1) Ancient genomics reveals tripartite origins of Japanese populations
Abstract
Prehistoric Japan underwent rapid transformations in the past 3000 years, first from foraging to wet rice farming and then to state formation. A long-standing hypothesis posits that mainland Japanese populations derive dual ancestry from indigenous Jomon hunter-gatherer-fishers and succeeding Yayoi farmers. However, the genomic impact of agricultural migration and subsequent sociocultural changes remains unclear. We report 12 ancient Japanese genomes from pre- and postfarming periods. Our analysis finds that the Jomon maintained a small effective population size of ~1000 over several millennia, with a deep divergence from continental populations dated to 20,000 to 15,000 years ago, a period that saw the insularization of Japan through rising sea levels. Rice cultivation was introduced by people with Northeast Asian ancestry. Unexpectedly, we identify a later influx of East Asian ancestry during the imperial Kofun period. These three ancestral components continue to characterize present-day populations, supporting a tripartite model of Japanese genomic origins.
2) Human genetics: The dual origin of Three Kingdoms period Koreans
Summary
The genetic history of Koreans remains poorly understood due to a lack of ancient DNA. A new paleo-genomic study shows that population stratification in 4th–5th century South Korean populations was linked to a varied proportion of indigenous Jomon-related ancestry, which does not survive in present-day Koreans.
No comments:
Post a Comment