14 results on '"GUO Peng"'
Search Results
2. Molecular phylogeny reveals cryptic diversity in Sibynophis from China (Serpentes: Sibynophiidae).
- Author
-
Guo, Peng, Wang, Ping, Lyu, Bing, Liu, Qin, Zheng, Jieyu, Fu, Chunmei, Wu, Yayong, Shu, Guocheng, and Hou, Shaobing
- Subjects
- *
MOLECULAR phylogeny , *SNAKES , *SPECIES distribution , *SPECIES diversity , *GENETIC markers , *COLUBRIDAE - Abstract
The elucidation of species diversity and distribution is critical within the fields of evolution, genetics, and conservation. The genus Sibynophis contains rare snakes that have historically received little attention. In this study, we conducted comprehensive sampling and use both mitochondrial and nuclear genetic markers to explore Sibynophis species diversity within China. Our findings revealed that S. c. miyiensis should be considered synonymous with S. c. grahami, and S. c. grahami should be gave a specific rank as S. grahami. In addition, we discovered S. triangularis was new to China and Myanmar. Based on the specimens and molecular phylogeny results, we redefined the species distribution boundaries of each Chinese species. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
3. Out of Asia: Natricine snakes support the Cenozoic Beringian Dispersal Hypothesis
- Author
-
Guo, Peng, Liu, Qin, Xu, Yan, Jiang, Ke, Hou, Mian, Ding, Li, Alexander Pyron, R., and Burbrink, Frank T.
- Subjects
- *
SNAKES , *CENOZOIC Era , *HYPOTHESIS , *MITOCHONDRIAL DNA , *MOLECULAR phylogeny , *ESTIMATION theory - Abstract
Abstract: Based on a combination of six mitochondrial gene fragments (12S RNA, cyt b, ND1, ND2, ND4 and CO1) and one nuclear gene (c-mos) from 22 genera we infer phylogenetic relationships among natricine snakes and examine the date and area of origin of these snakes. Our phylogenetic results indicate: (1) the subfamily Natricinae is strongly supported as monophyletic including a majority of extant genera, and a poorly known and previously unassigned species Trachischium monticola, (2) two main clades are inferred within Natricinae, one containing solely taxa from the Old World (OW) and the other comprising taxa from a monophyletic New World (NW) group with a small number of OW relatives. Within the first clade, the genera Xenochrophis and Amphiesma are apparently not monophyletic. Divergence dating and ancestral area estimation indicate that the natricines originated in tropical Asia during the later Eocene or the Oligocene. We recover two major dispersals events out of Asia, the first to Africa in the Oligocene (28Ma) and the second to the Western Palearctic and the New World at 27Ma. This date is consistent with the dispersal of numerous other OW groups into the NW. [Copyright &y& Elsevier]
- Published
- 2012
- Full Text
- View/download PDF
4. An investigation of the cranial evolution of Asian pitvipers (Serpentes: Crotalinae), with comments on the phylogenetic position of Peltopelor macrolepis.
- Author
-
Guo, Peng, Jadin, Robert C., Malhotra, Anita, and Li, Cao
- Subjects
- *
PIT vipers , *BIOLOGICAL evolution , *POLYMORPHISM (Zoology) , *TRIMERESURUS , *SNAKES - Abstract
Guo, P., Jadin, R.C., Malhotra, A. and Li, C. 2009. An investigation of the cranial evolution of Asian pitvipers (Serpentes: Crotalinae), with comments on the phylogenetic position of Peltopelor macrolepis— Acta Zoologica (Stockholm) 91: 402–407. We investigated the evolution of 12 cranial characters of 31 species of Asian pitvipers by examining the character state changes on a consensus tree modified from broadly consistent molecular results. We found that these characters appear stable with only one intraspecific polymorphism. Nine of the 12 characters form useful synapomorphies, whereas three are ambiguous and evolutionarily plastic. Clades that are supported with numerous apomorphies are the Trimeresurus group [consisting of the recently defined genera Trimeresurus sensu Malhotra and Thorpe (2004) , Parias, Popeia, Viridovipera, Himalayophis, and Cryptelytrops] and the genera Protobothrops, Parias, and Viridovipera. Two species previously considered as congeners but now known to be distantly related, Ovophis monticola and ‘ Ovophis’ okinavensis, have nearly identical character states, demonstrating substantial convergence in cranial characters. Finally, we attempt to infer the phylogenetic position of Peltopelor macrolepis by comparing its cranial features with that of other pitvipers. [ABSTRACT FROM AUTHOR]
- Published
- 2010
- Full Text
- View/download PDF
5. Out of the Hengduan Mountains: Molecular phylogeny and historical biogeography of the Asian water snake genus Trimerodytes (Squamata: Colubridae).
