what they looked like: An artist’s rendering showed the humans of Sima de los Huesos, who are estimated to have lived about 400,000 years ago during the Middle Pleistocene. So far, their discovery has provided more questions than answers.
Photos by Madrid Scientific Films,
This undated photo provided by Madrid Scientific Films in December 2013 shows the thigh bone of a hominin estimated to be about 400,000-years-old, excavated from Sima de los Huesos, Spain. Scientists have reached farther back than ever into the ancestry of humans to recover and analyze DNA, with a sample from this bone. So far, the achievement has provided more questions than answers about the human family tree. Results were presented online Wednesday, Dec. 4, 2013 in the journal Nature by Matthias Meyer and colleagues at the Max Planck Institute for Evolutionary Anthropology in Leipzig, Germany, with co-authors in Spain and China. (AP Photo/Madrid Scientific Films, Javier Trueba)
Javier Trueba • Madrid Scientific Films via Associated Press,
Ancient DNA, new mystery
- Article by: CARL ZIMMER
- New York Times
- December 4, 2013 - 9:10 PM
Scientists have found the oldest DNA evidence yet of humans’ biological history. But instead of neatly clarifying human evolution, the finding is adding mysteries.
In a paper in the journal Nature, scientists reported Wednesday that they had retrieved ancient human DNA from a fossil dating back about 400,000 years, shattering the previous record of 100,000 years.
The fossil, a thigh bone found in Spain, had previously seemed to many experts to belong to a forerunner of Neanderthals. But its DNA tells a very different story.
It most closely resembles DNA from an enigmatic lineage of humans known as Denisovans. Until now, they were known only from DNA retrieved from 80,000-year-old remains in Siberia, 4,000 miles east of where the new DNA was found.
The mismatch between the anatomical and genetic evidence surprised the scientists, who are now rethinking human evolution over the past few hundred thousand years.
It is possible, for example, that there are many extinct human populations that scientists have yet to discover. They might have interbred, swapping DNA. Scientists hope that further studies of extremely ancient human DNA will clarify the mystery.
“Right now, we’ve basically generated a big question mark,” said Matthias Meyer, a geneticist at the Max Planck Institute for Evolutionary Anthropology in Leipzig, Germany, and a co-author of the new study.
Hints at new hidden complexities in the human story came from a 400,000-year-old femur found in a cave in Spain called Sima de los Huesos (“the pit of bones” in Spanish). The scientific team used new methods to extract the ancient DNA from the fossil.
“This would not have been possible even a year ago,” said Juan Luis Arsuaga, a paleoanthropologist at Universidad Complutense de Madrid and a co-author of the paper.
But the DNA did not match that of Neanderthals. Meyer then compared it with the DNA of the Denisovans, the ancient human lineage he and his colleagues had discovered in Siberia in 2010. He was shocked to find that it was similar.
The new finding is hard to reconcile with the picture of human evolution that has been emerging based on fossils and ancient DNA. Denisovans were believed to be limited to East Asia, and they were not thought to look so Neanderthal-like.
One alternative explanation is that the humans of Sima de los Huesos were not true Neanderthals but belonged to the ancestors of both Denisovans and Neanderthals.
It is also possible the newly discovered DNA was passed to both Neanderthals and Denisovans but eventually disappeared from Neanderthals, replaced by other variants.
“It got lost in one lineage but made its way in the other,” suggested Jean-Jacques Hublin, a Max Planck paleoanthropologist who was not involved in the research.
Beth Shapiro, an expert on ancient DNA at the University of California, Santa Cruz, favors an even more radical possibility: that the humans of Sima de los Huesos belong to yet another branch of humans. They might have been a species called Homo erectus, which originated about 1.8 million years ago and became extinct within the past few hundred thousand years.
Piecing together the puzzle
When an organism dies, its DNA breaks down into smaller and smaller fragments, while also becoming contaminated with the DNA of other species such as soil bacteria.
In 1997, Svante Paabo of the Max Planck Institute and his colleagues, who had pioneered the techniques for retrieving DNA fragments, published a snippet of DNA from a Neanderthal fossil dating back about 40,000 years. They and other scientists then built on this success by searching for bits of DNA from other Neanderthals.
In 2006, a team of French and Belgian researchers obtained a fragment of Neanderthal DNA dating back 100,000 years, which until now held the record for the oldest human DNA ever found.
Meanwhile, using improved methods, Paabo, Meyer and their colleagues assembled a rough draft of the entire Neanderthal genome in 2010.
That discovery shed light on how Neanderthals and humans’ ancestors split from a common ancestor hundreds of thousands of years ago. It also revealed that Neanderthals and humans interbred around 50,000 years ago.
About the same time, Russian collaborators sent the Max Planck team 80,000-year-old fossils they had found in a cave in Siberia called Denisova. When the German scientists sequenced the entire genome from the finger bone of a girl, it turned out to be neither human nor Neanderthal but from a separate lineage, which the team named Denisovans.
Meyer is hopeful more DNA from the Spanish fossils will help solve the puzzle.
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