Identification of Birds through DNA Barcodes
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TLDR
The finding of large COI sequence differences between, as compared to small differences within, species confirms the effectiveness of COI barcodes for the identification of bird species, and implies that a standard screening threshold of sequence difference could speed the discovery of new animal species.Abstract:
Short DNA sequences from a standardized region of the genome provide a DNA barcode for identifying species. Compiling a public library of DNA barcodes linked to named specimens could provide a new master key for identifying species, one whose power will rise with increased taxon coverage and with faster, cheaper sequencing. Recent work suggests that sequence diversity in a 648-bp region of the mitochondrial gene, cytochrome c oxidase I (COI), might serve as a DNA barcode for the identification of animal species. This study tested the effectiveness of a COI barcode in discriminating bird species, one of the largest and best-studied vertebrate groups. We determined COI barcodes for 260 species of North American birds and found that distinguishing species was generally straightforward. All species had a different COI barcode(s), and the differences between closely related species were, on average, 18 times higher than the differences within species. Our results identified four probable new species of North American birds, suggesting that a global survey will lead to the recognition of many additional bird species. The finding of large COI sequence differences between, as compared to small differences within, species confirms the effectiveness of COI barcodes for the identification of bird species. This result plus those from other groups of animals imply that a standard screening threshold of sequence difference (10× average intraspecific difference) could speed the discovery of new animal species. The growing evidence for the effectiveness of DNA barcodes as a basis for species identification supports an international exercise that has recently begun to assemble a comprehensive library of COI sequences linked to named specimens.read more
Citations
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Journal ArticleDOI
DNA barcoding Australia's fish species
TL;DR: It is concluded that cox1 sequencing, or ‘barcoding’, can be used to identify fish species.
Book ChapterDOI
Biological Identifications Through DNA Barcodes
TL;DR: It was established previously that the mitochondrial gene cytochrome c oxidase I can serve as the core of a global bioidentification system for animals and a new tools were developed recently to be complementary markers for (COI) DNA barcoding.
Journal ArticleDOI
ABGD, Automatic Barcode Gap Discovery for primary species delimitation
TL;DR: Automatic Barcode Gap Discovery is fast, simple method to split a sequence alignment data set into candidate species that should be complemented with other evidence in an integrative taxonomic approach.
Journal ArticleDOI
Sequence-Based Species Delimitation for the DNA Taxonomy of Undescribed Insects
Joan Pons,Joan Pons,Timothy G. Barraclough,Timothy G. Barraclough,Jesús Gómez-Zurita,Jesús Gómez-Zurita,Anabela Cardoso,Anabela Cardoso,Daniel P. Duran,Steaphan Hazell,Steaphan Hazell,Sophien Kamoun,William D. Sumlin,Alfried P. Vogler,Alfried P. Vogler +14 more
TL;DR: In this paper, the authors use mitochondrial DNA variation to delimit species in a poorly known beetle radiation in the genus Rivacindela from arid Australia, using a new likelihood method that determines the point of transition from species-level (speciation and extinction) to population-level evolutionary processes.
BOLD : The Barcode of Life Data System (www.barcodinglife.org)
TL;DR: This paper provides a brief introduction to the key elements of BOLD, discusses their functional capabilities, and concludes by examining computational resources and future prospects.
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