Gene flow in domestic camelids across different production systems in Bolivia: Insights from mitochondrial D-loop and Y-chromosome DBY gene

Roman-Pena, Pilar; Inigue, Volga; Saavedra-Teran, Vladimir; Gutierrez-Ramirez, Luis; Barreta-Pinto, Julia

doi:10.1016/j.smallrumres.2025.107653

Abstract

Llama (Lama glama) and alpaca (Vicugna pacos) farming in the Bolivian highlands in mixed camelid herds can lead to crossbreeding and introgression, particularly affecting alpacas. This genetic exchange has important implications for camelid phylogeny and production traits, including fiber and meat quality. To investigate patterns of gene flow, we analyzed sex-specific markers (mitochondrial D-loop and Y-chromosome DBY gene) in llamas, alpacas, and hybrids from three Bolivian production systems: Catacora, Ulla Ulla, and Curahuara de Carangas. We included sequences from vicu & ntilde;as and guanacos and identified 37 mitochondrial D-loop haplotypes, as well as three Y-chromosomal DBY haplotypes, revealing significant asymmetric introgression. Mitochondrial DNA analysis showed that 6.7 % of llamas and 53.3 % of alpacas carried introgressed haplotypes, indicating extensive maternal gene flow. In contrast, Y-chromosome introgression was lower (<5 %, all from Curahuara de Carangas). Population structure analysis of the D-loop fragment revealedregional differences, with the highest FST (0.307) observed between llamas and alpacas in Curahuara. In contrast, no differentiation (FST = 0) was observed in Catacora. These findings highlight a female-biased introgression pattern, with gene flow predominantly from female llamas to male alpacas. The asymmetry between maternal and paternal introgression, which varies across production systems, likely reflects historical hybridization and breeding practices favoring conspecific males. Our results underscore the impact of long-term gene flow and human-mediated practices on the genetic structure of domestic camelids, offering critical insights for conservation and breeding programs aimed at preserving the genetic integrity of Andean camelid populations.

Keywords

Domestic camelids; Hybridization; Introgression; Asymmetric gene flow

Published in

Small Ruminant Research
2026, volume: 254, article number: 107653
Publisher: ELSEVIER

SLU Authors

Román Peña, Alejandra Del Pilar
- Department of Animal Biosciences, Swedish University of Agricultural Sciences
- Universidad Mayor de San Andres

UKÄ Subject classification

Genetics and Breeding in Agricultural Sciences

Publication identifier

DOI: https://doi.org/10.1016/j.smallrumres.2025.107653

Permanent link to this page (URI)

https://res.slu.se/id/publ/144963