Toward a Molecular Phylogeny for the Molossidae (Chiroptera) of the Afro-Malagasy Region

Lamb, Jennifer; Ralph, Taryn M. C.; Naidoo, Theshnie; Taylor, Peter J.; Ratrimomanarivo, Fanja H.; Stanley, William T.

doi:10.3161/150811011x578589

Cited by 28 publications

(35 citation statements)

References 33 publications

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“…We agree that the norfolkensis group is, at the least, distinct from true Mormopterus (= the acetabulosus group) at the subgeneric level, a view also supported by our unpublished sequencing data. The systematic placement of the kalinowskii group is not fully clear but the molecular evidence of Lamb et al (2011) and the inference of Goodman et al (2008) Within the Australian Mormopterus, the magnitude of the genetic distances exhibited by allozymes and mtDNA between the 'planiceps complex' and M. eleryi and M. norfolkensis, and those between M. eleryi and M. norfolkensis, are close to those shown between these three groups and other molossid outgroup genera. This together with the corresponding cranial and dental differences evident between these three groups, lead us to conclude that these three groups each warrant subgeneric status.…”

Section: Subgeneric Boundariesmentioning

confidence: 85%

“…Mormopterus, as currently defined in Simmons (2005), is represented worldwide by three species groups, one in Madagascar, Mascarene Islands and Sumatra (four species in total), another in the Neotropics (three species), and the third group comprising an unresolved complex in the Indo-Australian region. These three groups are likely to be polyphyletic (Lamb et al 2011) and the Indo-Australian group has previously been recognised as a separate genus, namely Micronomus (Troughton 1944). Australian Mormopterus comprises a distinctive group of small, free-tailed bats found throughout the Australian mainland, with representatives in most major habitat types (Van Dyck and Strahan 2008).…”

Section: Introductionmentioning

confidence: 99%

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A molecular and morphological investigation of species boundaries and phylogenetic relationships in Australian free-tailed bats Mormopterus (Chiroptera : Molossidae)

Reardon¹,

McKenzie²,

Cooper³

et al. 2014

Aust. J. Zool.

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Abstract. The taxonomic uncertainty surrounding several prominent genera of Australian microbat has been a longstanding impediment to research and conservation efforts on these groups. The free-tail bat genus Mormopterus is perhaps the most significant example, with a long history of acknowledged species-level confusion. This study uses a combined molecular and morphological approach to conduct a comprehensive assessment of species and subgeneric boundaries, between-species phylogenetic affinities and within-species phylogeographic structure in Australian members of Mormopterus. Phylogenetic analyses based on 759 base pairs of the NADH Dehydrogenase subunit 2 mitochondrial gene were concordant with species boundaries delineated using an expanded allozyme dataset and by phallic morphology, and also revealed strong phylogeographic structure within two species. The levels of divergence evident in the molecular and morphological analyses led us to recognise three subgenera within Australia: Micronomus, Setirostris subgen. nov. and Ozimops subgen. nov. Within Ozimops we recognise seven Australian species, three of which are new, and none are conspecific with Indo-Papuan species. The family Molossidae now comprises eleven species across three subgenera in Australia, making it the continent's second most speciose family of bats.

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Section: Subgeneric Boundariesmentioning

confidence: 85%

Section: Introductionmentioning

confidence: 99%

A molecular and morphological investigation of species boundaries and phylogenetic relationships in Australian free-tailed bats Mormopterus (Chiroptera : Molossidae)

Reardon¹,

McKenzie²,

Cooper³

et al. 2014

Aust. J. Zool.

