Molecular analysis of wild and domestic sheep questions current nomenclature and provides evidence for domestication from two different subspecies

Complete mitochondrial DNA (mtDNA) control regions (CR) were sequenced and analysed in order to investigate wild sheep taxonomy and the origin of domestic sheep (Ovis aries). The dataset for phylogenetic analyses includes 63 unique CR sequences from wild sheep of the mouflon (O. musimon, O. orientalis), urial (O. vignei), argali (O. ammon) and bighorn (O. canadensis) groups, and from domestic sheep of Asia, Europe and New Zealand. Domestic sheep occurred in two clearly separated branches with mouflon (O. musimon) mixed into one of the domestic sheep clusters. Genetic distances and molecular datings based on O. canadensis CR and mtDNA protein-coding sequences provide strong evidence for domestications from two mouflon subspecies. Other wild sheep sequences are in two additional well-separated branches. Ovis ammon collium and O. ammon nigrimontana are joined with a specimen from the transkaspian Ust-Urt plateau currently named O. vignei arkal. Ovis ammon ammon, O. ammon darwini and O. vignei bochariensis represent a separate clade and the earliest divergence from the mouflon group. Therefore, O. musimon, O. vignei bochariensis and Ust-Urt sheep are not members of a 'moufloniform' or O. orientalis species, but belong to different clades. Furthermore, Ust-Urt sheep could be a hybrid population or an O. ammon subspecies closely related to O. ammon nigrimontana.     

从细胞色素b基因全序列差异分析岩羊和矮岩羊的系统进化关系

矮岩羊的分类地位从它被发现后就一直存在着争议。本文测定了分别来自四川和青海的岩羊(Pseudois nayaur)和矮岩羊(Pseudois schaeferi)共7个个体的Cyt b基因全序列(1140bp)，结合山羊(Capra hircus)、北山羊(Capra ibex)、绵羊(Ovis aries)和盘羊(Ovis ammon)同源DNA序列进行比较，分析了碱基组成和变异情况以及核苷酸序列差异。用简约法和距离距阵法构建了分子系统树，得到了相同的拓扑结构。结果显示：岩羊和矮岩羊互为单系群，有着较山羊、北山羊、绵羊和盘羊间更近的亲缘关系，它们之间的序列差异(Cyt b＝3．2％)低于牛科不同种间的序列差异水平(8．3％-12．1％)，明显高于种内个体的序列差异，而处于牛科亚种的序列差异范围内。因此，推测矮岩羊与岩羊之间的差异可能已经达到了亚种的水平。它们的分歧时间为l-3百万年[动物学报49(2)：198—204，2003]。     

从细胞色素b 基因全序列分析岩羊和山羊、绵羊的系统发生关系

本文测定了来自四川和青海岩羊的细胞色素b 基因全序列(1 140 bp) , 结合从GenBank 中检索获得的山羊、北山羊、绵羊和盘羊4 个近缘种细胞色素b 核苷酸同源区序列进行比较, 分析了碱基组成和变异情况以及核苷酸序列差异。分别采用简约法和距离矩阵法构建分子系统树, 得到了基本相同的拓扑结构, 从分子水平初步探讨了岩羊的系统起源问题。岩羊与山羊属的山羊、北山羊有着比绵羊属的绵羊、盘羊更近的亲缘关系。岩羊与山羊、北山羊的分歧时间大约在3～6 百万年, 而与盘羊、绵羊的分歧时间大约在6～8 百万年。     

Molecular evidence for the subspecific differentiation of blue sheep (Pseudois nayaur) and polyphyletic origin of dwarf blue sheep (Pseudois schaeferi)

Blue sheep (Pseudois nayaur), a Central Asian ungulate with restricted geographic distribution, exhibits unclear variation in morphology and phylogeographic structure. The composition of species and subspecies in the genus Pseudois is controversial, particularly with respect to the taxonomic designation of geographically restricted populations. Here, 26 specimens including 5 dwarf blue sheep (Pseudois schaeferi), which were collected from a broad geographic region in China, were analyzed for 2 mitochondrial DNA fragments (cytochrome b and control region sequences). In a pattern consistent with geographically defined subspecies, we found three deeply divergent mitochondrial lineages restricted to different geographic regions. The currently designated two subspecies of blue sheep, Pseudois nayaur nayaur and Pseudois nayaur szechuanensis, were recognized in the phylogenetic trees. In addition, the Helan Mountain population showed distinct genetic characteristics from other geographic populations, and thus should be classified as a new subspecies. In contrast, dwarf blue sheep clustered closely with some blue sheep from Sichuan Province in the phylogenetic trees. Therefore, dwarf blue sheep appear to be a subset of Pseudois nayaur szechuanensis. After considering both population genetic information and molecular clock analysis, we obtained some relevant molecular phylogeographic information concerning the historical biogeography of blue sheep. These results also indicate that western Sichuan was a potential refugium for blue sheep during the Quaternary period.     

