@ARTICLE{TreeBASE2Ref19686,
author = {Brendan Nolan Reid and Minh Le and William McCord and John Iverson and Arthur Georges and Tjard Bergmann and George Amato and Rob DeSalle and Eugenia Naro-Maciel},
title = {Comparing and combining distance-based and character-based approaches to barcoding turtles},
year = {2011},
keywords = {turtles; barcoding; hybridization},
doi = {},
url = {http://},
pmid = {},
journal = {Molecular Ecology Resources},
volume = {},
number = {},
pages = {},
abstract = {Molecular barcoding can serve as a powerful tool in wildlife forensics and may prove to be a vital aid in conserving organisms that are threatened by illegal wildlife trade, such as turtles (Order Testudines). We produced COI sequences (650 bp) for 174 turtle species and combined these with publicly available sequences for 50 species to produce a data set representative of the breadth of the order. Variability within the barcode region was assessed and the utility of both distance-based and character-based methods for species identification was evaluated. For species in which genetic material from more than one individual was available (n=69), intraspecific divergences were 1.3% on average, although divergences greater than the customary 2% barcode threshold occurred within 15 species. High intraspecific divergences could indicate species with a high degree of internal genetic structure or possibly even cryptic species, although introgression is also likely in some of these taxa. Divergences between species of the same genus were 6.4% on average; however, 49 species were less than 2% divergent from congeners. Low levels of interspecific divergence could be caused by recent evolutionary radiations coupled with the low rates of mtDNA evolution previously observed in turtles. Complementing distance-based barcoding with character-based methods for identifying diagnostic sets of nucleotides provided better resolution in several cases where distance-based methods failed to distinguish species. An online identification engine was created to provide character-based identifications. This study constitutes the first comprehensive barcoding effort for this seriously threatened order.}
}
Citation for Study 11480
Citation title:
"Comparing and combining distance-based and character-based approaches to barcoding turtles".
Study name:
"Comparing and combining distance-based and character-based approaches to barcoding turtles".
This study is part of submission 11470
(Status: Published).
Citation
Reid B.N., Le M., Mccord W., Iverson J., Georges A., Bergmann T., Amato G., Desalle R., & Naro-maciel E. 2011. Comparing and combining distance-based and character-based approaches to barcoding turtles. Molecular Ecology Resources, .
Authors
-
Reid B.N.
(submitter)
(917)509-8371
-
Le M.
-
Mccord W.
-
Iverson J.
-
Georges A.
-
Bergmann T.
-
Amato G.
-
Desalle R.
-
Naro-maciel E.
Abstract
Molecular barcoding can serve as a powerful tool in wildlife forensics and may prove to be a vital aid in conserving organisms that are threatened by illegal wildlife trade, such as turtles (Order Testudines). We produced COI sequences (650 bp) for 174 turtle species and combined these with publicly available sequences for 50 species to produce a data set representative of the breadth of the order. Variability within the barcode region was assessed and the utility of both distance-based and character-based methods for species identification was evaluated. For species in which genetic material from more than one individual was available (n=69), intraspecific divergences were 1.3% on average, although divergences greater than the customary 2% barcode threshold occurred within 15 species. High intraspecific divergences could indicate species with a high degree of internal genetic structure or possibly even cryptic species, although introgression is also likely in some of these taxa. Divergences between species of the same genus were 6.4% on average; however, 49 species were less than 2% divergent from congeners. Low levels of interspecific divergence could be caused by recent evolutionary radiations coupled with the low rates of mtDNA evolution previously observed in turtles. Complementing distance-based barcoding with character-based methods for identifying diagnostic sets of nucleotides provided better resolution in several cases where distance-based methods failed to distinguish species. An online identification engine was created to provide character-based identifications. This study constitutes the first comprehensive barcoding effort for this seriously threatened order.
Keywords
turtles; barcoding; hybridization
External links
About this resource
- Canonical resource URI:
http://purl.org/phylo/treebase/phylows/study/TB2:S11480
- Other versions:
Nexus
NeXML
- Show BibTeX reference
@ARTICLE{TreeBASE2Ref19686,
author = {Brendan Nolan Reid and Minh Le and William McCord and John Iverson and Arthur Georges and Tjard Bergmann and George Amato and Rob DeSalle and Eugenia Naro-Maciel},
title = {Comparing and combining distance-based and character-based approaches to barcoding turtles},
year = {2011},
keywords = {turtles; barcoding; hybridization},
doi = {},
url = {http://},
pmid = {},
journal = {Molecular Ecology Resources},
volume = {},
number = {},
pages = {},
abstract = {Molecular barcoding can serve as a powerful tool in wildlife forensics and may prove to be a vital aid in conserving organisms that are threatened by illegal wildlife trade, such as turtles (Order Testudines). We produced COI sequences (650 bp) for 174 turtle species and combined these with publicly available sequences for 50 species to produce a data set representative of the breadth of the order. Variability within the barcode region was assessed and the utility of both distance-based and character-based methods for species identification was evaluated. For species in which genetic material from more than one individual was available (n=69), intraspecific divergences were 1.3% on average, although divergences greater than the customary 2% barcode threshold occurred within 15 species. High intraspecific divergences could indicate species with a high degree of internal genetic structure or possibly even cryptic species, although introgression is also likely in some of these taxa. Divergences between species of the same genus were 6.4% on average; however, 49 species were less than 2% divergent from congeners. Low levels of interspecific divergence could be caused by recent evolutionary radiations coupled with the low rates of mtDNA evolution previously observed in turtles. Complementing distance-based barcoding with character-based methods for identifying diagnostic sets of nucleotides provided better resolution in several cases where distance-based methods failed to distinguish species. An online identification engine was created to provide character-based identifications. This study constitutes the first comprehensive barcoding effort for this seriously threatened order.}
}
- Show RIS reference
TY - JOUR
ID - 19686
AU - Reid,Brendan Nolan
AU - Le,Minh
AU - McCord,William
AU - Iverson,John
AU - Georges,Arthur
AU - Bergmann,Tjard
AU - Amato,George
AU - DeSalle,Rob
AU - Naro-Maciel,Eugenia
T1 - Comparing and combining distance-based and character-based approaches to barcoding turtles
PY - 2011
KW - turtles; barcoding; hybridization
UR - http://dx.doi.org/
N2 - Molecular barcoding can serve as a powerful tool in wildlife forensics and may prove to be a vital aid in conserving organisms that are threatened by illegal wildlife trade, such as turtles (Order Testudines). We produced COI sequences (650 bp) for 174 turtle species and combined these with publicly available sequences for 50 species to produce a data set representative of the breadth of the order. Variability within the barcode region was assessed and the utility of both distance-based and character-based methods for species identification was evaluated. For species in which genetic material from more than one individual was available (n=69), intraspecific divergences were 1.3% on average, although divergences greater than the customary 2% barcode threshold occurred within 15 species. High intraspecific divergences could indicate species with a high degree of internal genetic structure or possibly even cryptic species, although introgression is also likely in some of these taxa. Divergences between species of the same genus were 6.4% on average; however, 49 species were less than 2% divergent from congeners. Low levels of interspecific divergence could be caused by recent evolutionary radiations coupled with the low rates of mtDNA evolution previously observed in turtles. Complementing distance-based barcoding with character-based methods for identifying diagnostic sets of nucleotides provided better resolution in several cases where distance-based methods failed to distinguish species. An online identification engine was created to provide character-based identifications. This study constitutes the first comprehensive barcoding effort for this seriously threatened order.
L3 -
JF - Molecular Ecology Resources
VL -
IS -
ER -