Six ancient individuals from Mitre Peninsula contexts (Caleta Falsa and Río Policarpo) provide a first genomic window into the Haush biological heritage. Five of the six male-line samples carry Y-chromosome haplogroup Q, a lineage widespread among Indigenous peoples across the Americas and commonly associated with early pan-American founder populations. The mitochondrial DNA pool in these six individuals shows predominance of haplogroup D (three individuals), with additional representatives of C1b, D1 and C—mtDNA clades that are also common in southern South America.
These patterns align the Haush within the broader tapestry of Native American ancestry: a dominant paternal signal of Q alongside maternal diversity drawn from D and C clades. However, the sample count is small (n = 6), and when sample size is low (<10) conclusions are necessarily preliminary. Archaeogenetic signals may reflect local continuity, male-biased demographic processes, or sampling bias from a few sites; distinguishing among these requires larger, spatially and temporally expanded datasets.
Methodologically, ancient DNA from coastal contexts faces preservation challenges due to marine contamination and variable collagen survival; laboratories applied standard authentication procedures, but remaining uncertainties affect fine-scale inferences. In sum, genetic data tentatively suggest the Haush were part of the long-standing indigenous genetic landscape of southern South America, but more samples and expanded comparisons with neighboring groups (Selk'nam, Yaghan, mainland Patagonian groups) are needed to map migrations, sex-biased gene flow, and continuity.