Five ovine mitochondrial lineages identified from sheep breeds of the near East

Archaeozoological evidence indicates that sheep were first domesticated in the Fertile Crescent. To search for DNA sequence diversity arising from previously undetected domestication events, this survey examined nine breeds of sheep from modern-day Turkey and Israel. A total of 2027 bp of mitochondrial DNA (mtDNA) sequence from 197 sheep revealed a total of 85 haplotypes and a high level of genetic diversity. Six individuals carried three haplotypes, which clustered separately from the known ovine mtDNA lineages A, B, and C. Analysis of genetic distance, mismatch distribution, and comparisons with wild sheep confirmed that these represent two additional mtDNA lineages denoted D and E. The two haplogroup E sequences were found to link the previously identified groups A and C. The single haplogroup D sequence branched with the eastern mouflon (Ovis orientalis), urial (O. vignei), and argali (O. ammon) sheep. High sequence diversity (K = 1.86%, haplogroup D and O. orientalis) indicates that the wild progenitor of this domestic lineage remains unresolved. The identification in this study of evidence for additional domestication events adds to the emerging view that sheep were recruited from wild populations multiple times in the same way as for other livestock species such as goat, cattle, and pig.     

Evolutionary history of the genus Capra (Mammalia, Artiodactyla): discordance between mitochondrial DNA and Y-chromosome phylogenies

The systematics of the genus Capra remain controversial in spite of studies conducted using morphology, mtDNA, and allozymes. Here, we assess the evolutionary history of Capra (i) using phylogenetic analysis of two nuclear genes located on the Y-chromosome and (ii) previously published and new cytochrome b sequences. For the Y-chromosome phylogeny, we sequenced segments from the amelogenin (AMELY) and zinc finger (ZFY) genes from all of the eight wild taxa and from domestic goats (Capra hircus). Phylogenetic analysis of the Y-chromosome data revealed two well-defined clades. The domestic goat (C. hircus), the bezoar (Capra aegagrus), and the markhor (C. falconeri) belong to one clade (ML bootstrap value [BP]: 98%), suggesting that domestic goats originated from one or both of these wild species. The second clade (ML BP: 92%) is comprised of all the other wild species. Horn morphology is generally concordant with the Y-chromosome phylogeny. The mtDNA data also revealed two well-defined clades. However, the species in each clade are different from those inferred from the Y-chromosome data. To explain the discordance between Y-chromosome and mtDNA phylogenies, several hypotheses are considered. We suggest that a plausible scenario involves mtDNA introgression between ancestral taxa before the relatively recent colonization of Western Europe, the Caucasus Mountains, and East Africa by Capra populations.     

芍药属牡丹组基于形态学证据的系统发育关系分析

对芍药属牡丹组Paeonia L.sect.Moutan DC.（全部野生种）40个居群进行了基于形态学证据的系统学分析,试图建立组内种间的系统发育关系。利用PAUP （4.0）计算机程序分别构建了建立在25个形态学性状基础上的所有研究类群的距离树（UPGMA、NJ）和最大简约树（MP）。所得树的拓扑结构基本一致,差异只发生在距离树和简约树之间,在由形态和细胞学关系都很近的5个种（牡丹P.suffruticosa、矮牡丹P.jishanensis、卵叶牡丹P.qiui、紫斑牡丹P.rockii和凤丹P.o     

Molecular phylogeography and genetic differentiation of blue sheep Pseudois nayaurszechuanensis and Pseudois schaeferi in China