- Author
-
Guo, Peng, Zhu, Fei, Liu, Qin, Wang, Ping, Che, Jing, and Nguyen, Truong Q.
- Subjects
- *
MOLECULAR phylogeny , *SQUAMATA , *BIOGEOGRAPHY , *SNAKES , *COLUBRIDAE , *MOUNTAINS , *PHYLOGEOGRAPHY - Abstract
• The monophyly of Trimerodytes is strongly supported, with T. yapingi as the basal to the remaining species. • Trimerodytes likely originated in Hengduan Mountains (eastern Tibetan Plateau) in western China at 23.93 Ma (17.09–31.30). • The validity of T. yunnanensis is supported. The Asian water snake genus Trimerodytes (formerly Sinonatrix) is endemic to East and Southeast Asia. Although several species have been included in various phylogenetic studies previously, the evolution and relationships among members of this genus as a whole remain unexplored. In this study, we report the sequencing two protein-coding mitochondrial gene fragments (MTCYB and ND2) and three nuclear genes (c-mos , NT3 , and Rag1), reconstruct interspecific phylogeny, and explore biogeography for the genus Trimerodytes. Both Bayesian inference and maximum likelihood analyses consistently recover the monophyly of Trimerodytes with strong support, with T. yapingi the sister-group to the remaining species. The divergence date and ancestral area estimation suggest that Trimerodytes likely originated in Hengduan Mountains (eastern Tibetan Plateau) in western China at 23.93 Ma (95% HPD: 17.09–31.30), and intraspecific divergence began at about 4.23 Ma (95% HPD: 2.74–6.10). Analyses support the validity of T. yunnanensis. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF
6. Genomic analysis reveals deep population divergence in the water snake Trimerodytes percarinatus (Serpentes, Natricidae).
- Author
-
Lyu, Bing, Liu, Qin, Wu, Yayong, Nguyen, Truong Q., Che, Jing, Nguyen, Sang N., Myers, Edward A., Burbrink, Frank T., Guo, Peng, and Wang, Jichao
- Subjects
- *
GENOMICS , *COLUBRIDAE , *SNAKES , *SINGLE nucleotide polymorphisms , *GENETIC variation , *PRINCIPAL components analysis - Abstract
Although several phylogeographic studies of Asian snakes have been conducted, most have focused on pitvipers, with non‐venomous snakes, such as colubrids or natricids, remaining poorly studied. The Chinese keelback water snake (Trimerodytes percarinatus Boulenger) is a widespread, semiaquatic, non‐venomous species occurring in China and southeastern Asia. Based on mitochondrial DNA (mtDNA) and single nucleotide polymorphism (SNP) data, we explored the population genetic structure, genetic diversity, and evolutionary history of this species. MtDNA‐based phylogenetic analysis showed that T. percarinatus was composed of five highly supported and geographically structured lineages. SNP‐based phylogenetic analysis, principal component analysis, and population structure analysis consistently revealed four distinct, geographically non‐overlapping lineages, which was different from the mtDNA‐based analysis in topology. Estimation of divergence dates and ancestral area of origin suggest that T. percarinatus originated ~12.68 million years ago (95% highest posterior density: 10.36–15.96 Mya) in a region covering southwestern China and Vietnam. Intraspecific divergence may have been triggered by the Qinghai‐Xizang Plateau uplift. Population demographics and ecological niche modeling indicated that the effective population size fluctuated during 0.5 Mya and 0.002 Mya. Based on the data collected here, we also comment on the intraspecific taxonomy of T. percarinatus and question the validity of the subspecies T. p. suriki. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
7. Genomic analysis reveals deep population divergence in the water snake Trimerodytes percarinatus (Serpentes, Natricidae).
