern humans.

In fact, most non-Africans today inherit one to two per cent of their ancestry from Neanderthals. 

Since then, the details of human-Neanderthal interactions have offered some of the most pressing questions in human evolutionary biology. 

The Nature paper, led by experts at the Max Planck Institute for Evolutionary Anthropology (MPI-EVA) in Germany, looked at some of the oldest human genes from the skull of a woman, called Zlatý kun, found in the Czech Republic.

They also examined bone fragments from an early human population in Ranis, Germany, about 140 miles (230 kilometers) away. 

This image provided by National Museum, Prague shows the skull of an early Homo sapien called Zlatý k, originally discovered in the Konprusy caves of the Czech Republic

This image provided by National Museum, Prague shows the skull of an early Homo sapien called Zlatý k, originally discovered in the Konprusy caves of the Czech Republic

Artist’s depiction shows what Zlatý k might have looked like during her lifetime. She may have been among some of the first Homo sapiens to have mated with Neanderthals 

Key events in Neanderthal and human history 

  1. 300,000 years ago – Homo sapiens emerge in Africa
  2. 60,000 to 70,000 years ago – Homo sapiens migrate from Africa to Eurasia 
  3. 50,500 to 43,500 years ago – Homo sapiens breed with Neanderthals 
  4. 43,500 years ago – Neanderthals start to die out 

They found snippets of Neanderthal DNA that placed the mating at somewhere between 45,000 and 49,000 years ago. 

Meanwhile, the Science paper looked at 58 ancient genomes sequenced from DNA found in modern human bones from around Eurasia, as well as modern-day human genomes. 

It found modern humans swapped genes with our sister species in a roughly 7,000-year period starting around 50,500 years ago. 

The genome-based estimate is consistent with archaeological evidence that modern humans and Neanderthals lived side-by-side in Eurasia for between 6,000 and 7,000 years. 

‘The period of mixing was quite complex and may have taken a long time,’ said Benjamin Peter, genomics researcher at MPI-EVA and co-author of the Science paper.

‘Different groups could have separated during the 6,000- to 7,000-year period and some groups may have continued mixing for a longer period of time.’ 

The new dates also imply that the initial migration of modern humans from Africa into Eurasia was basically over by 43,500 years ago. 

This model at the Natural History Museum of Basel depicts a Neanderthal female. Despite going extinct around 40,000 years ago, the genes of Neanderthals are still found in humans today

Neanderthals were an early relative of humans who died out around 40,000 years ago, although their time on this planet did overlap with modern humans (homo sapiens). Pictured, a recreation of a Neanderthal woman

Researchers think Neanderthal genes related to immunity and metabolism that may have helped early humans survive and thrive outside of Africa. 

A 2020 study found the two species could produce ‘fertile and healthy’ offspring with ease because they were genetically alike. 

In the biological world, lots of animals are able to breach the species barrier and interbreed and produce healthy offspring, but it is rare for the offspring to be fertile. 

Neanderthals went extinct around 40,000 years ago. 

Reasons for their demise vary, but experts have suggested interbreeding, climate change and violent clashes with humans may be to blame. 

Our genetic code also contains echoes from another slightly more mysterious group of extinct human relatives called Denisovans, who diverged from Neanderthals. 

Less is known about the Denisovans, a population of early humans who lived in Asia at least 80,000 years ago and were also distantly related to Neanderthals. 

Denisovans also bred with humans around 50,000 years ago, meaning the DNA of the early hominids survives today. 

THE DENISOVANS EXPLAINED

Who were they?

The Denisovans are an extinct species of human that appear to have lived in Siberia and even down as far as southeast Asia.

The individuals belonged to a genetically distinct group of humans that were distantly related to Neanderthals but even more distantly related to us. 

Although remains of these mysterious early humans have mostly been discovered at the Denisova Cave in the Altai Mountains in Siberia, DNA analysis has shown the ancient people were widespread across Asia. 

Scientists were able to analyse DNA from a tooth and from a finger bone excavated in the Denisova cave in southern Siberia.

The discovery was described as ‘nothing short of sensational.’ 

In 2020, scientists reported Denisovan DNA in the Baishiya Karst Cave in Tibet.

This discovery marked the first time Denisovan DNA had been recovered from a location that is outside Denisova Cave. 

How widespread were they?

Researchers are now beginning to find out just how big a part they played in our history. 

DNA from these early humans has been found in the genomes of modern humans over a wide area of Asia, suggesting they once covered a vast range.

They are thought to have been a sister species of the Neanderthals, who lived in western Asia and Europe at around the same time.

The two species appear to have separated from a common ancestor around 200,000 years ago, while they split from the modern human Homo sapien lineage around 600,000 years ago.

Last year researchers even claimed they could have been the first to reach Australia.

Aboriginal people in Australia contain both Neanderthal DNA, as do most humans, and Denisovan DNA.

This latter genetic trace is present in Aboriginal people at the present day in much greater quantities than any other people around the world.

 How advanced were they?

Bone and ivory beads found in the Denisova Cave were discovered in the same sediment layers as the Denisovan fossils, leading to suggestions they had sophisticated tools and jewellery.

Professor Chris Stringer, an anthropologist at the Natural History Museum in London, said: ‘Layer 11 in the cave contained a Denisovan girl’s fingerbone near the bottom but worked bone and ivory artefacts higher up, suggesting that the Denisovans could have made the kind of tools normally associated with modern humans.

‘However, direct dating work by the Oxford Radiocarbon Unit reported at the ESHE meeting suggests the Denisovan fossil is more than 50,000 years old, while the oldest ‘advanced’ artefacts are about 45,000 years old, a date which matches the appearance of modern humans elsewhere in Siberia.’

Did they breed with other species?

Yes. Today, around 5 per cent of the DNA of some Australasians – particularly people from Papua New Guinea – is Denisovans.

Now, researchers have found two distinct modern human genomes – one from Oceania and another from East Asia – both have distinct Denisovan ancestry.

The genomes are also completely different, suggesting there were at least two separate waves of prehistoric intermingling between 200,000 and 50,000 years ago.

Researchers already knew people living today on islands in the South Pacific have Denisovan ancestry.

But what they did not expect to find was individuals from East Asia carry a uniquely different type.

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