Maternal lineages of mitochondrial DNA (mtDNA) are recognized as important components of intra and interspecific biodiversity and help us to disclose the phylogeny and divergence times of many taxa. Species of the genus Capra are canonical mountain dwellers. Among these is the Siberian ibex (Capra sibirica), which is regarded as a relic species whose intraspecific classification has been controversial so far. We collected 58 samples in Xinjiang, China, and analyzed the mtDNA genes to shed light on the intraspecific relationships of the C. sibirica populations and estimate the divergence time. Intriguingly, we found that the mtDNA sequences of C. sibirica split into two main lineages in both phylogenetic and network analyses: the Southern lineage, sister to Capra falconeri, consisting of samples from Ulugqat, Kagilik (both in Xinjiang), India, and Tajikistan; and the Northern lineage further divided into four monophyletic clades A–D corresponding to their geographic origins. Samples from Urumqi, Sawan, and Arturk formed a distinct monophyletic clade C within the Northern lineage. The genetic distance between the C. sibirica clades ranges from 3.0 to 8.6%, with values of FST between 0.839 and 0.960, indicating notable genetic differentiation. The split of the genus Capra occurred approximately 6.75 Mya during the late Miocene. The Northern lineage diverged around 5.88 Mya, followed by the divergence of Clades A–D from 3.30 to 1.92 Mya during the late Pliocene and early Pleistocene. The radiation between the Southern lineage and C. falconeri occurred at 2.29 Mya during the early Pleistocene. Our results highlight the importance of extensive sampling when relating to genetic studies of alpine mammals and call for further genomic studies to draw definitive conclusions.
Maternal lineages of mitochondrial DNA (mtDNA) are recognized as important components of intra- and inter-specific biodiversity and help us to disclose the phylogeny and divergence times of many taxa. Species of the genus Capra are canonical mountain dwellers. Among these is the Siberian ibex (Capra sibirica), which is regarded as a relic species whose intra-specific classification has been controversial so far. We collected 54 samples in Xinjiang, China, and analyzed the mtDNA genes to shed light on the intra-specific relationships of the C. sibirica populations and estimate the divergence time. Intriguingly, we found that the mtDNA sequences of C. sibirica split into two main lineages in both phylogenetic and network analyses: the southern lineage, sister to C. falconeri, consisting of samples from India, Ulugqat, and Kagilik in Xinjiang; and the northern lineage further divided into four monophyletic clades A–D corresponding to their geographic origins. Samples from Urumqi, Sawan, and Arturk formed a distinct monophyletic clade C within the northern lineage. The genetic distance between the C. sibirica clades ranges from 3 to 8.6 percent, with values of F between 0.72 and 0.95, indicating notable genetic differentiation. The split of the genus Capra occurred approximately 6.75 Mya during the late Miocene. The northern lineage diverged around 5.88 Mya, following the divergence of Clades A–D from 3.3 Mya to 1.9 Mya during the late Pliocene and early Pleistocene. The radiation between the southern lineage and C. falconeri occurred at 2.29 Mya during the early Pleistocene. Our results highlight the importance of extensive sampling when relating to genetic studies of alpine mammals and call for further genomic studies to draw definitive conclusions.
Echolocation acoustic signature identification is an ideal non-invasive field survey method for chiropteran diversity. Located in the far easternmost region of the Xinjiang Uyghur Autonomous Region where covers one sixth of China’s land territory, Komul city includes a variety of landscapes, including typical mountains, plateaus, plains, and the Gobi Desert, which is home to a number of terrestrial animals. By gathering bat echo sound waves between July and September 2022 and during April 2023, we investigated bat species diversity in Komul, Xinjiang, China. As a result, we identified a total of 24 species of bats belonging to two families and ten genera, of which Myotis is the dominant genus with seven species, followed by Pipistrellus with four species, and both Eptesicus and Nyctalus come after with three species. 16 of these species are novel to Xinjiang. The altitudinal distribution of these species is 500m to 2200m above sea level, and their horizontal distribution includes most of the surveyed region, e.g., Barkol Kazakh Autonomous County, Arturk County, and Ivirghul District. From a conservation perspective, three species (Miniopterus schreibersii、Myotis capaccinii and Nyctalus lasiopterus) and two species (Barbastella barbatellus and Myotis dasycneme) are listed as “vulnerable” and “near threatened” in the IUCN Red List of Threatened Species, respectively. Rest of which are of least concern. Our findings provide a valuable reference for future ecological, genetic, and conservational studies of bats in China, especially in Xinjiang.
