| 1. |
- Westbury, Michael, et al.
(författare)
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Complete mitochondrial genome of a bat-eared fox (Otocyon megalotis), along with phylogenetic considerations
- 2017
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Ingår i: Mitochondrial DNA Part B. - : Informa UK Limited. - 2380-2359. ; 2:1, s. 298-299
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Tidskriftsartikel (refereegranskat)abstract
- The bat-eared fox, Otocyon megalotis, is the only member of its genus and is thought to occupy a basal position within the dog family. These factors can lead to challenges in complete mitochondrial reconstructions and accurate phylogenetic positioning. Here, we present the first complete mitochondrial genome of the bat-eared fox recovered using shotgun sequencing and iterative mapping to three distantly related species. Phylogenetic analyses placed the bat-eared fox basal in the Canidae family within the clade including true foxes (Vulpes) and the raccoon dog (Nyctereutes) with high support values. This position is in good agreement with previously published results based on short fragments of mitochondrial and nuclear genes, therefore adding more support to the basal positioning of the bat-eared fox within Canidae.
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| 2. |
- Westbury, Michael V., et al.
(författare)
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Aardwolf population diversity and phylogenetic positioning inferred using complete mitochondrial genomes
- 2019
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Ingår i: African journal of wildlife research. - : Southern African Wildlife Management Association. - 2410-7220 .- 2410-8200. ; 49:1, s. 27-33
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Tidskriftsartikel (refereegranskat)abstract
- The aardwolf (Proteles cristata) is a unique. insectivorous species of the family Hyaenidae. It occupies a disjunct range in eastern and southern Africa and is possibly a remaining member of a historical dog-like hyaena Glade. Although both local and global population status and trends are largely unknown, aardwolves are not uncommon in arid grasslands and the IUCN conservation status of Least Concern appears to be justified. However, they are one of the least studied of the four hyaena species, and we have scarce information about the genetic structure of aardwolf populations. Here, we present the first complete aardwolf mitochondrial genomes and provide novel information about aardwolf evolutionary origins and genetic structure within a single population. Through the investigation of complete mitochondrial genomes from five individuals from a single population within South Africa, we find the mitochondrial diversity of this population to be neither particularly high nor low compared to a number of other mammalian species. Moreover, we also provide additional evidence towards the basal position of the aardwolf within Hyaenidae with a divergence time of 13.0 Ma (95% CI 10.1-16.4 Ma) from all other extant hyaena species.
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| 3. |
- Westbury, Michael V, et al.
(författare)
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Ecological Specialization and Evolutionary Reticulation in Extant Hyaenidae
- 2021
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Ingår i: Molecular biology and evolution. - : Oxford University Press (OUP). - 0737-4038 .- 1537-1719. ; 38:9, s. 3884-3897
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Tidskriftsartikel (refereegranskat)abstract
- During the Miocene, Hyaenidae was a highly diverse family of Carnivora that has since been severely reduced to four species: the bone-cracking spotted, striped, and brown hyenas, and the specialized insectivorous aardwolf. Previous studies investigated the evolutionary histories of the spotted and brown hyenas, but little is known about the remaining two species. Moreover, the genomic underpinnings of scavenging and insectivory, defining traits of the extant species, remain elusive. Here, we generated an aardwolf genome and analyzed it together with the remaining three species to reveal their evolutionary relationships, genomic underpinnings of their scavenging and insectivorous lifestyles, and their respective genetic diversities and demographic histories. High levels of phylogenetic discordance suggest gene flow between the aardwolf lineage and the ancestral brown/striped hyena lineage. Genes related to immunity and digestion in the bone-cracking hyenas and craniofacial development in the aardwolf showed the strongest signals of selection, suggesting putative key adaptations to carrion and termite feeding, respectively. A family-wide expansion in olfactory receptor genes suggests that an acute sense of smell was a key early adaptation. Finally, we report very low levels of genetic diversity within the brown and striped hyenas despite no signs of inbreeding, putatively linked to their similarly slow decline in effective population size over the last ∼2 million years. High levels of genetic diversity and more stable population sizes through time are seen in the spotted hyena and aardwolf. Taken together, our findings highlight how ecological specialization can impact the evolutionary history, demographics, and adaptive genetic changes of an evolutionary lineage.
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