Within the genus Pseudois (Bovidae, Artiodactyla), two challenges are faced by taxonomists. First, the designation of the two subspecies of blue sheep, Pseudois nayaur nayaur and Pseudois nayaurszechuanensis, tends to be questionable with the accumulation of morphological and molecular data. Second, the taxonomic status of the dwarf blue sheep (Pseudois schaeferi) has been controversial since its discovery, and molecular analyses with relatively small sample sizes have not painted a clear picture. We collected samples and DNA sequence data from a broad geographic range in China to investigate the population structure of Pseudois nayaurszechuanensis and its phylogenetic relationship with Pseudois schaeferi. Employing mitochondrial cytochrome b and control region sequences, as well as the nuclear gene zona pellucida glycoprotein 3, further investigation was performed to extend upon previous studies. We found that the population of Helan Mountain of Ningxia Hui Autonomous Region has significantly differentiated from the populations in Qinghai, Gansu and Sichuan provinces, and may be classified as a new subspecies according to the 75% rule. The dwarf blue sheep was found to be some individuals of Pseudois nayaurszechuanensis with morphological variations and is not a species or subspecies, since they did not fall into a monophyletic group in the phylogenetic analyses with blue sheep. Gene flow between dwarf blue sheep and common blue sheep might have occurred in different areas of western Sichuan, which would result in the paraphyly of dwarf blue sheep.     

基于线粒体Cyt b 和核基因ZFY 探讨羊族物种之间的系统发生关系

为了阐明羊族物种之间的系统发生关系并解决岩羊属中矮岩羊物种的有效性问题,本文测定了来自金沙江河谷地区栖息于林线以上岩羊和林线以下矮岩羊共226 份粪便DNA 样品的线粒体Cyt b 基因全序列(1 140 bp)和核基因ZFY 部分序列(612 bp),结合从GenBank 中检索到的羊族物种同源DNA 序列进行比较,利用最大简约法和最大似然法构建分子系统发育树,根据获得的拓扑结构初步探讨它们的系统进化关系。结果表明,绵羊属的绵羊与山羊属、塔尔羊属、岩羊属各物种亲缘关系最远,喜马拉雅塔尔羊和岩羊属、山羊属的亲缘关系最近。在进化树的岩羊属这一分支中,金沙江河谷地带岩羊和矮岩羊与内蒙古、青海、四川其它地理种群的岩羊聚为一支,同时分布在这一区域的部分岩羊和矮岩羊在Cyt b 基因和ZFY 基因单倍型上存在共享现象。历史上的气候事件可能造成金沙江河谷地带岩羊和矮岩羊种群之间相互迁移,偏雄性扩散促进了各地理种群之间的基因交流。因此不支持矮岩羊为独立的物种,建议将金沙江河谷地带的岩羊和矮岩羊都划分到岩羊四川亚种(Pseudois nayaur szechuanensis)。由于它们的形态和生态上存在一定的分化,建议将林线以下矮岩羊作为一个独立的管理单元进行保护与管理。     

基于线粒体ND1和CO1基因序列探讨锯眼蝶-亚科主要类群的系统发生关系

研究测定了锯眼蝶亚科4族、10属共20个国产代表种的线粒体ND1和COI基因的部分序列,结合从GenBank中获得的4个国外产种类的同源序列,以凤蝶科的迪洛尔娟凤蝶、丝带凤蝶,以及娟蝶科的西猛娟蝶为外类群,通过邻接法、最大简约法、最大似然法和贝叶斯法重建了分子系统树,分析了该亚科及其主要类群的系统发生关系。分析结果表明：帻眼蝶族和锯眼蝶族具有较近的亲缘关系;黛眼蝶族不是单系群,该族中的黛眼蝶属、荫眼蝶属与眉眼蝶族具有较近的亲缘关系,带眼蝶属、藏眼蝶属、毛眼蝶属和帕眼蝶属聚合为一个独立的支系,其中带眼蝶属和藏眼蝶属在所有的分析方法中均以100%的置信度（BP=100%, PP=1.00）相聚合,笔者倾向于将它们合并为一属。     

New records of Gelidiella pannosa, Pterocladiella caerulescens and Pterocladiella caloglossoides (Rhodophyta, Gelidiales) from Japan

Three gelidialean species, Gelidiella pannosa (Feld‐mann) Feldmann et Hamel, Pterocladiella caerulescens (Kutzing) Santelices et Hommersand and Pterocladiella caloglossoides (Howe) Santelices, are newly reported from Japan, and their characteristic features are described. Monoecious plants of P. caerulescens produce spermatangial sori on: (i) fertile cystocarpic branchlets; (ii) special spermatangial branchlets on a cystocarpic axis; and (iii) branchlets of a special spermatangial axis. The latter two are newly reported in this species. Gelidiella pannosa has numerous unicellular independent points of attachment, whereas P. caerulescens and P. caloglossoides have the peg type of secondary rhizoidal anchorage. In the molecular phylogenetic study using small subunit ribosomal DNA sequences, G. pannosa is included in the Gelidiella clade with 100% bootstrap support in neighbor‐joining (NJ) analysis and 99% in maximum parsimony (MP) analysis. Pterocladiella caerulescens and P. caloglossoides are included in the Pterocladiella clade with 99.7% bootstrap support in NJ analysis and 100% in MP analysis. Each type of secondary rhizoidal attachment is completely consistent with the respective genus clade, which suggests that this morphological characteristic reflects phylogeny within the order Gelidiales.     

