北美鸟类的全面DNA条形码覆盖范围。

Comprehensive DNA barcode coverage of North American birds.

作者信息

Kerr Kevin C R, Stoeckle Mark Y, Dove Carla J, Weigt Lee A, Francis Charles M, Hebert Paul D N

出版信息

Mol Ecol Notes. 2007 Jul;7(4):535-543. doi: 10.1111/j.1471-8286.2007.01670.x.

DOI:10.1111/j.1471-8286.2007.01670.x

PMID:18784793

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2259444/

Abstract

DNA barcoding seeks to assemble a standardized reference library for DNA-based identification of eukaryotic species. The utility and limitations of this approach need to be tested on well-characterized taxonomic assemblages. Here we provide a comprehensive DNA barcode analysis for North American birds including 643 species representing 93% of the breeding and pelagic avifauna of the USA and Canada. Most (94%) species possess distinct barcode clusters, with average neighbour-joining bootstrap support of 98%. In the remaining 6%, barcode clusters correspond to small sets of closely related species, most of which hybridize regularly. Fifteen (2%) currently recognized species are comprised of two distinct barcode clusters, many of which may represent cryptic species. Intraspecific variation is weakly related to census population size and species age. This study confirms that DNA barcoding can be effectively applied across the geographical and taxonomic expanse of North American birds. The consistent finding of constrained intraspecific mitochondrial variation in this large assemblage of species supports the emerging view that selective sweeps limit mitochondrial diversity.

摘要

DNA条形码技术旨在构建一个标准化的参考文库，用于基于DNA的真核生物物种鉴定。这种方法的实用性和局限性需要在分类明确的分类群上进行测试。在此，我们对北美鸟类进行了全面的DNA条形码分析，涵盖643个物种，占美国和加拿大于繁殖期和远洋期出现的鸟类的93%。大多数（94%）物种拥有独特的条形码聚类，平均邻接法自展支持率为98%。其余6%的物种中，条形码聚类对应于一小部分亲缘关系密切的物种，其中大多数经常杂交。目前公认的15个（2%）物种由两个不同的条形码聚类组成，其中许多可能代表隐存种。种内变异与普查种群规模和物种年龄的相关性较弱。本研究证实，DNA条形码技术可有效应用于北美鸟类的地理和分类范围。在这一大型物种集合中，种内线粒体变异受限这一一致发现支持了新出现的观点，即选择性清除限制了线粒体多样性。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/036b/2259444/0f7744f2b053/men0007-0535-f1.jpg

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北美鸟类的全面DNA条形码覆盖范围。

Comprehensive DNA barcode coverage of North American birds.

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