5 research outputs found
Persistence of single species of symbionts across multiple closelyrelated host species
Some symbiont species are highly host-specific, inhabiting only one or a very few host species, and
typically have limited dispersal abilities. When they do occur on multiple host species, populations of
such symbionts are expected to become genetically structured across these different host species,
and this may eventually lead to new symbiont species over evolutionary timescales. However, a low
number of dispersal events of symbionts between host species across time might be enough to prevent
population structure and species divergence. Overall, processes of evolutionary divergence and the
species status of most putative multi-host symbiont systems are yet to be investigated. Here, we used
DNA metabarcoding data of 6,023 feather mites (a total of 2,225 OTU representative sequences) from
147 infracommunities (i.e., the assemblage consisting of all mites of different species collected from
the same bird host individual) to investigate patterns of population genetic structure and species status
of three different putative multi-host feather mite species Proctophyllodes macedo Vitzthum, 1922,
Proctophyllodes motacillae Gaud, 1953, and Trouessartia jedliczkai (Zimmerman, 1894), each of which
inhabits a variable number of different closely related wagtail host species (genus Motacilla). We show
that mite populations from different host species represent a single species. This pattern was found in
all the mite species, suggesting that each of these species is a multi-host species in which dispersal of
mites among host species prevents species divergence. Also, we found evidence of limited evolutionary
divergence manifested by a low but significant level of population genetic structure among symbiont
populations inhabiting different host species. Our study agrees with previous studies showing a higher
than expected colonization opportunities in host-specific symbionts. Indeed, our results support
that these dispersal events would allow the persistence of multi-host species even in symbionts with
limited dispersal capabilities, though additional factors such as the geographical structure of some bird
populations may also play a role.This work was supported by the MINECO CGL2011-24466 to RJ and
CGL2015-69650-P to RJ and DS
Repeated adaptive divergence of microhabitat specialization in avian feather lice
<p>Abstract</p> <p>Background</p> <p>Repeated adaptive radiations are evident when phenotypic divergence occurs within lineages, but this divergence into different forms is convergent when compared across lineages. Classic examples of such repeated adaptive divergence occur in island (for example, Caribbean <it>Anolis </it>lizards) and lake systems (for example, African cichlids). Host-parasite systems in many respects are analogous to island systems, where host species represent isolated islands for parasites whose life cycle is highly tied to that of their hosts. Thus, host-parasite systems might exhibit interesting cases of repeated adaptive divergence as seen in island and lake systems.</p> <p>The feather lice of birds spend their entire life cycle on the body of the host and occupy distinct microhabitats on the host: head, wing, body and generalist. These microhabitat specialists show pronounced morphological differences corresponding to how they escape from host preening. We tested whether these different microhabitat specialists were a case of repeated adaptive divergence by constructing both morphological and molecular phylogenies for a diversity of avian feather lice, including many examples of head, wing, body and generalist forms.</p> <p>Results</p> <p>Morphological and molecular based phylogenies were highly incongruent, which could be explained by rampant convergence in morphology related to microhabitat specialization on the host. In many cases lice from different microhabitat specializations, but from the same group of birds, were sister taxa.</p> <p>Conclusions</p> <p>This pattern indicates a process of repeated adaptive divergence of these parasites within host group, but convergence when comparing parasites across host groups. These results suggest that host-parasite systems might be another case in which repeated adaptive radiations could be relatively common, but potentially overlooked, because morphological convergence can obscure evolutionary relationships.</p