New World's hair sheep breeds may genetically stem from West African introgression into established ecotypes of Spanish descent presumably extinct in the XIX Century. However, present Canary non-wooled breeds have presumably regressively resulted from the absorption of primitive individuals through Venezuelan descendants. We studied genetic diversity, structure, and evolution of the Canary hair sheep since its reintroduction in the 1950s. Demographic and genetic variability were evaluated using ENDOG (v4.8). Effective population size based on individual inbreeding rate was around one third higher than when based on individual coancestry rate. Nei's distances and equivalent subpopulations number indicated a highly-structured population. Although genetic diversity loss since the founder generations could be considered small, narrower pedigree bottlenecks could result from intraflock breeding policies and excessive contribution of few ancestors. Long generation intervals could be considered when reducing inbreeding. Wright's fixation statistics indicated slight interflock inbreeding. Pedigree completeness suggested genetic parameters were reliable, hence controlling inbreeding negative effects, could indeed, be crucial preserving these animal resources, consolidating the population in the archipelago after reintroduction.
Keywords: Canary hair sheep; Founder analysis; Inbreeding; Pedigree; Small population genetics.
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