Genetic data from 14 individuals across Zealand, Jutland and Langeland provide a window into population dynamics during the Late Neolithic in Denmark. Y-chromosome diversity is weighted toward haplogroup R (7/14), with additional males carrying I, I1 and IJ. In many European contexts R-lineages correlate with Steppe-related ancestry introduced during the third millennium BCE, while I-derived lineages reflect older northern hunter-gatherer or early farmer substrata. These patterns suggest that male ancestry in this region was heterogeneous: incoming lineages coexisted with locally rooted paternal lines.
Mitochondrial haplogroups among these individuals — U (4), H (2), K (2), T (2), and J (1) — point to maternal ancestry shared with both earlier Mesolithic/Neolithic populations and broader European farming communities. The presence of haplogroup U at moderate frequency is notable because U-types are often linked to deep local ancestry in northern Europe.
Crucially, the sample count is small (<10 males with R; overall n=14), so statistical confidence is limited and patterns should be treated as preliminary. Archaeogenetic interpretations must be integrated with stratigraphic and material data: shifts in allele frequencies can reflect migration, kin-structured mobility, or differential burial practices that bias archaeological sampling. Future expanded sampling across contexts and fine-grained isotopic studies will help resolve whether observed genetic mixtures reflect long-term admixture, recent migration events, or complex social behaviors such as exogamy.