A systematic review of the African bat genus Scotophilus (Vespertilionidae) (original) (raw)
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A systematic revision of the African bat genus Scotophilus (Vespertilionidae)
1985
"The systematics of African members of the genus Scotophilus has been confused and at times controversial. Apart from size and pelage color, they do not show many non-mensural differences. Multivariate statistical analyses are used with seven cranial and one wing measurement on over 2000 specimens. Six species are recognized. Two species, S. nux and S. nucella, are restricted to the high forest zone in West and Central Africa. The other four species, S. dinganii,, S. leucogaster, S. nigrita., and S. viridis, occur throughout sub-Saharan Africa in the savanna vegetation zones. African mainland distribution of the genus is from Senegal and Mauritania in the west to Ethiopia and Somalia in the east, and throughout Central Africa to southern Africa."
Fontiers in Zoology, 2013
Introduction: The Vespertilionidae is the largest family of bats, characterized by high occurrence of morphologically convergent groups, which impedes the study of their evolutionary history. The situation is even more complicated in the tropics, where certain regions remain under-sampled. Results: Two hundred and thirteen vespertilionid bats from Senegal (West Africa) were studied with the use of non-differentially stained karyotypes and multi-locus sequence data analysed with maximum likelihood and Bayesian methods. These bats were identified as 10 different taxa, five of which were distinctive from their nominate species (Pipistrellus hesperidus, Nycticeinops schlieffenii, Scotoecus hirundo, Neoromicia nana and N. somalica), based on both karyotypes and molecular data. These five cryptic taxa are unrelated, suggesting that these West African populations have long been isolated from other African regions. Additionally, we phylogenetically analysed 166 vespertilionid taxa from localities worldwide using GenBank data (some 80% of the genera of the family) and 14 representatives of closely related groups, together with our Senegalese specimens. The systematic position of several taxa differed from previous studies and the tribes Pipistrellini and Vespertilionini were redefined. The African Pipistrellus rueppellii was basal to the Pipistrellus/Nyctalus clade and the Oriental species Glischropus tylopus was basal to the East Asian pipistrelles within the tribe Pipistrellini. The African genus Neoromicia was confirmed to be diphyletic. Based on GenBank data, Eptesicus was polyphyletic, with the Asian E. nasutus and E. dimissus both supported as phylogenetically distinct from the Eptesicus clade. The subfamily Scotophilinae was confirmed as one of the basal branches of Vespertilionidae. Conclusions: New taxa and new systematic arrangements show that there is still much to resolve in the vespertilionids and that West Africa is a biogeographic hotspot with more diversity to be discovered.
Frontiers in Ecology and Evolution
The genus Scotophilus contains 21 currently recognized species ranging throughout Africa and Southeast Asia. Among the 13 species recognized from continental Africa, systematic relationships remain poorly understood. Taxonomic uncertainty regarding names, suggestions of polytypic species complexes, and undescribed cryptic diversity all contribute to the current confusion. To gain insights into the systematics of this group, we inferred single locus and multi-locus phylogenies and conducted lineage delimitation analyses using seven unlinked genes for specimens from across Africa. Recent collections from Kenya allowed us to carry out population-level analyses for the diverse assemblage of East African Scotophilus. Multi-locus coalescent delimitation methods indicated strong support for three recently named lineages thought to be restricted to Kenya and Tanzania; it also uncovered two new distinctive lineages at present known only from Kenya. Subsequent taxonomic assessments that integrate these genetic data with phenotypic, distributional, and/or ecological traits are needed to establish these lineages as valid species. Nevertheless, as many as 15 Scotophilus species may occur in continental Africa, 10 of these in Kenya alone. Our analysis highlights the importance of population-level surveys for the detection of cryptic diversity in understudied regions such as the Afrotropics.
Recent Changes in African Bat Taxonomy ( 2012-2013 ) . Part II
2013
Observations, Discussions and Updates Observations, Discussions and Updates Megaloglossus azagnyi Nesi, Kadjo and Hassanin FAMILY PTEROPODIDAE Common name: Western Woermann's Fruit Bat (Eng.). NESI et al. (2012) examined cytochrome b sequences, and found West African Megaloglossus to be significantly different from Central African specimens. Therefore they described a new species, which they named after the Azagny National Park, where the type specimen was collected. This species occurs in Côte d'Ivoire, Liberia and probably Guinea and Sierra Leone to Ghana and Togo.
Zoological Journal of the Linnean Society, 2020
Vespertilionidae (class Mammalia) constitutes the largest family of bats, with ~500 described species. Nonetheless, the systematic relationships within this family are poorly known, especially among the pipistrelle-like bats of the tribes Vespertilionini and Pipistrellini. Perhaps as a result of their drab pelage and lack of obvious morphological characters, the genus and species limits of pipistrelle-like bats remain poorly resolved, particularly in Africa, where more than one-fifth of all vesper bat species occur. Further exacerbating the problem is the accelerating description of new species within these groups. In this study, we attempt to resolve the systematic relationships among the pipistrelle-like bats of sub-Saharan Africa and Madagascar and provide a more stable framework for future systematic efforts. Our systematic inferences are based on extensive genetic and morphological sampling of > 400 individuals covering all named genera and the majority of described African ...
Acta Chiropterologica , 2016
Tropical West Africa has a high diversity of bats, which are relatively poorly studied. In this baseline biodiversity assessment of bats in the Simandou Mountain Range of southeastern Guinea (Guinea Forestière), 312 individual bats belonging to 26 species were captured, four of which represent new species records for the country. Combined with the results of a previous survey, 35 bat species have been recorded at Simandou to date, including a new species (Neoromicia sp. nov.), which we describe here, and an additional species potentially new to science. A neotype for Neoromicia tenuipinnis is designated. We present an annotated checklist of the bats at Simandou and neighbouring sites, including some pertinent field notes on their habitat requirements and conservation status. Furthermore, we discuss the estimated maximum species richness and show that Simandou supports one of the most diverse bat communities in tropical Africa. Finally, we outline conservation concerns with respect to bats in the face of the iron ore extraction activities at Simandou.
Phylogenetic position of the giant house bat Scotophilus nigrita (Chiroptera, Vespertilionidae)
Mammalia, 2015
The giant house bat Scotophilus nigrita, one of the largest vespertilioniform bat species in the world, is a poorly known taxon, especially with respect to its phylogenetic relationships to congeneric species. Its phylogenetic position was thus assessed by analysing DNA sequences of single mitochondrial and nuclear genes. Based on the mitochondrial cytochrome b, S. nigrita was found to be paraphyletic with respect to continental African species S. colias, S. dinganii, S. nigritellus and S. viridis. Analysis of sequences of the nuclear zinc finger protein gene on the Y chromosome corroborated the general pattern of the cytochrome b phylogeny, although phylogenetic relationships were poorly resolved. These results clearly contradict the published data on S. nigrita from Kenya for both markers, rendering the hypothesis of historical hybridization with S. colias implausible and questioning the taxonomic affiliation of the particular Kenyan sequence. A deep split in the cytochrome b phylogeny between S. nigrita from West and Southern Africa reached sequence divergence values of 7.6% to 8.1%, a finding that supports taxonomic elevation of the two currently recognized subspecies into separate species S. nigrita and S. alvenslebeni.