Pupal deposition and ecology of bat flies (Diptera: Streblidae): Trichobius sp. (caecus group) in a Mexican cave habitat.

We studied the deposition of pupae of the winged bat fly Trichobius sp. (caecus group; Diptera), an ectoparasite of Natalus stramineus (Chiroptera, Natalidae), in a natural cave in Tamaulipas, Mexico. For the first time, we show a strong spatial segregation of populations of a streblid bat fly at different stages of development. Using molecular techniques we were able to match developmental stages to adults. Only 5 pupae were present in the main bat roosts. The overwhelming majority occurred exclusively in the bat flyway passages at a considerable distance from roosting bats. Pupal density corresponded positively with the average flight height of bats in the cave passage. Taken together, observations suggest that these ectoparasites must actively seek out their hosts by moving onto passing or roosting bats. The scarceness of pupae in the main roost may be dictated by environmental constraints for their development. The estimated population of viable pupae far exceeds the population of imagoes on the bats, and predation on adults by spiders is common.

New Wolbachia endosymbionts from Nearctic and Neotropical fleas (Siphonaptera).

Several species of fleas (Siphonaptera), ectoparasites of mammals and birds, have recently been shown to harbor species of Wolbachia. Here, we extend this data set to 20 more species of Siphonaptera (Rhopalopsyllidae, Stephanocircidae, Pulicidae, Ceratophyllidae, Ctenophthalmidae, Ischnopsyllidae, Leptopsyllidae, and Malacopsyllidae) from sylvatic populations throughout the Nearctic and Neotropical regions. Using polymerase chain reaction, we targeted the Wolbachia 16S ribosomal DNA (rDNA) gene. Applying maximum parsimony- and maximum likelihood-based algorithms, as well as statistical parsimony, we conducted a phylogenetic analysis of Wolbachia 16S rDNA to evaluate its position within the known Wolbachia spp. The analysis recovered the siphonapteran Wolbachia 16S rDNA sequences as a monophyletic group and shows multiple haplotype connections between the Neotropical and Nearctic Wolbachia strains of fleas.

Genetic and phylogeographic structure of populations of Pulex simulans (Siphonaptera) in Peru inferred from two genes ( CytB and CoII).

In this paper we discuss the potential usefulness of determining the phylogeographic and phylogenetic patterns of a vector for understanding the spread of pathogens or insecticide resistance. We do so using the example of Pulex simulans in Peru. Six populations from six different localities were investigated. Mitochondrial DNA sequences were obtained and branching patterns were inferred using phylogenetic reconstruction methods and nested clade analyses. Ten different haplotypes were discovered. Phylogenetic analysis revealed P. simulans in Peru as a monophyletic group, containing clades that were generally not geographically correlated. The data suggest that P. simulans is not a single genetic entity but rather that this species shows a high degree of intraspecific variation. Restricted gene flow with long distance dispersal coupled with range expansion and long distance colonization are likely to have contributed to the observed patterns of variation.