Ancient DNA from Arroyo Seco II comprises two individuals — a very small dataset that must be interpreted cautiously. Both individuals share mitochondrial haplogroup C1c, a maternal lineage known across ancient and modern populations in the Americas; this pattern is consistent with regional maternal continuity but cannot on its own prove long‑term demographic stability. On the paternal side the two Y‑chromosome assignments differ: one individual is assigned to haplogroup Q, commonly found in Native American male lineages, while the other is reported as haplogroup P. Haplogroup P sits upstream of Q in global Y‑phylogeny and, in some cases, may reflect limited resolution or rare paternal variants in older datasets.
These genetic signals, read alongside archaeology, are evocative: the shared mtDNA suggests women bearing C1c lineages were present in the Pampas during the mid‑Holocene, while the paternal diversity hints at complex male line histories or classification uncertainty. However, with only two samples the probability of capturing population‑level variation is low. Sex‑biased mobility, founder effects, and small band sizes can produce patterns that look like continuity or change in tiny datasets.
Arroyo Seco II highlights the power of ancient DNA to open a window on past lifeways, but it also demonstrates the necessity of larger, geographically and temporally distributed samples to distinguish local continuity from broader migratory processes.