ligulata from Japan differed genetically from D ligulata isolate

ligulata from Japan differed genetically from D. ligulata isolates from Europe, South America, New Zealand, or the northeast Pacific (Peters et al. 1997). In the present work, we have examined more specimens from Japan and more genetic markers to confirm the distinctness of the Japanese entity, which

justifies its description as a different species. Desmarestia dudresnayi J.V. Lamouroux ex Léman is a little-known ligulate taxon distributed in cold to warm-temperate regions of Europe, where it is rare and confined to deep water. It is broad-bladed (>25 mm width) and sparsely branched or unbranched (Léman 1819, Drew and Robertson 1974, Anderson 1985) and opinions diverge whether it should be regarded as an independent species, a subspecies or form of D. ligulata (Chapman 1972b), or as conspecific with South African D. firma (C. Agardh) Skottsberg (Peters and Breeman 1992). The type Selleckchem PF2341066 locality of RAD001 molecular weight D. dudresnayi is St. Pol de Léon, near Roscoff

in northern Brittany (Sauvageau 1925). So far there have been no culture or molecular studies of this entity, which is of nomenclatural importance because its description predates that of all other unbranched and of most branched species of ligulate Desmarestia. DNA barcoding aims at providing a rapid and unambiguous identification of biological materials, based upon the rapid and cost-effective sequencing of a short strand of DNA typically of the five primer region of cox1 but now extends to other loci (Hebert et al. 2003). In Phaeophyceae, DNA barcoding has been successful in identifying new and cryptic species. Mitochondrial cox1 learn more and the nuclear rRNA ITS have been successful

in identifying many brown algal species belonging to the Laminariales (Lane et al. 2007, Macaya and Zuccarello 2010, McDevit and Saunders 2010) and Fucales (Kucera and Saunders 2008, McDevit and Saunders 2009). The cox1 locus reveals biogeographic patterns and cryptic diversity, but it is not uniformly useful in all Phaeophyceae, such as Macrocystis (Macaya and Zuccarello 2010). The ITS has more variable sites and has proved useful in some genera but there have been difficulties interpreting results due to the presence of indels and genetic introgression (Kucera and Saunders 2008, McDevit and Saunders 2009, 2010). The primary objective of this study was a reassessment of ligulate, acid-producing Desmarestia phylogeny, based on the sequences of multiple and phylogenetically informative markers such as nuclear small subunit (SSU) rDNA and ITS, mitochondrial cox1, plastid psaA (photosystem I P700 apoprotein A1), and ribulose-1,5-bisphosphate carboxylase/oxygenase large subunit (rbcL). Including D. dudresnayi was essential for the revision of this species complex. Our results propose a practical nomenclature following Linnean classification criteria.

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