Genealogy and palaeodrainage basins in Yunnan Province: phylogeography of the Yunnan spiny frog, Nanorana yunnanensis (Dicroglossidae)

Zhang, Dongru; Chen, Mingyong; Murphy, Robert W.; Che, Jing; Pang, Junfeng; Hu, Jian; Luo, Jing; Wu, Shan-Jin; Ye, Hui; Zhang, Yaping

doi:10.1111/j.1365-294x.2010.04747.x

Cited by 75 publications

(131 citation statements)

References 56 publications

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“…The high mountains (e.g., Hengduan, Wumeng, Cang and Ailao, Gaoligong Mountains, etc. ), the gorges, and complex paleodrainage basins have served as effective barriers to dispersal and promoted genetic diversification of organisms, which has been reported in multiple phylogeographic studies (He and Jiang 2014;Yue et al 2012;Zhang et al 2010). Furthermore, the suitable habitats in these regions for Q. glauca are limited and scattered because of the extreme climatic variation across short distances.…”

Section: Discussionmentioning

confidence: 96%

Phylogeography of Quercus glauca (Fagaceae), a dominant tree of East Asian subtropical evergreen forests, based on three chloroplast DNA interspace sequences

Deng

Jiang

et al. 2014

Tree Genetics & Genomes

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Historical geoclimatic events have shaped the distribution patterns and intraspecific divergence of plants. Numerous phylogeographical studies in China have focused on the Qinghai-Tibetan Plateau and surrounding areas due to the complex topography and high species diversity, but the impact of Neogene events and Quaternary climatic change on the flora of subtropical China remains poorly understood. Quercus glauca, a widespread tree of East Asian subtropical evergreen forests, has rich fossil records dating back to the Neogene, and it provides a good model to explore the impact of paleogeoclimate changes on East Asian subtropical forests. We used three chloroplast DNA (cpDNA) intergenic spacer regions and ecological niche modeling (ENM) to analyze the divergence pattern and demographic history of Q. glauca in China and Japan. A total of 33 haplotypes were detected. The phylogenetic analysis revealed two major haplotype lineages (Southwest China vs. Southeast China and East China Sea). The limited dispersal ability of seeds and complex topography resulted in the high total, inter-and intrapopulation haplotype diversity. The fossil-constrained BEAST analysis revealed a lineage diversification in the late Miocene-Pliocene. The formation of complex topography changes since Miocene in east Himalaya and adjacent area might be the key factor that triggered the intraspecific divergence of Q. glauca. Haplotype spatial distribution, ENM, mismatch distribution, and neutrality tests suggest that Q. glauca in Southeast China experiences expansion, and the current distribution in region III might be shaped by southward expansion from regions I and II after last glacial maximum (LGM). Regions I and II were the potential glacial refugia of Q. glauca.

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Section: Discussionmentioning

confidence: 96%

Phylogeography of Quercus glauca (Fagaceae), a dominant tree of East Asian subtropical evergreen forests, based on three chloroplast DNA interspace sequences

Deng

Jiang

et al. 2014

Tree Genetics & Genomes

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“…We did not collect G. feae during the field work in west Yunnan, China. Feirana quadranus (Liu, Hu and Yang, 1960), F. taihangnica Chen and Jiang, 2002 and Nanorana pleskei Günther, 1896 were selected as outgroup taxa as they were suggested to be close to Gynandropaa Che et al 2009Che et al , 2010Huang 2009;Zhang et al 2010;Wang 2011).…”

Section: Samplingmentioning

confidence: 99%

“…In this study, 3 mitochondrial DNA fragments, including 12S rRNA, 16S rRNA partial sequences and NADH dehydrogenase subunit 2 (ND2) sequences, were targeted for amplification and sequencing. These genes fragments were frequently used for other vertebrate phylogeographies (Cowman & Bellwood 2011;Stelbrink et al 2014;Wiens et al 2013) as well as for the subfamily Painae (Wang et al , 2012(Wang et al , 2013Zhang et al 2010;Yang et al 2011).…”

Section: Dna Extraction Polymerase Chain Reaction and Sequencingmentioning

confidence: 99%

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Integrative taxonomy helps to reveal the mask of the genusGynandropaa(Amphibia: Anura: Dicroglossidae)

