Scientists have used mitochondrial DNA to trace a female lineage from northern coastal China to the Americas. By integrating contemporary and ancient mitochondrial DNA, the team found evidence of at least two migrations: one during the last ice age, and one during the subsequent melting period. Around the same time as the second migration, another branch of the same lineage migrated to Japan, which could explain Paleolithic archeological similarities between the Americas, China, and Japan. The study appears May 9 in the journal Cell Reports.
“The Asian ancestry of Native Americans is more complicated than previously indicated,” says first author Yu-Chun Li, a molecular anthropologist at the Chinese Academy of Sciences. “In addition to previously described ancestral sources in Siberia, Australo-Melanesia, and Southeast Asia, we show that northern coastal China also contributed to the gene pool of Native Americans.”
Though it was long assumed that Native Americans descended from Siberians who crossed over the Bering Strait’s ephemeral land bridge, more recent genetic, geological, and archeological evidence suggests that multiple waves of humans journeyed to the Americas from various parts of Eurasia.
To shed light on the history of Native Americans in Asia, a team of researchers from the Chinese Academy of Sciences followed the trail of an ancestral lineage that might link East Asian Paleolithic-age populations to founding populations in Chile, Peru, Bolivia, Brazil, Ecuador, Mexico, and California. The lineage in question is present in mitochondrial DNA, which can be used to trace kinship through the female line.
The researchers scoured over 100,000 contemporary and 15,000 ancient DNA samples from across Eurasia to eventually identify 216 contemporary and 39 ancient individuals belonging to the rare lineage. By comparing the accumulated mutations, geographic locations, and carbon-dated age of each of these individuals, the researchers were able to trace the lineage’s branching path. They identified two migration events from northern coastal China to the Americas, and in both cases, they think that the travelers probably set dock in America via the Pacific coast rather than by crossing the inland ice-free corridor (which would not have opened at the time).
The first radiation event occurred between 19,500 and 26,000 years ago during the Last Glacial Maximum, when ice sheet coverage was at its greatest and conditions in northern China were likely inhospitable for humans. The second radiation occurred during the subsequent deglaciation or melting period, between 19,000 and 11,500 years ago. There was a rapid increase in human populations at this time, probably due to the improved climate, which may have fueled expansion into other geographical regions.
The researchers also uncovered an unexpected genetic link between Native Americans and Japanese people. During the deglaciation period, another group branched out from northern coastal China and traveled to Japan. “We were surprised to find that this ancestral source also contributed to the Japanese gene pool, especially the indigenous Ainus,” says Li.
This discovery helps to explain archeological similarities between the Paleolithic peoples of China, Japan, and the Americas. Specifically, the three regions share similarities in how they crafted stemmed projectile points for arrowheads and spears. “This suggests that the Pleistocene connection among the Americas, China, and Japan was not confined to culture but also to genetics,” says senior author Qing-Peng Kong, an evolutionary geneticist at the Chinese Academy of Sciences.
Though the study focused on mitochondrial DNA, complementary evidence from Y chromosomal DNA suggests that male ancestors of Native Americans also lived in northern China at around the same time as these female ancestors.
This study adds another piece to the puzzle that is Native American ancestry, but many other elements remain unclear. “The origins of several founder groups are still elusive or controversial,” says Kong. “Next, we plan to collect and investigate more Eurasian lineages to obtain a more complete picture on the origin of Native Americans.”
This research was supported by funding from the National Natural Science Foundation of China, the National Key R&D Program of China, the Second Tibetan Plateau Scientific Expedition and Research, the Strategic Priority Research Program, the Young Scientists in Basic Research, Key Research Program of Frontiers Science, the Chinese Academy of Sciences, the Digitalization, Development, and Application of Biotic Resource Program, the Italian Ministry of Education University and Research (MIUR), the Department of Biology and Biotechnology at the University of Pavia and Progetti, High-level Talent, Promotion and Training Project of Kunming, Yunling Scholar of the Yunnan Province, Yunnan Ten Thousand Talents Plan, Young & Elite Talents Project, and Yunnan Fundamental Research Projects.
Cell Reports, Li and Gao et al. “Mitogenome evidence shows two radiation events and dispersals of matrilineal ancestry from Northern Coastal China to the Americas and Japan” https://www.cell.com/cell-reports/fulltext/S2211-1247(23)00424-2 DOI: 10.1016/j.celrep.2023.112413
Cell Reports (@CellReports), published by Cell Press, is a weekly open-access journal that publishes high-quality papers across the entire life sciences spectrum. The journal features reports, articles, and resources that provide new biological insights, are thought-provoking, and/or are examples of cutting-edge research. Visit: http://www.cell.com/cell-reports. To receive Cell Press media alerts, contact email@example.com.
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Mitogenome evidence shows two radiation events and dispersals of matrilineal ancestry from Northern Coastal China to the Americas and Japan
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