A. A. T. Amarasinghe, Rafaqat Masroor, H. Lalremsanga, Sanjaya Weerakkody, N. Ananjeva, Patrick D. Campbell, Stevie R. Kennedy‐Gold, Sanjaya K. Bandara, Andrey M. Bragin, Atthanagoda K. A. Gayan, Vivek R. Sharma, Amit Sayyed, L. Biakzuala, Andradige S. Kanishka, S. R. Ganesh, I. Ineich, A. de Silva, L. Wickramasinghe, S. Seneviratne, N. Poyarkov, G. Vogel, D. Jablonski
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Based on phylogenetic analyses of mitochondrial DNA, we demonstrate that populations from (i) eastern and central Peninsular India plus Sri Lanka and (ii) south‐western parts of Central Asia form two different clades representing two distinct species: L. striatus sensu stricto and L. bicolor comb. nov. respectively. These two clades are sisters to L. deccanensis (in the case of L. striatus) and L. jara (in the case of L. bicolor) and together form two main sister radiations. Although the external morphological variability is high in both species, the genetic variability is higher only in L. striatus but not distinct enough to represent more than one species if using the phylogenetic or biological species concept. The phylogeny of the L. aulicus group hints at Sri Lankan L. striatus, likely having evolved in continental Asia through a probable overland dispersal across the Bay of Bengal (present Palk Strait) into Sri Lanka. This dispersal may have been facilitated by low sea levels during the Pleistocene glaciations when Sri Lanka was connected to mainland India. After considering genetic divergence (with a p‐distance of 1.8%–2.1% in the mitochondrial cytochrome b gene) and morphological evidence, we synonymize the Sri Lankan subspecies, L. s. sinhaleyus Deraniyagala, 1955, with L. striatus sensu stricto. The eastern and central Indian L. striatus (i.e. L. striatus sensu stricto) is morphologically distinct and deeply divergent genetically compared to Tajik and Pakistani L. bicolor with a p‐distance of 13.6% in cytochrome b gene (mtDNA). Interestingly, L. bicolor is conspecific (p‐distance 1.4%) with L. mackinnoni, a western Himalayan endemic, and it reveals intraspecific clinal variation.","PeriodicalId":49334,"journal":{"name":"Zoologica Scripta","volume":"52 1","pages":"370 - 393"},"PeriodicalIF":2.3000,"publicationDate":"2023-03-06","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"2","resultStr":"{\"title\":\"Integrative approach resolves the systematics of barred wolf snakes in the Lycodon striatus complex (Reptilia, Colubridae)\",\"authors\":\"A. A. T. Amarasinghe, Rafaqat Masroor, H. Lalremsanga, Sanjaya Weerakkody, N. Ananjeva, Patrick D. Campbell, Stevie R. Kennedy‐Gold, Sanjaya K. Bandara, Andrey M. Bragin, Atthanagoda K. A. Gayan, Vivek R. Sharma, Amit Sayyed, L. Biakzuala, Andradige S. Kanishka, S. R. Ganesh, I. Ineich, A. de Silva, L. Wickramasinghe, S. Seneviratne, N. Poyarkov, G. Vogel, D. 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引用次数: 2
摘要
在评估了系统地理学(遗传学)、形态学(形态计量学、分生组织学和半萜类)、骨学和分布证据后,我们回顾了条纹石齿龙的系统学(Shaw,1802),包括其同义词的所有可用名称类型。条纹狼牙广泛分布于南亚和中亚,模仿狼牙。基于线粒体DNA的系统发育分析,我们证明来自(i)印度半岛东部和中部加斯里兰卡和(ii)中亚西南部的种群形成了两个不同的分支,代表了两个截然不同的物种:条纹L.striatus senso stricto和双色梳L.bicolor comb。11月。这两个分支是D.deccanensis(在L.stritus的情况下)和L.jara(在L.bicolor的情况中)的姐妹,并共同形成两个主要的姐妹辐射。尽管两个物种的外部形态变异性都很高,但遗传变异性仅在条纹乳杆菌中较高,但如果使用系统发育或生物物种概念,则不足以代表多个物种。L.aulicus群的系统发育提示斯里兰卡L.striatus,可能是通过孟加拉湾(现在的帕尔克海峡)到斯里兰卡的陆上传播在亚洲大陆进化而来的。当斯里兰卡与印度大陆相连时,更新世冰川作用期间的低海平面可能促进了这种扩散。在考虑了遗传差异(线粒体细胞色素b基因的p距离为1.8%-2.1%)和形态学证据后,我们将斯里兰卡亚种L.s.sinhaleyus Deraniyagala,1955与L.striatus senso stricto同义。印度东部和中部的条纹乳杆菌(即狭义条纹乳杆菌)在形态上是不同的,与塔吉克和巴基斯坦的双色乳杆菌相比,在细胞色素b基因(mtDNA)中的p距离为13.6%。有趣的是,双色L.bicolor与喜马拉雅西部特有的L.mackinnoni是同种的(p‐distance 1.4%),它揭示了种内的临床变异。
