New insights into the molecular phylogeny, biogeographical history, and diversifcation of Amblyomma ticks (Acari: Ixodidae) based on mitogenomes and nuclear sequences.

Background Amblyomma is the third most diversifed genus of Ixodidae that is distributed across the Indomalayan, Afrotropical, Australasian (IAA), Nearctic and Neotropical biogeographic ecoregions, reaching in the Neotropic its highest diversity. There have been hints in previously published phylogenetic trees from mitochondrial genome, nuclear rRNA, from combinations of both and morphology that the Australasian Amblyomma or the Australa‑ sian Amblyomma plus the Amblyomma species from the southern cone of South America, might be sister-group to the Amblyomma of the rest of the world. However, a stable phylogenetic framework of Amblyomma for a better understanding of the biogeographic patterns underpinning its diversifcation is lacking. Methods We used genomic techniques to sequence complete and nearly complete mitochondrial genomes –ca. 15 kbp– as well as the nuclear ribosomal cluster –ca. 8 kbp– for 17 Amblyomma ticks in order to study the phylogeny and biogeographic pattern of the genus Amblyomma, with particular emphasis on the Neotropical region. The new genomic information generated here together with genomic information available on 43 ticks (22 other Amblyomma species and 21 other hard ticks–as outgroup–) were used to perform probabilistic methods of phylogenetic and bio‑ geographic inferences and time-tree estimation using biogeographic dates. Results In the present paper, we present the strongest evidence yet that Australasian Amblyomma may indeed be the sister-group to the Amblyomma of the rest of the world (species that occur mainly in the Neotropical and Afro‑ tropical zoogeographic regions). Our results showed that all Amblyomma subgenera (Cernyomma, Anastosiella, Xiphiastor, Adenopleura, Aponomma and Dermiomma) are not monophyletic, except for Walkeriana and Amblyomma. Likewise, our best biogeographic scenario supports the origin of Amblyomma and its posterior diversifcation in the southern hemisphere at 47.8 and 36.8 Mya, respectively. This diversifcation could be associated with the end of the connection of Australasia and Neotropical ecoregions by the Antarctic land bridge. Also, the biogeographic analyses let us see the colonization patterns of some neotropical Amblyomma species to the Nearctic. Conclusions We found strong evidence that the main theater of diversifcation of Amblyomma was the southern hemisphere, potentially driven by the Antarctic Bridge’s intermittent connection in the late Eocene. In addition, the subgeneric classifcation of Amblyomma lacks evolutionary support. Future studies using denser taxonomic sam‑ pling may lead to new fndings on the phylogenetic relationships and biogeographic history of Amblyomma genus. [ABSTRACT FROM AUTHOR]