Molecular phylogeny and systematics of the sheath-tailed bats from the Middle East (Emballonuridae: Taphozous and Coleura)
The family of sheath-tailed bats (Emballonuridae) constitutes a considerable part of the bat fauna of the Middle East. This region on the crossroad of three biogeographical realms represents the sole significant extension of the family range into the Palaearctic, otherwise the family
is distributed mostly in the tropics. Three emballonurid species occur in the Middle East, Coleura afra, Taphozous perforatus and T. nudiventris, each with a number of morphology-based subspecies reported from the region. For this study, we assembled a dataset of more
than hundred samples that covers the Middle Eastern parts of the ranges of the respective species. We generated sequences of up to three mitochondrial and five nuclear markers and reconstructed a time-calibrated phylogeny of the family to infer the evolutionary history of emballonurids in
the Middle East and to revise their intra- and interspecific taxonomy. The populations of Coleura from southern Arabia and the Red Sea coast of Africa show a low genetic structure, although as a lineage are well separated from other Coleura populations of Africa and the Indian
Ocean islands. We suggest this Afro-Arabian lineage to represent a separate taxon which could be regarded as a species of its own, C. gallarum . Similarly, low genetic structure across the study area we revealed in T. perforatus; this indicates that only one taxon of this bat
is present in the Middle East and adjacent areas that should be co-identified with the nominotypical form. On the contrary, T. nudiventris presents two clearly separated clades; one of them comprises the nominotypical form of north-eastern Africa and southern Arabia, as well as the
eastern Arabian populations assigned to T. n. zayidi, which is thus unjustified, and the latter name to be considered a junior synonym of T. n. nudiventris. On the other hand, the analysis did not resolve satisfactorily the phylogenetic position of the large body-sized Mesopotamian
populations of T. nudiventris, which thus remains to be regarded as a subspecies T. n. magnus. Finally, the position of Liponycteris as a separate subgenus of Taphozous was not found to be justified, while the traditional divisions of the family into the subfamilies
Taphozoinae and Emballonurinae and the latter into the tribes Emballonurini and Diclidurini were supported by the analysis results.
Keywords: CHIROPTERA; MITOCHONDRIAL DNA; MOLECULAR GENETICS; NUCLEAR DNA; SOUTHERN PALAEARCTIC
Document Type: Research Article
Publication date: 01 June 2019
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