But to mock Neanderthals is to mock ourselves: Homo sapiens had lots of sex with Homo neanderthalensis.
Neanderthal genes supply between 1 and 4 percent of the genome in people from homelands on several continents, from Britain to Japan to Colombia.
DNA from another human-like primate, the Denisovans, lurks in modern genomes, too. A molar and a chip of pinkie bone found in a Siberian cave provide what little information we have about this species.
DNA extracted from the fragments previously revealed cross-species breeding. Yet a 2018 study in the journal Cell shows the ancient hanky-panky did not stop in Siberia: Humans who traveled across South Asia mated with a separate group of Denisovans as well.
“This is a breakthrough paper,” said David Reich, who studies ancient DNA at Harvard University and was not involved with the study.
“It’s a definite third interbreeding event,” one that adds to the previously known Denisovan and Neanderthal mixtures.
Humans and Neanderthals divided into separate groups as far back as 765,000 years ago. Denisovans and Neanderthals were closer cousins who split more recently and then vanished – perhaps because we absorbed their lineages.
A team of scientists, led by University of Washington biostatistician Sharon R. Browning, took an approach that Reich called a “technical tour de force”.
In the study, Browning and her colleagues examined more than 5,500 genomes of modern humans from Europe, Asia and Oceania, looking for any possible archaic DNA.
“We’re looking for segments of DNA in an individual that look quite different from the rest of the variation in the population,” Browning said.
After the team fished out the DNA variations, the researchers matched the segments to Denisovan and Neanderthal sequences, known from samples in Siberia’s Altai Mountains.
All groups studied, from British and Bengali people to Peruvians and Puerto Ricans, had a dense cluster that closely matched the Altai Neanderthals.
Some populations also had a cluster that matched the Altai Denisovans, which was particularly pronounced in East Asians.
The surprise was a third cluster – not like the Neanderthal DNA and only partially resembling the Altai Denisovans. This, the authors concluded, was a second and separate pulse of Denisovan genes into the DNA blender.
“The geography is quite suggestive,” Browning said. The authors hypothesize that, as ancestral humans migrated eastward, they came across two different Denisovan populations. One pulse, to the north, shows up in people from China, Japan and Vietnam.
The other Denisovan pulse appears to the south. “Maybe it was down in the southeast corner of Asia,” Browning said.
“It could possibly have been on an island en route to Papua New Guinea, but we clearly don’t know.”
Reich said he would not be surprised if methods similar to this one revealed additional mixtures. “I am sure there are others,” he said, considering the wide range of archaic groups across Eurasia.
Browning plans to continue to hunt for additional mixtures, including among people of African descent who were excluded from this study because the warm continental climate makes finding archaic DNA a challenge.
“We’re interested in other populations around the world, especially Africa,” she said.
A version of this story was first published in March 2018.
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This article was originally published by The Washington Post.