Abstract
BackgroundThe population genetic structure of a parasite, and consequently its ability to adapt to a given host, is strongly linked to its own life history as well as the life history of its host. While the effects of parasite life history on their population genetic structure have received some attention, the effect of host social system has remained largely unstudied. In this study, we investigated the population genetic structure of two closely related parasitic mite species (Spinturnix myoti and Spinturnix bechsteini) with very similar life histories. Their respective hosts, the greater mouse-eared bat (Myotis myotis) and the Bechstein’s bat (Myotis bechsteinii) have social systems that differ in several substantial features, such as group size, mating system and dispersal patterns.ResultsWe found that the two mite species have strongly differing population genetic structures. In S. myoti we found high levels of genetic diversity and very little pairwise differentiation, whereas in S. bechsteini we observed much less diversity, strongly differentiated populations and strong temporal turnover. These differences are likely to be the result of the differences in genetic drift and dispersal opportunities afforded to the two parasites by the different social systems of their hosts.ConclusionsOur results suggest that host social system can strongly influence parasite population structure. As a result, the evolutionary potential of these two parasites with very similar life histories also differs, thereby affecting the risk and evolutionary pressure exerted by each parasite on its host.
Highlights
The population genetic structure of a parasite, and its ability to adapt to a given host, is strongly linked to its own life history as well as the life history of its host
M. myotis genetic data The additional host mitochondrial analysis revealed that all HV2 haplotypes corresponded to previously published haplotypes [19,31,49] (Table 2b)
We find that the population genetic structure of the two mite species differs strongly as a result of the social system of their hosts, which is in Source of variation d.f
Summary
The population genetic structure of a parasite, and its ability to adapt to a given host, is strongly linked to its own life history as well as the life history of its host. We investigated the population genetic structure of two closely related parasitic mite species (Spinturnix myoti and Spinturnix bechsteini) with very similar life histories Their respective hosts, the greater mouse-eared bat (Myotis myotis) and the Bechstein’s bat (Myotis bechsteinii) have social systems that differ in several substantial features, such as group size, mating system and dispersal patterns. In a comparison of dispersal rates between two shearwater species and three parasitic lice, parasite gene flow was found to be much higher than that of its host, which was attributed to the transmission of parasites at communal wintering grounds where no host gene flow took place [10] These examples highlight the fact that relative dispersal is dependent on the intricate interaction between the life histories of both species. Comparative studies investigating the role of host social system in shaping parasite population genetic structure are rare
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