Abstract
In the last ten years, 14 species of cetaceans and five species of pinnipeds stranded along the Atlantic coast of Brittany in the North West of France. All species included, an average of 150 animals strand each year in this area. Based on reports from the stranding network operating along this coast, the most common stranding events comprise six cetacean species (Delphinus delphis, Tursiops truncatus, Stenella coeruleoalba, Globicephala melas, Grampus griseus, Phocoena phocoena)and one pinniped species (Halichoerus grypus). Rare stranding events include deep-diving or exotic species, such as arctic seals. In this study, our aim was to determine the potential contribution of DNA barcoding to the monitoring of marine mammal biodiversity as performed by the stranding network.We sequenced more than 500 bp of the 5’ end of the mitochondrial COI gene of 89 animals of 15 different species (12 cetaceans, and three pinnipeds). Except for members of the Delphininae, all species were unambiguously discriminated on the basis of their COI sequences. We then applied DNA barcoding to identify some “undetermined” samples. With again the exception of the Delphininae, this was successful using the BOLD identification engine. For samples of the Delphininae, we sequenced a portion of the mitochondrial control region (MCR), and using a non-metric multidimentional scaling plot and posterior probability calculations we were able to determine putatively each species. We then showed, in the case of the harbour porpoise, that COI polymorphisms, although being lower than MCR ones, could also be used to assess intraspecific variability. All these results show that the use of DNA barcoding in conjunction with a stranding network could clearly increase the accuracy of the monitoring of marine mammal biodiversity.
Highlights
We sequenced more than 500 bp of the 5’ end of the mitochondrial c oxidase subunit I (COI) gene of 89 animals of 15 diferent species (12 cetaceans, and three pinnipeds)
Stranding networks can collect skin and muscle samples that can be used for genetic analysis, contributing to the construction of biological sample banks which are of high value when working with marine mammals
He aim of this study was to evaluate the feasibility of a routine use of DNA barcoding in a stranding network; and to determine which gains this use could bring in terms of data relevance. he Brittany stranding network is a part of the French stranding network, and has to analyze an average of around 150 marine mammal strandings per year, with a high species biodiversity (19 species during 2003–2012)
Summary
We sequenced more than 500 bp of the 5’ end of the mitochondrial COI gene of 89 animals of 15 diferent species (12 cetaceans, and three pinnipeds). In the case of the harbour porpoise, that COI polymorphisms, being lower than MCR ones, could be used to assess intraspeciic variability All these results show that the use of DNA barcoding in conjunction with a stranding network could clearly increase the accuracy of the monitoring of marine mammal biodiversity. DNA barcoding possesses some inherent limitations (Valentini et al 2009): it is based on a single locus on the mitochondrial genome so that it is only maternally inherited (Hartl and Clark 2007), it can show heteroplasmy (Kmiec et al 2006, Vollmer et al 2011) or may exist as nuclear copies Some of these limitations have been wellexposed (Ballard and Whitlock 2004, Toews and Brelsford 2012). Field correspondents are organized in a geographical area covering the entire Brittany coasts. he network is coordinated regionally by Océanopolis (Brest, France), and nationally by Pelagis (La Rochelle, France)
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