- Author
-
Lyu, Bing, Liu, Qin, Wu, Yayong, Nguyen, Truong Q., Che, Jing, Nguyen, Sang N., Myers, Edward A., Burbrink, Frank T., Guo, Peng, and Wang, Jichao
- Subjects
- *
GENOMICS , *COLUBRIDAE , *SNAKES , *SINGLE nucleotide polymorphisms , *GENETIC variation , *PRINCIPAL components analysis - Abstract
Although several phylogeographic studies of Asian snakes have been conducted, most have focused on pitvipers, with non‐venomous snakes, such as colubrids or natricids, remaining poorly studied. The Chinese keelback water snake (Trimerodytes percarinatus Boulenger) is a widespread, semiaquatic, non‐venomous species occurring in China and southeastern Asia. Based on mitochondrial DNA (mtDNA) and single nucleotide polymorphism (SNP) data, we explored the population genetic structure, genetic diversity, and evolutionary history of this species. MtDNA‐based phylogenetic analysis showed that T. percarinatus was composed of five highly supported and geographically structured lineages. SNP‐based phylogenetic analysis, principal component analysis, and population structure analysis consistently revealed four distinct, geographically non‐overlapping lineages, which was different from the mtDNA‐based analysis in topology. Estimation of divergence dates and ancestral area of origin suggest that T. percarinatus originated ~12.68 million years ago (95% highest posterior density: 10.36–15.96 Mya) in a region covering southwestern China and Vietnam. Intraspecific divergence may have been triggered by the Qinghai‐Xizang Plateau uplift. Population demographics and ecological niche modeling indicated that the effective population size fluctuated during 0.5 Mya and 0.002 Mya. Based on the data collected here, we also comment on the intraspecific taxonomy of T. percarinatus and question the validity of the subspecies T. p. suriki. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
8. Rediscovery of Lycodon gammiei (Blanford, 1878) (Serpentes, Colubridae) in Xizang, China, with comments on its systematic position.
- Author
-
Shu, Fu, Lyu, Bing, Guo, Keji, Zhang, Tong, Mi, Xiaoqi, Li, Li, Wu, Yayong, and Guo, Peng
- Subjects
- *
BIOLOGICAL classification , *SNAKES , *COLUBRIDAE , *GENETIC distance , *SPECIES , *MITOCHONDRIA - Abstract
Lycodon gammiei (Blanford, 1878), a rarely encountered species of Asian snake, is characterized by ambiguous systematics and biology. Based on a sole specimen of L. gammiei rediscovered in southeastern Xizang, China, we conduct a detailed morphological examination and description, and investigate the systematic position of this species. Morphologically, the newly collected specimen is closely aligned with specimens previously described. Mitochondrial DNA-based phylogenetic analyses reveal that L. gammiei constitutes an independent evolutionary lineage, forming a clade with L. fasciatus (Anderson, 1879), L. gongshan Vogel & Luo, 2011, L. butleri Boulenger, 1900, and L. cavernicolus Grismer, Quah, Anuar, Muin, Wood & Nor, 2014. The closest genetic distance between L. gammiei and its congeners was 10.2%. The discovery of L. gammiei in Medog County, China, signifies an eastward expansion of its known geographical distribution. [ABSTRACT FROM AUTHOR]
- Published
- 2024
- Full Text
- View/download PDF
9. New insights into the phylogeny and evolution of Chinese Ovophis (Serpentes, Viperidae): Inferred from multilocus data.
- Author
-
Zeng, Yang‐Mei, Li, Ke, Liu, Qin, Wu, Ya‐Yong, Hou, Shao‐Bing, Zhao, Gui‐Gang, Nguyen, Sang Ngoc, Guo, Peng, and Shi, Lei
- Subjects
- *
VIPERIDAE , *PHYLOGENY , *POISONOUS snakes , *SPECIES diversity , *SPECIES distribution , *COLUBRIDAE , *SNAKES - Abstract
The Asian pitviper genus Ovophis is a group of venomous snakes widely distributed in mid to high elevation mountains in Asia, and presently five species are recognised. However, its systematics, species diversity and species distribution boundaries remain poorly understood. We reconstructed the phylogenetic relationships and explored species diversity of Chinese Ovophis based on two mitochondrial fragments (Cyt b and ND4) and four nuclear genes (BACH1, c‐mos, Rag1, NT3) and also conducted a morphological comparison between focal species. Our results indicated that the species diversity had been underestimated within Ovophis and we described a population from southern Yunnan, China, as a new taxon, naming it as Ovophis malhotraesp.nov. Based on more extensive sampling, we redefined the distribution of O. monticola and O. makazayazaya in China. Divergence date estimation suggested that Ovophis originated at about 16.79 Ma in the middle Miocene. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
