spatial distribution does not affect host–parasite coevolution in Rossomyrmex ants

Host and parasite distributions are crucial to understand the coevolutionary outcomes of their relationships. This comes from the fact that the distribution of a species (fragmented vs. continuous habitats) influences its dispersal opportunities. In this work, we studied the effect of the spatial distribution on dispersal and coevolution between three species of social parasite ants of the genus Rossomyrmex (one distributed in high mountains in Spain and two distributed in extended plains in Turkey and Kazakhstan) and their ant hosts Proformica. We analysed the variation at the mitochondrial gene cytochrome c oxidase (COI) to infer female dispersal for parasites as well as the cuticular hydrocarbons (CHCs) of parasites and hosts to study their coevolutionary process, given that CHCs are involved in nestmate recognition. Our genetic results revealed a surprising scarce variation at COI for the three parasite species, suggesting selective forces that prevent from mutation fixation. Therefore, COI appeared to be a poor tool to study dispersal. Furthermore, chemical results showed population differentiation for all host–parasite systems, pointing that coevolution would take place at a local scale regardless of the spatial distribution or dispersal opportunities of the counterparts.