@ARTICLE{TreeBASE2Ref22044,
author = {Yanqiang Yin},
title = {DNA Barcodes Analysis for Species Identifications and Divergence Estimates of the Glires distributed in Xinjiang, China},
year = {2013},
keywords = {Rodentia; Lagomorpha; DNA barcoding; species identification; speciation; divergence time},
doi = {},
url = {http://},
pmid = {},
journal = {Molecular Ecology Resources},
volume = {},
number = {},
pages = {},
abstract = {Although the previous studies elucidated the phylogenetic relationships within families or genera for most Glires species distributed in Xinjiang, China, the evolutionary trends of their communities are remain ambiguous. It is necessary to predict them based on divergence estimates of different species. Here, there are some fragmentary samples from closely related species that difficult to be identified only using comparative morphology for divergence analyzing directly. Hence, both the standard COI barcode and Cytb gene are applied to calculate the K2P genetic distances and neighbor-joining (NJ) trees to distinguish species, and to execute maximum likelihood (ML) and Bayesian inferences for estimating recent divergence of extant Glires species constrained with a set of eight fossils in Xinjiang, China. The results show that DNA barcoding has identified these samples, with the exceptions of several sequenced species. Moreover, cryptic species may exist in Allactaga and Dipus, and the massive speciation events emerged during the Middle and the Late Miocene. This study infers that the evolutionary trends and faunal exchanges may be associated with the final India-Asia continental collisions and Tethys Sea retreated from the Tarim Basin around the Eocene-the Oligocene boundary as well as global climate fluctuations during the Miocene. Furthermore, the aridification and the changes of Taklimakan and Gurbantunggut Deserts might drive the diversification of subspecies, divergences of geographical populations and the emergences of cryptic species since the Late Pleistocene.}
}
Citation for Study 14287
Citation title:
"DNA Barcodes Analysis for Species Identifications and Divergence Estimates of the Glires distributed in Xinjiang, China".
Study name:
"DNA Barcodes Analysis for Species Identifications and Divergence Estimates of the Glires distributed in Xinjiang, China".
This study is part of submission 14287
(Status: Published).
Citation
Yin Y. 2013. DNA Barcodes Analysis for Species Identifications and Divergence Estimates of the Glires distributed in Xinjiang, China. Molecular Ecology Resources, .
Authors
Abstract
Although the previous studies elucidated the phylogenetic relationships within families or genera for most Glires species distributed in Xinjiang, China, the evolutionary trends of their communities are remain ambiguous. It is necessary to predict them based on divergence estimates of different species. Here, there are some fragmentary samples from closely related species that difficult to be identified only using comparative morphology for divergence analyzing directly. Hence, both the standard COI barcode and Cytb gene are applied to calculate the K2P genetic distances and neighbor-joining (NJ) trees to distinguish species, and to execute maximum likelihood (ML) and Bayesian inferences for estimating recent divergence of extant Glires species constrained with a set of eight fossils in Xinjiang, China. The results show that DNA barcoding has identified these samples, with the exceptions of several sequenced species. Moreover, cryptic species may exist in Allactaga and Dipus, and the massive speciation events emerged during the Middle and the Late Miocene. This study infers that the evolutionary trends and faunal exchanges may be associated with the final India-Asia continental collisions and Tethys Sea retreated from the Tarim Basin around the Eocene-the Oligocene boundary as well as global climate fluctuations during the Miocene. Furthermore, the aridification and the changes of Taklimakan and Gurbantunggut Deserts might drive the diversification of subspecies, divergences of geographical populations and the emergences of cryptic species since the Late Pleistocene.
Keywords
Rodentia; Lagomorpha; DNA barcoding; species identification; speciation; divergence time
External links
About this resource
- Canonical resource URI:
http://purl.org/phylo/treebase/phylows/study/TB2:S14287
- Other versions:
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- Show BibTeX reference
@ARTICLE{TreeBASE2Ref22044,
author = {Yanqiang Yin},
title = {DNA Barcodes Analysis for Species Identifications and Divergence Estimates of the Glires distributed in Xinjiang, China},
year = {2013},
keywords = {Rodentia; Lagomorpha; DNA barcoding; species identification; speciation; divergence time},
doi = {},
url = {http://},
pmid = {},
journal = {Molecular Ecology Resources},
volume = {},
number = {},
pages = {},
abstract = {Although the previous studies elucidated the phylogenetic relationships within families or genera for most Glires species distributed in Xinjiang, China, the evolutionary trends of their communities are remain ambiguous. It is necessary to predict them based on divergence estimates of different species. Here, there are some fragmentary samples from closely related species that difficult to be identified only using comparative morphology for divergence analyzing directly. Hence, both the standard COI barcode and Cytb gene are applied to calculate the K2P genetic distances and neighbor-joining (NJ) trees to distinguish species, and to execute maximum likelihood (ML) and Bayesian inferences for estimating recent divergence of extant Glires species constrained with a set of eight fossils in Xinjiang, China. The results show that DNA barcoding has identified these samples, with the exceptions of several sequenced species. Moreover, cryptic species may exist in Allactaga and Dipus, and the massive speciation events emerged during the Middle and the Late Miocene. This study infers that the evolutionary trends and faunal exchanges may be associated with the final India-Asia continental collisions and Tethys Sea retreated from the Tarim Basin around the Eocene-the Oligocene boundary as well as global climate fluctuations during the Miocene. Furthermore, the aridification and the changes of Taklimakan and Gurbantunggut Deserts might drive the diversification of subspecies, divergences of geographical populations and the emergences of cryptic species since the Late Pleistocene.}
}
- Show RIS reference
TY - JOUR
ID - 22044
AU - Yin,Yanqiang
T1 - DNA Barcodes Analysis for Species Identifications and Divergence Estimates of the Glires distributed in Xinjiang, China
PY - 2013
KW - Rodentia; Lagomorpha; DNA barcoding; species identification; speciation; divergence time
UR - http://dx.doi.org/
N2 - Although the previous studies elucidated the phylogenetic relationships within families or genera for most Glires species distributed in Xinjiang, China, the evolutionary trends of their communities are remain ambiguous. It is necessary to predict them based on divergence estimates of different species. Here, there are some fragmentary samples from closely related species that difficult to be identified only using comparative morphology for divergence analyzing directly. Hence, both the standard COI barcode and Cytb gene are applied to calculate the K2P genetic distances and neighbor-joining (NJ) trees to distinguish species, and to execute maximum likelihood (ML) and Bayesian inferences for estimating recent divergence of extant Glires species constrained with a set of eight fossils in Xinjiang, China. The results show that DNA barcoding has identified these samples, with the exceptions of several sequenced species. Moreover, cryptic species may exist in Allactaga and Dipus, and the massive speciation events emerged during the Middle and the Late Miocene. This study infers that the evolutionary trends and faunal exchanges may be associated with the final India-Asia continental collisions and Tethys Sea retreated from the Tarim Basin around the Eocene-the Oligocene boundary as well as global climate fluctuations during the Miocene. Furthermore, the aridification and the changes of Taklimakan and Gurbantunggut Deserts might drive the diversification of subspecies, divergences of geographical populations and the emergences of cryptic species since the Late Pleistocene.
L3 -
JF - Molecular Ecology Resources
VL -
IS -
ER -