The DNA barcode initiative has gained particular popularity as a promising tool to assist in species identification by using a single mitochondrial gene, cytochrome c oxidase I (COI). In some animal groups, COI barcodes have proved efficient in separating closely related taxa. However, several issues remain for discussion, namely how efficient this tool will be in animal groups with an unresolved taxonomy. Here, we examined COI sequences in delphinid cetaceans, a group where taxonomic uncertainty still exists. We analysed species belonging to the genera Stenella, Tursiops and Delphinus in the North-east Atlantic using cytochrome b gene sequences for comparison. We obtained values of COI interspecific genetic divergence ranging from 1.47% to 2.45%, which suggests a recent separation of the analysed taxa. S. coeruleoalba and D. delphis were the most similar species, with COI phylogenetic trees failing to separate them. On the other hand, the phylogenetic tree obtained with cytochrome b sequences correctly clustered species with high bootstrap support values. We thus consider that the application of COI barcodes in delphinid cetaceans should be done with caution; not only has the cytochrome b gene been shown to be phylogenetically more informative, but relying only on mitochondrial DNA genes alone may be problematic.
A phylogenetic analysis of the cytochrome b and cytochrome c oxidase I genes supports an origin of mitochondria from within the Rickettsiaceae1The nucleotide sequences in this paper have been deposited in the EMBL sequence database under accession Nos. Y13854 (cob) and Y13855 (cox1).1