Accurate and robust phylogeny estimation based on profile distances: a study of the Chlorophyceae (Chlorophyta)

Background  

In phylogenetic analysis we face the problem that several subclade topologies are known or easily inferred and well supported by bootstrap analysis, but basal branching patterns cannot be unambiguously estimated by the usual methods (maximum parsimony (MP), neighbor-joining (NJ), or maximum likelihood (ML)), nor are they well supported. We represent each subclade by a sequence profile and estimate evolutionary distances between profiles to obtain a matrix of distances between subclades.     

中国部分家养山羊mtDNA D环区遗传多样性与进化

对我国10个家养山羊品种140只个体的mtDNA D-loop区进行测序分析, 测得结果: 整个D-loop区为 1 211~1 213 bp, 共检测到84种单倍型, 171个多态位点。其中核苷酸多样性(Nucleotide diversity, Pi)为: 0.02063 ± 0.00225, 单倍型多样性(Haplotype gene diversity, Hd)为: 0.988 ± 0.003, 平均核苷酸差异数(Average number of nucleotide differences) k为: 24.896。表明我国家养山羊品种遗传多样性丰富。通过构建NJ网络进化树, 得出中国家养山羊主要分为两大支系, 并且其中一支与角骨羊(Capra aegagrus)聚在一起, 而旋角野山羊(Capra fal-coneri)单独聚为一支, 说明角骨羊对中国家养山羊贡献较大。     

A complete estimate of the phylogenetic relationships in Ruminantia: a dated species-level supertree of the extant ruminants

This paper presents the first complete estimate of the phylogenetic relationships among all 197 species of extant and recently extinct ruminants combining morphological, ethological and molecular information. The composite tree is derived by applying matrix representation using parsimony analysis to 164 previous partial estimates, and is remarkably well resolved, containing 159 nodes (> 80 % of the potential nodes in the completely resolved phylogeny). Bremer decay index has been used to indicate the degree of certainty associated with each clade. The ages of over 80% of the clades in the tree have been estimated from information in the literature. The supertree for Ruminantia illustrates which areas of ruminant phylogeny are still only roughly known because of taxa with controversial relationships (e.g. Odocoileini, Antilopinae) or not studied in great detail (e.g. Muntiacus). It supports the monophyly of the ruminant families and Pecora. According to this analysis Antilocapridae and Giraffidae constitute the superfamily Giraffoidea, which is the sister group of a clade clustering Bovoidea and Cervoidea. The position of several taxa whose systematic positions have remained controversial in the past (Saiga, Pelea, Aepycerus, Pantholops, Ammotragus, Pseudois) is unambiguously established. Nevertheless, the position of Neotragus and Oreotragus within the original radiation of the non-bovine bovids remains unresolved in the present analysis. It also shows that six successive rapid cladogenesis events occurred within the infraorder Pecora during the Oligocene to middle Pliocene, which coincided with periods of global climatic change. Finally, the presented supertree will be a useful framework for comparative and evolutionary biologists interested in studies involving the ruminants.     

Mitogenomic analysis of the genus Pseudois: Evidence of adaptive evolution of morphological variation in the ATP synthase genes

