Assessing landscape connectivity for South-Central Argentine pumas dispersing under genetic source-sink dynamics

Context Identification of areas with high connectivity is crucial for large carnivores' management and conservation, especially where landscape has been modified by human activities. Partially under legal hunting control, south-central Argentine pumas (Puma concolor) have been described to be structured into two distinct groups with an inverse correlation between gene flow and hunting pressure. Objectives To further assess puma genetic structure and test whether isolation-by-distance and/or isolation-by-resistance could explain the previously reported putative correlation between gene flow and hunting pressure. Methods We explored spatial segregation of pumas by testing for hierarchical structure within previously identified clusters, genetic differentiation among sampling regions, and isolation-by-distance among individuals. Using a land cover resistance-based approach, we assessed landscape influence on puma connectivity to analyze landscape permeability between sampling sites. Results Our study added a third genetic group to the previously identified clusters, reporting significant genetic differentiation among sampling regions. We also observed a significant correlation among geographic and genetic distances, supporting genetic structure and gene flow pattern of connectivity. We identified a continuous high current flow across the landscape where shrublands are the primary habitat, whereas landscape permeability declined as grassland cover increases. Conclusions Genetic structure and gene flow among south-central Argentine pumas can be partially related to the landscape connectivity pattern observed in the area. These results are extremely important for puma conservation in the area because the identification of high-permeability linkage zones can now be used to gather ecological fine-scale data to support more appropriate conservation strategies, aiming to preserve important dispersal areas for this apex predator.