Article / Rare interspecific hybridisation between sympatric African four-striped mice, and indications of fine-scale intraspecific spatial structure related to social factors

Ganem, G., Dufour, C.M.S., Avenant, N.L., Berthier, K., Loiseau, A., Caminade, P., Pillay, N., Brouat C. (2026) Rare interspecific hybridisation between sympatric African four-striped mice, and indications of fine-scale intraspecific spatial structure related to social factors. Journal of Vertebrate Biology, 75, 25073. https://doi.org/10.25225/jvb.25073

Abstract: Spatial and social population structures can influence intra- and interspecific genetic processes. We investigated the spatial and social genetic structure of two sister species and evaluated whether there was evidence of hybridisation between them at a microgeographic scale, in syntopy. Our study models were Rhabdomys bechuanae (Rbech) and Rhabdomys dilectus dilectus (Rdil). We generated population genetic data using microsatellite markers and cross-referenced some of these results with published behavioural data from a prior study, reanalysed here. We compared genetic diversity and gene flow both in sympatry and allopatry, we tested for hybridisation between the sister species in sympatry and assessed the relationship between kinship and fine-scale spatial and social organisation. Genetic diversity was high within all populations of the two species. Population genetic substructure was more pronounced in Rbech than in Rdil, consistent with stronger group cohesion reported for Rbech. STRUCTURE and NEWHYBRIDS analyses suggested that sympatric individuals, 5% in Rbech, and 2% in Rdil, might have hybrid ancestry. Our results indicate social fences may limit gene flow within and between species. Further, limited hybridisation suggests that, despite syntopy, only rare events of hybridisation may occur, possibly at phases of density troughs and/or that F1 hybrids have a relatively low fitness.