10. The Analysis of Oral and Fecal Virome Detects Multiple Novel Emerging Viruses in Snakes.
- Author
-
Liu, Aijing, Tian, Zhige, Yin, Chuanming, Zou, Jie, Wu, Shan, Luo, Yi, Chen, Xin, Dai, Yi, Yang, Siyi, Li, Yanxi, Li, Tongyu, Guo, Peng, and Hu, Xiaoliang
- Subjects
- *
SARS-CoV-2 , *CORONAVIRUSES , *SNAKES , *TICKS , *FECAL analysis , *PATHOGENIC viruses - Abstract
Wild animals are considered reservoirs for emerging and reemerging viruses, such as the novel severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). Previous studies have reported that bats and ticks harbored variable important pathogenic viruses, some of which could cause potential diseases in humans and livestock, while viruses carried by reptiles were rarely reported. Our study first conducted snakes' virome analysis to establish effective surveillance of potential transboundary emerging diseases. Consequently, Adenoviridae, Circoviridae, Retroviridae, and Parvoviridae were identified in oral samples from Protobothrops mucrosquamatus, Elaphe dione, and Gloydius angusticeps based on sequence similarity to existing viruses. Picornaviridae and Adenoviridae were also identified in fecal samples of Protobothrops mucrosquamatus. Notably, the iflavirus and foamy virus were first reported in Protobothrops mucrosquamatus, enriching the transboundary viral diversity in snakes. Furthermore, phylogenetic analysis revealed that both the novel-identified viruses showed low genetic similarity with previously reported viruses. This study provided a basis for our understanding of microbiome diversity and the surveillance and prevention of emerging and unknown viruses in snakes. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
11. High genetic divergence but low morphological differences in a keelback snake Rhabdophis subminiatus (Reptilia, Colubridae).
- Author
-
Liu, Qin, Xie, Xinhong, Wu, Yayong, Shu, Guocheng, Guo, Keji, Guo, Peng, and Cui, Liangwei
- Subjects
- *
COLUBRIDAE , *BIOLOGICAL classification , *GENETIC distance , *REPTILES , *MITOCHONDRIAL DNA , *POPULATION differentiation , *SNAKES - Abstract
Integrative taxonomy based on multiple data sets plays an important role in species classification, especially in the case of cryptic species. Rhabdophis subminiatus is a colubrid snake with broadly geographical distribution, and two subspecies (Rhabdophis subminiatussubminiatus and Rhabdophis subminiatushelleri) are currently recognized within this species. Based on external morphological comparison, mitochondrial DNA (mtDNA)‐based phylogeny, single‐nucleotide polymorphism (SNP)‐based phylogeny, and population structure analysis, we explored the intraspecific taxonomy of R. subminiatus. Phylogenetic analysis based on mtDNA and SNPs consistently uncovered two highly supported lineages separated by a large genetic distance, with SNP‐based principal component analysis (PCA) and population structure analysis displaying similar results. Despite the fact that PCA based on morphological data did not show population differentiation, unlike the molecular data, we suggest that R. s. helleri should be elevated to the specific rank as Rhabdophishelleri based on all lines of evidence. The distributional boundary between the two species R. helleri and R. subminiatus is tentatively proposed. [ABSTRACT FROM AUTHOR]
- Published
- 2021
- Full Text
- View/download PDF
12. Phylogenetic structure and species boundaries in the mountain pitviper Ovophis monticola (Serpentes: Viperidae: Crotalinae) in Asia
- Author
-
Malhotra, Anita, Dawson, Karen, Guo, Peng, and Thorpe, Roger S.
- Subjects
- *
PIT vipers , *CLADISTIC analysis , *MORPHOMETRICS , *BIOGEOGRAPHY , *VIPERIDAE , *SNAKES , *MOUNTAINS - Abstract
Abstract: We investigated phylogenetic structure and morphological variation in Asian mountain pitvipers of the genus Ovophis (comprising 3–4 species some of which are considered polytypic) by sequencing four mitochondrial markers (cytochrome b, NADH dehydrogenase subunit 4, 12S and 16S rRNA) from 72 specimens, and analysed them in a Bayesian framework together with another 26 sequences from closely related genera. We reconstructed the region of origin and direction of dispersal of the major clades, and of Ovophis as a whole, using likelihood framework analysis. We also defined morphogroups from 280 specimens from across the range of Ovophis to allow the geographic extent of the major clades to be determined, as well as to allow inclusion of specimens lacking sequence data. Phylogenetic analyses confirmed the monophyly of Ovophis as currently defined, and revealed that it contains two major lineages, eastern (mainly Chinese) and western, with both occurring in southwestern China, central and northern Viet Nam. The most likely origin of the genus, and of individual lineages, coincides with the northeastern boundary of the Indomalayan hotspot. Major diversification in this species group likely corresponded to major climatic changes arising from the uplift of the Tibetan Plateau in the early to mid Miocene. With reference to the defined morphogroups, we suggest that at least five species are present and provide appropriate names. With a few exceptions, the newly defined species boundaries do not correspond to the existing taxonomy. [Copyright &y& Elsevier]
