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 1. nature
 2. news
 3. article

  * NEWS
  * 31 August 2023

Human ancestors nearly went extinct 900,000 years ago

A new technique analysing modern genetic data suggests that
pre-humans survived in a group of only 1,280 individuals.

  * Anna Ikarashi^0

 1. Anna Ikarashi
     1. Anna Ikarashi is a science writer based in Salt Lake City,
        Utah.

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    You can also search for this author in PubMed  Google Scholar

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Reconstruction of a specimen of Homo heidelbergensis.

An unknown species of early human nearly died out around 900,000
years ago, according to genetic analysis. It may have been both the
ancestor of Homo heidelbergensis and a species ancestral to our own.
Credit: S. Entressangle/E. Daynes/Science Photo Library

Human ancestors in Africa were pushed to the brink of extinction
around 900,000 years ago, a study shows. The work^1, published in
Science, suggests a drastic reduction in the population of our
ancestors well before our species, Homo sapiens, emerged. The
population of breeding individuals was reduced to just 1,280 and
didn't expand again for another 117,000 years.

"About 98.7% of human ancestors were lost," says Haipeng Li, a
population geneticist at the University of Chinese Academy of
Sciences in Beijing, who co-led the study. He says that the fossil
record in Africa and Eurasia between 950,000 and 650,000 years ago is
patchy and that "the discovery of this bottleneck may explain the
chronological gap".

Nick Ashton, an archaeologist at the British Museum in London, who
wrote a related perspective, says he was intrigued by the tiny size
of the population. "This would imply that it occupied a very
localized area with good social cohesion for it to survive," he says.
"Of greater surprise is the estimated length of time that this small
group survived. If this is correct, then one imagines that it would
require a stable environment with sufficient resources and few
stresses to the system."

Clues from modern-day DNA

To make their discovery, the researchers needed to invent new tools.
Advances in genome sequencing have improved scientists' understanding
of population sizes for the period after modern humans emerged, but
the researchers developed a methodology that enabled them to fill in
details about earlier human ancestors. Serena Tucci, an
anthropologist at Yale University in New Haven, Connecticut, says
that such work was sorely needed. "We still know very little about
the population dynamics of early human ancestors for several reasons,
including methodological limitations and difficulties in obtaining
ancient DNA data from old Homo specimens," she says.

The researchers' method allowed them to reconstruct ancient
population dynamics based on genetic data from modern-day humans. By
constructing a complex family tree of genes, the team was able to
examine the finer branches of the tree with greater precision,
identifying significant evolutionary events.

The technique "put the spotlight on the period 800,000 to one million
years ago -- for which there is much unknown -- in a way that hasn't
been done before," says Stanley Ambrose, an anthropologist at the
University of Illinois at Urbana-Champaign.

This period was part of the Early-Middle Pleistocene transition -- a
time of drastic climate change, when glacial cycles became longer and
more intense. In Africa, this led to long periods of drought. Li says
that the changing climate might have wiped out human ancestors and
forced new human species to emerge. Eventually, these might have
evolved into the last common ancestor of modern humans and our
extinct relatives, the Denisovans and Neanderthals.

Around 813,000 years ago, the population of pre-humans began to swell
again. How our ancestors managed to survive, and what allowed them to
flourish once more remains unclear, says Ziqian Hao, a population
geneticist at the Shandong First Medical University and Shandong
Academy of Medical Sciences in Jinan, and a co-author of the paper.
However, he says that the bottleneck is likely to have had a crucial
impact on human genetic diversity, driving many important features of
modern humans, such as brain size. He estimates that up to two-thirds
of genetic diversity was lost. "It represents a key period of time
during the evolution of humans. So there are many important questions
to be answered," he says.

Ashton would like to see the researchers' findings backed by more
archaeological and fossil evidence. The authors "suggest that the
bottleneck was a global crash in population," he says, "but the
number of archaeological sites outside Africa suggests that this is
not the case. A regional bottleneck might be more likely."

doi: https://doi.org/10.1038/d41586-023-02712-4

References

 1. Hu, W. et al. Science 381, 979-984 (2023).

    Article  Google Scholar 

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