This assemblage of 324 ancient genomes provides a robust window into population structure across Western Europe during the Neolithic. Y-chromosome haplogroup G is the most frequent (100/324; ~31%), consistent with Neolithic farmer-associated paternal lineages originating from Anatolia and the Near East. Haplogroup I (42/324; ~13%) appears in many contexts and likely reflects local hunter-gatherer paternal ancestry that persisted and admixed with incoming farmers. Smaller counts of H (12), H2 (7) and R (5) are present; these low-frequency lineages hint at diverse paternal inputs, including rare survival of pre-farming lineages and later influxes in some regions.
Mitochondrial diversity is high: haplogroup K (81; ~25%) is frequent and characteristic of early farming maternal lineages, while U (44), J (42), H (37) and H1 (27) underscore mixed maternal ancestries. These mtDNA patterns align with autosomal signals of substantial Anatolian-derived farmer ancestry combined to varying degrees with European hunter-gatherer ancestry. Spatially, western coastal and highland sites sometimes show higher hunter-gatherer ancestry proportions than large river-basin settlements, although local sampling biases remain a caveat.
Because sample coverage is broad (324 individuals across France, Iberia, Britain, Germany and the Low Countries), conclusions about major ancestry components are robust; however, fine-scale demographic events, especially short-lived migrations or sex-biased processes, require denser localized sampling and contextual archaeological correlation. Limited but intriguing evidence suggests regionally variable admixture dynamics and occasional gene flow from steppe-associated groups in later Neolithic contexts.