Maternal lineages of mitochondrion DNA (mtDNA) are conceived as important components of intra- and inter-specific biodiversity and help us to disclose phylogeny and divergence time of many taxa. Species of the genus Capra are canonical mountain dwellers. Among these is Siberian ibex (Capra sibirica) that is regarded as a relic species and its intra-specific classification is controversial so far. We collected 54 samples in Xinjiang, China, and analyzed the mtDNA genes to shed light on the intra-specific relationships of the C. sibirica populations and estimated the divergence time. Intriguingly, we found that the mtDNA sequences of C. sibirica split into two main lineages in both phylogenetic and network analyses: the southern lineage, sister to C. falconeri, consisting of samples from India, Ulugqat, and Kagilik in Xinjiang; and the northern lineage further divided into four monophyletic clades A–D corresponding to their geographic origins. Samples from Urumqi, Sawan and Arturk formed a distinct monophyletic clade C within the northern lineage. The genetic distance between the C. sibirica clades ranges from 3 to 8.6 percent, with values of FST between 0.72 and 0.95, indicating notable differentiation. The split of the genus Capra occurred approximately 6.75 Mya during the late Miocene. The northern lineage diverged around 5.88 Mya, following the divergence of Clades A–D from 3.3 Mya to 1.9 Mya during the late Pliocene and early Pleistocene. The radiation between the southern lineage and C. falconeri occurred at 2.29 Mya during the early Pleistocene. Our results highlight the importance of extensive sampling when relating to genetic studies of alpine mammals and call for further genomic studies to draw definitive conclusions.
The major histocompatibility complex (MHC) genes are the most polymorphic genes in vertebrates, and their proteins play a critical role in adaptive immunity for defense against a variety of pathogens. MHC diversity was lost in many species after experiencing a decline in size. To understand the variation and evolution of MHC genes in the Siberian ibex, Capra sibirica, which has undergone a population decline, we analyzed the variation of the second exon of MHC class II DRB genes in samples collected from five geographic localities in Xinjiang, China, that belong to three diverged mitochondrial clades. Consequently, we identified a total of 26 putative functional alleles (PFAs) with 260 bp in length from 43 individuals, and found one (for 27 individuals) to three (for 5 individuals) PFAs per individual, indicating the presence of one or two DRB loci per haploid genome. The Casi-DRB1*16 was the most frequently occurring PFA, Casi-DRB1*22 came after found in only seven individuals, 14 PFAs occurred once (7 PFAs twice), implying high frequency of rare PFAs. Interestingly, more than half of the (15) PFAs were specific to clade I, only one and three PFAs were specific to clades II and III, respectively. So, we assume that the polygamy and sextual segregation nature of this species likely contributed to the allelic diversity of DRB genes. Genetic diversity indices showed that PFAs of clade II were lower in nucleotide, amino acid, and supertype diversity compared to those of the other two clades. The way of allele sharing and FST values between three clades were to some extent in agreement with pattern observed in mitochondrial DNA divergence. In addition, recombination analyses revealed no evidence for significant signatures of recombination events. Alleles shared by clades III and the other two clades diverged 6 million years ago, and systematic neighbor grids showed cross-species polymorphisms. Together with the PAML and MEME analyses, the results indicated that the DRB gene in C. sibirica evolved under balancing and positive selection. However, by comparison, it can be clearly seen that different populations were under different selective pressures. Our results are valuable in understanding the diversity and evolution of the DRB gene in a mountain living C. sibirica and in making decisions on future long-term protection strategies.
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