|Publication Type:||Journal Article|
|Year of Publication:||2013|
|Authors:||Z. Vas, Fuisz, T. István, Fehérvári, P., Reiczigel, J., Rózsa, L.|
|Pagination:||959 - 968|
|Keywords:||host–parasite evolution, Independent contrasts, macroevolution, parasite transmission, parasitism, Phthiraptera.|
Brood parasitic birds, their foster species and their ectoparasites form a complex coevolving system composed of three hierarchical levels. However, effects of hosts’ brood parasitic life-style on the evolution of their louse (Phthiraptera: Amblycera, Ischnocera) lineages have never been tested. We present two phylogenetic analyses of ectoparasite richness of brood parasitic clades. Our hypothesis was that brood parasitic life-style affects louse richness negatively across all avian clades due to the lack of vertical transmission routes. Then, narrowing our scope to brood parasitic cuckoos, we explored macroevolutionary factors responsible for the variability of their louse richness. Our results show that taxonomic richness of lice is lower on brood parasitic clades than on their nonparasitic sister clades. However, we found a positive covariation between the richness of cuckoos’ Ischnoceran lice and the number of their foster species, possibly due to the complex and dynamic subpopulation structure of cuckoo species that utilize several host species. We documented diversity interactions across a three-level host parasite system and we found evidence that brood parasitism has opposing effects on louse richness at two slightly differing macroevolutionary scales, namely the species richness and the genera richness.
Avian brood parasitism and ectoparasite richness-scale-dependent diversity interactions in a three-level host-parasite system