Long-term genetic stability and a high-altitude East Asian origin for the peoples of the high valleys of the Himalayan arc

The high-altitude transverse valleys [>3,000 m above sea level (masl)] of the Himalayan arc from Arunachal Pradesh to Ladahk were among the last habitable places permanently colonized by prehistoric humans due to the challenges of resource scarcity, cold stress, and hypoxia. The modern population...

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Published in:Proceedings of the National Academy of Sciences - PNAS 2016-07, Vol.113 (27), p.7485-7490
Main Authors: Jeong, Choongwon, Ozga, Andrew T., Witonsky, David B., Malmström, Helena, Edlund, Hanna, Hofman, Courtney A., Hagan, Richard W., Jakobsson, Mattias, Lewis, Cecil M., Aldenderfer, Mark S., Di Rienzo, Anna, Warinner, Christina
Format: Article
Language:English
Subjects:
Altitude
Ancient DNA
Biological Sciences
EGLN1
EPAS1
Gene Flow
Genome, Human
high altitude
Humans
Nepal
Paleodontology
Phylogeography
population genetics
Sequence Analysis, DNA
Tibet
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Summary:The high-altitude transverse valleys [>3,000 m above sea level (masl)] of the Himalayan arc from Arunachal Pradesh to Ladahk were among the last habitable places permanently colonized by prehistoric humans due to the challenges of resource scarcity, cold stress, and hypoxia. The modern populations of these valleys, who share cultural and linguistic affinities with peoples found today on the Tibetan plateau, are commonly assumed to be the descendants of the earliest inhabitants of the Himalayan arc. However, this assumption has been challenged by archaeological and osteological evidence suggesting that these valleys may have been originally populated from areas other than the Tibetan plateau, including those at low elevation. To investigate the peopling and early population history of this dynamic high-altitude contact zone, we sequenced the genomes (0.04×–7.25×, mean 2.16×) and mitochondrial genomes (20.8×–1,311.0×, mean 482.1×) of eight individuals dating to three periods with distinct material culture in the Annapurna Conservation Area (ACA) of Nepal, spanning 3,150–1,250 y before present (yBP). We demonstrate that the region is characterized by long-term stability of the population genetic make-up despite marked changes in material culture. The ancient genomes, uniparental haplotypes, and high-altitude adaptive alleles suggest a high-altitude East Asian origin for prehistoric Himalayan populations.
ISSN:0027-8424
1091-6490
1091-6490
DOI:10.1073/pnas.1520844113