The genus Pseudois includes two variable taxa, blue sheep (Pseudois nayaur) and dwarf blue sheep (Pseudois schaeferi), that exhibit notable geographic variation in morphology and ecological niche, suggesting the potential for significant adaptive differentiation between these two goats. Blue sheep are broadly distributed in the Tibetan Plateau and peripheral mountains through Central Asia, while dwarf blue sheep are only found in the gorges of the upper Yangtze River (Jinsha River) near Batang county, Sichuan province and adjacent mountains. Although they are all adapted to high altitude environments, endangered dwarf blue sheep show unique morphological variation and niche shifts compared to blue sheep. Mitochondria play important roles in oxygen usage and energy metabolism. The energetically demanding lifestyles of these high altitude species may have altered the selective regimes on mitochondrial genes encoding proteins related to cellular respiration. Here, we compared the sequences of 13 protein-coding genes in the mitochondrial genome of dwarf blue sheep with those of blue sheep to understand the genetic basis of morphological variation. Using neighbor-joining, maximum-likelihood and Bayesian approaches, we estimated rates of synonymous (d(S)) and nonsynonymous (d(N)) substitutions. Independent analyses showed that no ω ratio was larger than 1, suggesting that all mitochondrial 13 genes were under the purifying selection. Surprisingly, we found that the ω ratio (d(N)/d(S)) of the ATP synthase complex (ATP6 and ATP8) in blue sheep is sixteen times that of dwarf blue sheep (0.340 compared to 0.021). This result was confirmed by a separate analysis of ATP synthase genes from two additional P. schaeferi individuals and two P. nayaur individuals. We hypothesize that the large body size and diverse feeding styles are factors influencing the nonsynonymous substitutions in the ATP synthase complex of blue sheep.     

REEXAMINATION OF PHYLOGENETIC RELATIONSHIPS WITHIN THE COLONIAL VOLVOCALES (CHLOROPHYTA): AN ANALYSIS OF atpB AND rbcL GENE SEQUENCES

The chloroplast-encoded atp B gene was sequenced from 33 strains representing 28 species of the colonial Volvocales (the Volvocaceae and its relatives) to reexamine phylogenetic relationships as previously deduced by morphological data and rbc L gene sequence data.1128 base pairs in the coding regions of the atp B gene were analyzed by MP, NJ, and ML analyses. Although supported with relatively low bootstrap values (75% and 65% in the NJ and ML analyses, respectively), three anisogamous/oogamous volvocacean genera— Eudorina, Pleodorina, and Volvox, excluding the section Volvox (= Euvolvox, illegitimate name), constituted a large monophyletic group (Eudorina group). Outside the Eudorina group, a robust lineage composed of three species of Volvox sect. Volvox was resolved as in the rbc L gene trees, rejecting the hypothesis of the previous cladistic analysis based on morphological data that the genus Volvox is monophyletic. In addition, the NJ and ML trees suggested that Eudorina is a nonmonophyletic genus as inferred from the morphological data and rbc L gene sequences. Although phylogenetic status of the genus Gonium is ambiguous in the rbc L gene trees and the paraphyly of this genus is resolved in the cladistic analysis based on morphological data, the atp B gene sequence data suggest monophyly of Gonium with relatively low bootstrap values (56–61%) in the NJ and ML trees. On the basis of the combined sequence data (2256 base pairs) from atp B and rbc L genes, Gonium was resolved as a robust monophyletic genus in the NJ and ML trees (with 68–86% bootstrap values), and Eudorina elegans Ehrenberg represented a paraphyletic species positioned most basally within the Eudorina group. However, phylogenetic status and relationships of the families of the colonial Volvocales were still almost ambiguous even in the combined analysis.     

基于ITS序列分析豹子花属与5种百合的亲缘关系

以滇蜀豹子花和多斑豹子花为材料,采用PCR直接测序法测定其ITS序列,结合GenBank中其它3种豹子花和5种百合的ITS序列,构建了这10种植物的系统发育树.结果表明:(1)10种植物的ITS序列长度在625bp～627 bp之间,总G C含量在60.38%～61.12%之间,5.8S的G C含量除大理百合为45.4%外,其余9种植物为55.01%或54.60%,说明ITS序列在进化上保守性较强,同属不同种甚至不同属间的长度差异不明显;(2)NJ、MP、ME聚类树的分支趋势一致,都是豹子花属植物先聚在一起再和5种百合相聚,滇西豹子花和豹子花在3种聚类树中都以99%以上的支持率聚成一支,说明这2个种的亲缘关系最近;(3)在10种植物中,形态相似且分布海拔和区域重叠的种类先相聚,说明这些物种的亲缘关系密切.     