Huang

Wang

et al. 2016

Integrative Zoology

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Species of the genus Gynandropaa within the family Dicroglossidae are typical spiny frogs whose taxonomic status has long been in doubt. We used integrative methods, involving morphological and molecular analyses, to elucidate the phylogenetic relationships, and to determine identities and the geographic distribution of each valid species. We obtained DNA sequence data of 5 species of Gynandropaa (complete sequences of the mitochondrial NADH dehydrogenase subunit 2 [ND2] gene, and 890 bp of 12S rRNA and 16S rRNA partial sequences) from 37 localities (including the topotypes of 5 described species) and constructed Bayesian and maximum-likelihood trees to examine the patterns of phylogeography. A total of 28 morphological variables were taken on 624 specimens. Three clades with clear geographic patterns were recognized: clade C (from south-western Sichuan Province and central Yunnan Province), clade E (western Guizhou Province and eastern to central Yunnan Province) and clade W (western to southern Yunnan Province). Integrating morphological characteristics and distribution information, the clades W, E and C represent Gynandropaa yunnanensis, G. phrynoides and G. sichuanensis, respectively. We draw the following conclusions: (i) the taxon G. phrynoides, formerly evaluated as a junior synonym of G. yunnanensis, is revalidated herein at the rank of species; (ii) G. liui is a junior synonym of G. sichuanensis; and (iii) G. yunnanensis is a valid species while G. bourreti is probably a subspecies of G. yunnanensis, with the distribution range from Vietnam to southern Yunnan Province. This study clears up the taxonomic status of Gynandropaa and provides important information for understanding the evolution and conservation of these spiny frogs. Zoobank registration: urn:lsid:zoobank.org:pub:0772D78D-E5C4-4D05-9154-38B155C09948

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“…For example, genealogical evaluations of largely aquatic frogs are associated with changes in river courses [21]. The phylogenetic history of Southeast Asian frogs in the tribe Paini was greatly affected by the Cenozoic Indo-Asian collision that resulted in the uplift of the QTP [22].…”

mentioning

confidence: 99%

Genetic consequences of postglacial colonization by the endemic Yarkand hare (Lepus yarkandensis) of the arid Tarim Basin

Shan

Liu

et al. 2011

Chin. Sci. Bull.

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Orogenesis of the Qinghai-Tibetan Plateau, which occurred in a stepwise manner, contributed to the extreme aridity of the Tarim Basin, resulting in vulnerable and unstable ecosystems. Quaternary climatic oscillations may have affected the ecosystems and, consequently, the distributions and genetic structuring of the Tarim Basin's biota. We used nucleotide sequence data from 2 mitochondrial (mt) DNA genes (Cyt b and the D-loop) to test hypotheses associated with the matrilineal and demographical histories of the Tarim Basin's endemic Yarkand hare (Lepus yarkandensis). Range-wide sampling involving 20 populations and 224 individuals detected 126 haplotypes that clustered into 5 major lineages in both the phylogenetic tree and median-joining network. Populations from the northern and eastern Tarim Basin shared a similar history, as did those from the western and southern regions. Demographical analysis and genetic diversity estimations suggested that the western and southern regions might have served as glacial refugia for the Yarkand hare during Quaternary climatic oscillations. The distribution of the Yarkand hare, especially in the northern and eastern parts, probably represented 3 postglacial colonization events, dated to 0.21, 0.090 and 0.054 MYA, which corresponded to known interglacial periods. Given the relatively complete geographic isolation between the eastern and southern populations, the Yarkand hare likely dispersed during postglacial periods from the southwest to the north, and then onward to the east. The absence of water likely forced the species into refugia, and this differed from other Pleistocene biogeographical drivers. The demographical and historical patterns have important implications for conservation. Chinese Sci Bull, 2011, 56: 1370−1382, doi: 10.1007 Pleistocene climatic changes imposed significant range shifts on many Palearctic biota, and contributed to their demographic history and genetic diversity [1]. Many temperate species existed only in refugia at times of glacial maxima, and recolonized or expanded into newly available habitats during interglacial periods [2,3]. Quaternary evolutionary histories of European and North American biota *These authors contributed equally to this work †Corresponding authors

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Genealogy and palaeodrainage basins in Yunnan Province: phylogeography of the Yunnan spiny frog, Nanorana yunnanensis (Dicroglossidae)

Cited by 75 publications

References 56 publications

Phylogeography of Quercus glauca (Fagaceae), a dominant tree of East Asian subtropical evergreen forests, based on three chloroplast DNA interspace sequences

Phylogeography of Quercus glauca (Fagaceae), a dominant tree of East Asian subtropical evergreen forests, based on three chloroplast DNA interspace sequences

Integrative taxonomy helps to reveal the mask of the genusGynandropaa(Amphibia: Anura: Dicroglossidae)

Genetic consequences of postglacial colonization by the endemic Yarkand hare (Lepus yarkandensis) of the arid Tarim Basin

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