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“…This is somewhat unexpected, as the higher divergence (RAG2 genetic distance) between T. brasiliensis and C. pumilus s.l. (4.6%) than between T. brasiliensis and O. martiensseni (3.2%) (Lamb et al, 2011) leads to an expectation of lower polymorphism in C. pumilus s.l. (Primmer et al, 2005).…”

Section: Resultsmentioning

confidence: 91%

“…TabrA10 F: AAG TGG TTG GGC GTT GTC R: GCG ATG CAC TGC CTT GAG A  TabrA30 F: AGT CGC GGG TTT GAT TCC AGT TA R: ACC CCT TCC CTT TGT TCC TTC within the Chiroptera, and phylogenetic and population genetic studies on this family have been based primarily on mitochondrial and nuclear sequence data (for example, Lamb et al, 2011;Ammerman et al, 2012). However, Russell et al (2005) used microsatellites to study the population genetics of the American species, Tadarida brasiliensis, and recently Naidoo et al (2013) reported on the utility of the primers of Russell et al (2005) to cross-amplify polymorphic microsatellites in the molossid species, Chaerephon pumilus sensu lato from south eastern Africa.…”

Section: Locus Primer Sequences (5' -3')mentioning

confidence: 99%

Cross-genus amplification and characterisation of microsatellite loci in the large-eared free tailed bat, Otomops (Chiroptera: Molossidae) from Africa and Madagascar

Ralph¹,

Lamb²

2013

Afr. J. Biotechnol.

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“…Two forms of C. pumilus were found by Goodman et al (2010) to be genetically distinct from samples of this species originating from the type locality (Massawa, Eritrea); the eastern Malagasy form was named as a new species, Chaerephon atsinanana, whereas C. pumilus from the western Seychelles and the Comoros archipelago was referred to C. pusillus. A morphologically distinct Malagasy form was found to warrant species status and named C. jobimena, (Goodman & Cardiff 2004), although more recent molecular studies have shown this form to be too divergent to be included in Chaerephon (Lamb et al 2011). As our unpublished results show that C. pumilus from the southern portion of the African continent is genetically distinct from individuals obtained from the type locality of this species (Goodman et al 2010), we refer to these specimens from here on as C. pumilus sensu lato (s.l.…”

Section: Introductionmentioning

confidence: 98%

Stable Pleistocene-era populations ofChaerephon pumilus(Chiroptera: Molossidae) in southeastern Africa do not use different echolocation calls

et al. 2013

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Our extension of the phylogenetic study of Taylor et al. (2009) on a larger, more geographically representative sample confirmed their finding of genetically distinct sympatric lineages of bats currently referred to as Chaerephon pumilus sensu lato (s.l.) (family Molossidae) in southeastern Africa. Chaerephon pumilus s.l. comprised two cytochrome b lineages separated by a mean genetic distance of 0.7% (0.1-1.4%), consistent with intraspecific variability. The C. pumilus s.l. clade was paraphyletic, containing a nested C. leucogaster (Madagascar) clade. As well as the expected four mitochondrial control region lineages, we identified a new strongly-supported clade from the Durban area. Indices of diversity and neutrality, combined with a ragged multimodal mismatch distribution, are inconsistent with demographic expansion of a single C. pumilus s.l. population in southeastern Africa, and suggest that the control region lineages are stable units at demographic equilibrium. Dating analyses suggest that these lineages were established during the late Pleistocene, between 60 000 and 13 000 years ago. We found no evidence to support our hypothesis that the sympatric genetic lineages of C. pumilus s.l. are associated with distinct sonotypes, as discriminant function analysis based on four echolocation parameters could not discriminate between the four clades. We hypothesise that the different genetic lineages may be distinguished by differences in social communication and behaviour.

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Toward a Molecular Phylogeny for the Molossidae (Chiroptera) of the Afro-Malagasy Region

Cited by 28 publications

References 33 publications

A molecular and morphological investigation of species boundaries and phylogenetic relationships in Australian free-tailed bats Mormopterus (Chiroptera : Molossidae)

A molecular and morphological investigation of species boundaries and phylogenetic relationships in Australian free-tailed bats Mormopterus (Chiroptera : Molossidae)

Cross-genus amplification and characterisation of microsatellite loci in the large-eared free tailed bat, Otomops (Chiroptera: Molossidae) from Africa and Madagascar

Stable Pleistocene-era populations ofChaerephon pumilus(Chiroptera: Molossidae) in southeastern Africa do not use different echolocation calls

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