Molecular characterization of Gonatocerus tuberculifemur (Ogloblin) (Hymenoptera: Mymaridae), a prospective Homalodisca vitripennis (Germar) (Hemiptera: Cicadellidae) biological control candidate agent from South America: divergent clades

We genetically characterized the prospective South American egg parasitoid candidate, Gonatocerus tuberculifemur, of the glassy-winged sharpshooter (GWSS), Homalodisca vitripennis, for a neoclassical biological control program in California. Two molecular methods, inter-simple sequence repeat-polymerase chain reaction DNA fingerprinting and a phylogeographic approach inferred from the mitochondrial cytochrome oxidase subunit I gene (COI), were utilized. Five geographic populations from South America were analyzed; in addition, a phylogenetic analysis was performed with several named and one unnamed Gonatocerus species using the COI gene. DNA fingerprinting demonstrated a fixed geographic banding pattern difference in the population from San Rafael, Mendoza Province, Argentina. The COI analysis uncovered haplotype or geographic structure in G. tuberculifemur. A neighbour-joining distance (NJ) and a single most parsimonious tree (MP) clustered the populations into two well-supported distinct clades with strong bootstrap values (97-99% and 92-99%, respectively) with populations from San Rafael clustering into clade 2 and the rest of the populations clustering into clade 1. No haplotype sharing was observed between individuals from the two clades. Phylogenetic analyses performed by NJ and MP methods with 15 Gonatocerus species confirmed species boundaries and again uncovered two distinct clades in G. tuberculifemur with strong bootstrap support (95-100% and 68-100%, respectively). However, the NJ tree supported the morphologically defined relationships better than the MP tree. The molecular evidence in the present study is suggestive of a species level divergence. Because G. tuberculifemur is under consideration as a potential biological control agent for GWSS in California, understanding cryptic variation in this species is critical.     

Molecular phylogeny of solitary shell-bearing Polycystinea (Radiolaria)

The phylogeny of the Family Spongodiscidae (polycystine Radiolaria), which includes Dictyocoryne profunda Ehrenberg, Dictyocoryne truncatum (Ehrenberg) and Spongaster tetras Ehrenberg, was examined using 18S ribosomal DNA (small-subunit ribosomal DNA) sequence analysis. Three types of tree construction methods, the neighbor joining (NJ), maximum parsimony (MP), and maximum likelihood (ML) methods, were used to infer the phylogenetic relationships of the polycystine and acantharian Radiolaria among eukaryotes. The obtained 18S rDNA molecular phylogenetic tree argues for the monophyly of the two groups. Furthermore, the Polycystinea is divided into at least two distinct lineages consisting of: (1) colonial and skeletonless Polycystinea, including Thalassicollidae, Collospaeridae, and Sphaerozoidae; and (2) shell-bearing solitary Polycystinea, including Spongodiscidae. The Polycystinea thus show a paraphyly among Radiolaria. Moreover, the monophyly of the clade including the acantharians and the spongodiscid polycystines was supported by bootstrap values, which were 94%, 53%, and 59% in the NJ, MP, and ML analyses, respectively. This lineage is characterized by having latticed or spongy skeletons of different chemical composition, namely SiO₂ (Class Polycystinea) or SrSO₄ (Class Acantharea). According to the present taxonomic scheme, the Acantharea and the Polycystinea have not been placed in different classes, but the results of our molecular study show the opposite. We therefore suggest, based on the monophyly of the two clades, that a new taxonomic group of Radiolaria can be established. Our molecular data also suggest that the currently used radiolarian taxonomic system may need serious revisions.     

Molecular phylogeny and phylogeography of genus Pseudois (Bovidae,Cetartiodactyla): New insights into the contrasting phylogeographic structure

Blue sheep, Pseudois nayaur, is endemic to the Tibetan Plateau and the surrounding mountains, which are the highest‐elevation areas in the world. Classical morphological taxonomy suggests that there are two subspecies in genus Pseudois (Bovidae, Artiodactyla), namely Pseudois nayaur nayaur and Pseudois nayaur szechuanensis. However, the validity and geographic characteristics of these subspecies have never been carefully discussed and analyzed. This may be partially because previous studies have mainly focused on the vague taxonomic status of Pseudois schaeferi (dwarf blue sheep). Thus, there is an urgent need to investigate the evolutionary relationship and taxonomy system of this genus. This study enriches a previous dataset by providing a large number of new samples, based on a total of 225 samples covering almost the entire distribution of blue sheep. Molecular data from cytochrome b and the mitochondrial control region sequences were used to reconstruct the phylogeny of this species. The phylogenetic inferences show that vicariance plays an important role in diversification within this genus. In terms of molecular dating results and biogeographic analyses, the striking biogeographic pattern coincides significantly with major geophysical events. Although the results raise doubt about the present recognized distribution range of blue sheep, they have corroborated the validity of the identified subspecies in genus Pseudois. Meanwhile, these results demonstrate that the two geographically distinct populations, the Helan Mountains and Pamir Plateau populations, have been significantly differentiated from the identified subspecies, a finding that challenges the conventional taxonomy of blue sheep.