- Published
- 2011
- Full Text
- View/download PDF
13. Genomic evidence sheds new light on phylogeny of Rhabdophis nuchalis (sensu lato) complex (Serpentes: Natricidae).
- Author
-
Liu, Qin, Lyu, Bing, Xie, Xinhong, Zeng, Yangmei, and Guo, Peng
- Subjects
- *
PHYLOGENY , *SNAKES , *SINGLE nucleotide polymorphisms , *COLUBRIDAE , *MITOCHONDRIAL DNA , *MOLECULAR phylogeny , *SPECIES diversity - Abstract
[Display omitted] • All species of Rhabdophis nuchalis (sensu lato) complex did not form a monophyly, but each species was highly supported. • Incongruence was detected between nuclear and mtDNA phylogeny. • A new taxa has been described from southwestern China. • Geographic distribution boundary for each species within this species complex has been redefined. Stable taxonomy and robust phylogeny are essential for the evolution and conservation of organisms. The Rhabdophis nuchalis (sensu lato) complex presently contains three species (R. nuchalis , R. chiwen , R. pentasupralabialis). Although several studies have explored the diversity and phylogeography of this group, certain issues related to systematics and taxonomy remain unresolved. Here, based on genome-wide data, including single nucleotide polymorphisms (SNPs) generated from ddRAD-seq and mitochondrial DNA (mtDNA), we re-evaluated the phylogenetic relationships and cryptic diversity of this species group. Our results are generally consistent with previous studies but provide some new insights. Phylogenetic relationship reconstruction based on SNPs and mtDNA revealed that three species in the R. nuchalis (sensu lato) complex did not form a monophyly but each species is well supported as monophyletic lineage in SNP-based analyses. Population structure analyses showed genetic admixture between several species pairs. Additionally, the population in eastern Yunnan, China, was identified as a potential cryptic species and thus described as a new species based on morphological data. From our results and previous studies, we redefined the distribution boundary for each species in the R. nuchalis (sensu lato) species complex. [ABSTRACT FROM AUTHOR]
- Published
- 2023
- Full Text
- View/download PDF
14. A large-scale systematic framework of Chinese snakes based on a unified multilocus marker system.
- Author
-
Li, Jiang-Ni, Liang, Dan, Wang, Ying-Yong, Guo, Peng, Huang, Song, and Zhang, Peng
- Subjects
- *
SNAKES , *NUCLEAR proteins , *DATA integration , *COLUBRIDAE , *CYPRINIDAE - Abstract
• A unified multilocus marker system for snake systematics was developed. • A comprehensive systematic framework of the snakes in China was constructed. • The marker system enables better understanding of the snake evolutionary histories. • The snake divergence times were estimated with the substantial new molecular data. Snakes are one of the most diverse groups of terrestrial vertebrates, with approximately 3500 extant species. A robust phylogeny and taxonomy of snakes is crucial for us to know, study and protect them. For a large group such as snakes, broad-scale phylogenetic reconstructions largely rely on data integration. Increasing the compatibility of the data from different researches is thus important, which can be facilitated by standardization of the loci used in systematic analyses. In this study, we proposed a unified multilocus marker system for snake systematics by conflating 5 mitochondrial markers, 19 vertebrate-universal nuclear protein coding (NPC) markers and 72 snake-specific noncoding intron markers. This marker system is an addition to the large squamate conserved locus set (SqCL) for studies preferring a medium-scale data set. We applied this marker system to over 440 snake samples and constructed the currently most comprehensive systematic framework of the snakes in China. Robust snake phylogenetic relationships were recovered at both deep and shallow evolutionary depths, demonstrating the usefulness of this multilocus marker system. Discordance was revealed by a parallel comparison between the snake tree based on the multilocus marker system and that based on only the mitochondrial loci, highlighting the necessity of using multiple types of markers to better understand the snake evolutionary histories. The divergence times of different snake groups were estimated with the nuclear data set. Our comprehensive snake tree not only confirms many important nodes inferred in previous studies but also contributes new insights into many snake phylogenetic relationships. Suggestions are made for the current Chinese snake taxonomy. [ABSTRACT FROM AUTHOR]
- Published
- 2020
- Full Text
- View/download PDF
Catalog
Discovery Service for Jio Institute Digital Library
For full access to our library's resources, please sign in.