Integrative approach resolves the systematics of barred wolf snakes in the Lycodon striatus complex (Reptilia, Colubridae)
We reviewed the systematics of Lycodon striatus (Shaw, 1802), including all available name‐bearing types of its synonyms after evaluating phylogeographic (genetics), morphological (morphometry, meristic, and hemipenes), osteological and distribution evidence. Lycodon striatus sensu lato is widely distributed throughout South and Central Asia and mimics elapids. Based on phylogenetic analyses of mitochondrial DNA, we demonstrate that populations from (i) eastern and central Peninsular India plus Sri Lanka and (ii) south‐western parts of Central Asia form two different clades representing two distinct species: L. striatus sensu stricto and L. bicolor comb. nov. respectively. These two clades are sisters to L. deccanensis (in the case of L. striatus) and L. jara (in the case of L. bicolor) and together form two main sister radiations. Although the external morphological variability is high in both species, the genetic variability is higher only in L. striatus but not distinct enough to represent more than one species if using the phylogenetic or biological species concept. The phylogeny of the L. aulicus group hints at Sri Lankan L. striatus, likely having evolved in continental Asia through a probable overland dispersal across the Bay of Bengal (present Palk Strait) into Sri Lanka. This dispersal may have been facilitated by low sea levels during the Pleistocene glaciations when Sri Lanka was connected to mainland India. After considering genetic divergence (with a p‐distance of 1.8%–2.1% in the mitochondrial cytochrome b gene) and morphological evidence, we synonymize the Sri Lankan subspecies, L. s. sinhaleyus Deraniyagala, 1955, with L. striatus sensu stricto. The eastern and central Indian L. striatus (i.e. L. striatus sensu stricto) is morphologically distinct and deeply divergent genetically compared to Tajik and Pakistani L. bicolor with a p‐distance of 13.6% in cytochrome b gene (mtDNA). Interestingly, L. bicolor is conspecific (p‐distance 1.4%) with L. mackinnoni, a western Himalayan endemic, and it reveals intraspecific clinal variation.
期刊介绍:
Zoologica Scripta publishes papers in animal systematics and phylogeny, i.e. studies of evolutionary relationships among taxa, and the origin and evolution of biological diversity. Papers can also deal with ecological interactions and geographic distributions (phylogeography) if the results are placed in a wider phylogenetic/systematic/evolutionary context. Zoologica Scripta encourages papers on the development of methods for all aspects of phylogenetic inference and biological nomenclature/classification.
Articles published in Zoologica Scripta must be original and present either theoretical or empirical studies of interest to a broad audience in systematics and phylogeny. Purely taxonomic papers, like species descriptions without being placed in a wider systematic/phylogenetic context, will not be considered.