The genetic portrait from 21 sampled individuals at Machu Picchu shows a predominance of mitochondrial haplogroups that are canonical in Native American populations: B2, A, B2b, C, and C1b. These maternal lineages trace back to Pleistocene and early Holocene migrations into the Americas and have deep regional continuity in the Andes. In this assemblage: B2 and A are each observed in four individuals, B2b in three, and forms of C in several samples.
This mtDNA distribution suggests that maternal ancestry at Machu Picchu is broadly consistent with established Andean population structure rather than dominated by recent external influx. However, Y‑chromosome (paternal) haplogroups are not sufficiently reported in this dataset; low recovery of Y‑DNA or lack of targeted sequencing limits interpretation of male‑mediated gene flow and patrilineal structure.
With 21 samples, the dataset offers moderate resolution but remains geographically concentrated. While patterns of maternal continuity are persuasive, they should be regarded as regionally specific: larger sample sizes and comparative data from neighboring sites are necessary to test hypotheses about migration, social stratification, and the genetic footprint of imperial integration. Limited evidence suggests genetic continuity with broader Andean lineages, but finer-scale demographic processes remain tentative.