Molecular Systematics and Biogeography of Monogenoidea (Platyhelminthes: Cercomeromorpha), Gill Parasites of Potamotrygonidae (Chondrichthyes: Rajiformes: Myliobatoidei) / Sistemática molecular e biogeografia dos Monogenoidea (Platyhelminthes: Cercomeromorpha), parasitas das brânquias de Potamotrygonidae (Condrichthyes: Rajiformes: Myliobatoidei)

AUTOR(ES)
DATA DE PUBLICAÇÃO

2009

RESUMO

South America is the only biogeographical region in the world where is possible to find an exclusive stenohalin group of elasmobranchs: the Potamotrygonidae stingrays. Between 19 and 21 species of potamotrygonid stingrays are taxonomically organized in three genera, distributed in the Atrato, Magdalena, Maracaibo, Orinoco, Essequibo, Amazonas e la Plata river Basins, discharging in both Atlantic and Caribbean waters. Distinct biogeographical scenarios have been proposed to explain the presence of predominantly marine lineages in the south American fluvial systems. The most accepted theory for Potamotrygonidae is the invasion of a Caribbean ancestor in the south-American freshwater system during the marine ingression of the early Miocene in the northwest of the continent, followed by its isolation due alterations of Orinoco rivers drainage patterns, as well as formation of Andes. The parasitic fauna of potamotrygonids is predominantly represented by members of Cercomeromorpha, a clade composed by members of Cestoda and Monogenoidea. Two genera of gill parasites monogenoidean might be found in potamotrygonids: Potamotrygonocotyle (Monocotylidae), for which 12 species are currently recognized, and the monotypic Paraheteronchocotyle amazonense (Hexabothriidae). The goal of this study is to propose a phylogenetic hypothesis based in molecular data for members of Potamotrygonocotyle, as well as to discuss evolutionary patterns of the species P. aramasae and its host Paratrygon aiereba, distributed through different amazon rivers. Nucleotide sequences of the mitochondrial gene cox1, and the nuclear gene ITS1 were simultaneously used to infer phylogenetic sister-group relationships among allrecognized species of Potamotrygonocotyle. The results recovered the monophyletic status of five species, suggested cryptic lineages for three species complexes, and revealed sister-groups relationships not detected previously by the phylogenetic analysis of morphological data. Additionally, the results supports recent taxonomic decisions involving synonyms among nominal species within the genus. The phylogenetic relationships of haplotypes from distinct populations of the parasite P. aramasae, as well as from its host Paratrygon aiereba, were accessed by the cladistic analysis of mitochondrial markers, in an attempt of detecting possible phylogeographic patterns, and to test them against phylogenetic predictions of three amazonian bio-diversification hypotheses (Hydrogeology, Museum, Paleogeography). Sequences of the ribosomal 16S gene and cytochrome oxidase 1 were obtained from parasite specimens collected in six amazon sub-basins. The hosts were sampled in 10 amazon sub-basins, as well as in the Essequibo sub-basin, for which cythocrome oxidase 1, cythocrome b, and ATPase sequences were obtained. No clear phylogeographic patterns were revealed for theparasite haplotypes, and the results suggest a high dispersion model. In contrast, P. aiereb is characterized by strongly structured populations, according to the sub-basin sampled. The general phylogeographic pattern recovered for this species is in agreement with the Museum Hypothesis predictions (older lineages in rivers of the pre-cambrian shields; apical lineages inhabiting the sedimentary amazon basin).

ASSUNTO(S)

filogenia bacia amazônica coevolution potamotrygonocotyle molecular systematics potamotrygonidae amazon basin. potamotrygonidae biogeografia biogeography phylogeny sistemática molecular co-evolução potamotrygonocotyle

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