Vu Dinh Thong scite author profile

The phylogenetic and taxonomic relationships among the Old World leaf-nosed bats (Hipposideridae) and the closely related horseshoe bats (Rhinolophidae) remain unresolved. In this study, we generated a novel approximately 10-kb molecular data set of 19 nuclear exon and intron gene fragments for 40 bat species to elucidate the phylogenetic relationships within the families Rhinolophidae and Hipposideridae. We estimated divergence times and explored potential reasons for any incongruent phylogenetic signal. We demonstrated the effects of outlier taxa and genes on phylogenetic reconstructions and compared the relative performance of intron and exon data to resolve phylogenetic relationships. Phylogenetic analyses produced a well-resolved phylogeny, supporting the familial status of Hipposideridae and demonstrated the paraphyly of the largest genus, Hipposideros. A fossil-calibrated timetree and biogeographical analyses estimated that Rhinolophidae and Hipposideridae diverged in Africa during the Eocene approximately 42 Ma. The phylogram, the timetree, and a unique retrotransposon insertion supported the elevation of the subtribe Rhinonycterina to family level and which is diagnosed herein. Comparative analysis of diversification rates showed that the speciose genera Rhinolophus and Hipposideros underwent diversification during the Mid-Miocene Climatic Optimum. The intron versus exon analyses demonstrated the improved nodal support provided by introns for our optimal tree, an important finding for large-scale phylogenomic studies, which typically rely on exon data alone. With the recent outbreak of Middle East respiratory syndrome, caused by a novel coronavirus, the study of these species is urgent as they are considered the natural reservoir for emergent severe acute respiratory syndrome (SARS)-like coronaviruses. It has been shown that host phylogeny is the primary factor that determines a virus’s persistence, replicative ability, and can act as a predictor of new emerging disease. Therefore, this newly resolved phylogeny can be used to direct future assessments of viral diversity and to elucidate the origin and development of SARS-like coronaviruses in mammals.

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Phylogeography of Hipposideros armiger (Chiroptera: Hipposideridae) in the Oriental Region: the contribution of multiple Pleistocene glacial refugia and intrinsic factors to contemporary population genetic structure

Lin

Csorba

et al. 2013

Journal of Biogeography

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Aim The goals of our study were to assess the population history and genetic structure of the widespread bat Hipposideros armiger, and to evaluate the effect of palaeoclimatic changes and dispersal patterns on this species.Location South China, mainland Southeast Asia and the South Himalayas.Methods We amplified two mitochondrial DNA (mtDNA) regions (cyt b and D-loop) and seven nuclear microsatellite loci (nSSRs) from 216 individuals of H. armiger. To examine the evolutionary history of this species, we constructed maximum likelihood and Bayesian phylogenetic trees based on the two mtDNA regions. From the mtDNA and/or nSSR data, we assessed population genetic structure using analysis of molecular variance (AMOVA) and median-joining network and structure analyses. We also estimated demographic history and gene flow using a Bayesian skyline plot and the program IMa2.Results Phylogenetic and median-joining network analyses revealed that H. armiger comprises two distinct mtDNA clades divided into seven subclades. The results of AMOVA suggested strong population genetic structure based on mtDNA, but weak structure based on nSSRs. structure analysis identified three population clusters and also showed weak genetic structure at the nuclear level. Demographic analyses revealed two population expansion events c. 0.62 Ma and c. 0.25 Ma. The basic phylogeographical structure of H. armiger was established by 0.24 Ma. IMa2 analysis demonstrated that substantial gene flow has occurred between different regions since then. Additionally, non-significant population structure and significant gene flow were detected between Taiwan and Hainan island populations and those from mainland China.Main conclusions Our results suggest that divergence and population expansion of H. armiger occurred in association with Pleistocene climatic changes and that multiple refugia may have existed for this species. Post-glacial malebiased dispersal was likely to be the primary contributor to the contemporary genetic structure of H. armiger populations. Gene flow may have contributed greatly to the genetic structure of insular populations and populations from mainland China.

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Comparative phylogeography of bamboo bats of the genus Tylonycteris (Chiroptera, Vespertilionidae) in Southeast Asia

Tú

Csorba

Rüedi

et al. 2017

EJT

884

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D N A L i b r a r y o f L i f e , r e s e a r c h a r t i c l eurn:lsid:zoobank.org:pub:DEFAD552-9C2E-497B-83CA-1E04E3353EA4 Abstract. In Southeast Asia, bats of the genus Tylonycteris Peters, 1872 have traditionally been classified into two wide-ranging species, T. pachypus (Temminck, 1840) and T. robustula Thomas, 1915. Our comparative phylogeographic analyses based on two mitochondrial and seven nuclear genes, combined with our multivariate morphological analyses, show that these species actually represent cryptic species complexes that share a similar biogeographic history in three major regions, i.e., Sundaland, southern European Journal of Taxonomy 274: 1-38 (2017) 2 Indochina, and northern Indochina. Our molecular dating estimates suggest that Pleistocene climatic oscillations and sea level changes have repeatedly isolated ancestral populations of Tylonycteris spp. in distant bamboo forest refugia. The analyses indicate, however, that populations of the T. pachypus complex were less affected by forest fragmentation in mainland Southeast Asia than those of the T. robustula complex. Accordingly, we propose several taxonomic changes within the genus Tylonycteris: the species T. fulvida and T. malayana are revalidated, and a new species, T. tonkinensis Tu, Csorba, Ruedi & Hassanin sp. nov., endemic to northern Indochina, is described.

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The reds and the yellows: a review of AsianChrysopteronJentink, 1910 (Chiroptera: Vespertilionidae:Myotis)

et al. 2014

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Systematics of the Hipposideros turpis complex and a description of a new subspecies from Vietnam

et al. 2011

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Hipposideros turpis is traditionally known as a species composed of three subspecies, H. t. turpis, H. t. alongensis and H. t. pendleburyi, distributed disjunctly in south‐west Japan, north‐east Vietnam and south‐west Thailand, respectively. Prior to the present study, the systematic status of forms within the species remained unclear. Using morphological (external, bacular, cranial and dental characters), genetic and echolocation data, we demonstrate that turpis, alongensis and pendleburyi represent three distinct species, and that these species are endemic to Japan, Vietnam and Thailand, respectively. They are very distinct genetically and do not even form a monophyletic group. We also prove that H. alongensis is composed of two subspecies, H. a. alongensis and H. a. sungi. The latter subspecies is described as new to science. To date, H. a. alongensis appears to be restricted to the Cat Ba Island of Cat Ba National Park, west Ha Long Bay, whereas H. a. sungi ssp. nov. is known from three localities in mainland northeast Vietnam. These two subspecies are distinguished by body size, molecular data and the frequency of the constant‐frequency component of their echolocation signals.

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Vu Dinh Thong

How and Why Overcome the Impediments to Resolution: Lessons from rhinolophid and hipposiderid Bats

Phylogeography of Hipposideros armiger (Chiroptera: Hipposideridae) in the Oriental Region: the contribution of multiple Pleistocene glacial refugia and intrinsic factors to contemporary population genetic structure

Comparative phylogeography of bamboo bats of the genus Tylonycteris (Chiroptera, Vespertilionidae) in Southeast Asia

The reds and the yellows: a review of AsianChrysopteronJentink, 1910 (Chiroptera: Vespertilionidae:Myotis)

Systematics of the Hipposideros turpis complex and a description of a new subspecies from Vietnam

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