Search results for "Animal Taxonomy"

showing 5 items of 5 documents

A large-scale, higher-level, molecular phylogenetic study of the insect order Lepidoptera (moths and butterflies).

2013

Background Higher-level relationships within the Lepidoptera, and particularly within the species-rich subclade Ditrysia, are generally not well understood, although recent studies have yielded progress. We present the most comprehensive molecular analysis of lepidopteran phylogeny to date, focusing on relationships among superfamilies. Methodology / Principal Findings 483 taxa spanning 115 of 124 families were sampled for 19 protein-coding nuclear genes, from which maximum likelihood tree estimates and bootstrap percentages were obtained using GARLI. Assessment of heuristic search effectiveness showed that better trees and higher bootstrap percentages probably remain to be discovered even …

0106 biological sciencesParaphylyNonsynonymous substitutionEvolutionary GeneticsAnimal EvolutionTineoideaZoologylcsh:MedicineBiologyAnimal PhylogeneticsMoths010603 evolutionary biology01 natural sciences03 medical and health sciencesDitrysiaMonophylyPhylogeneticsMolecular SystematicsEvolutionary ModelingAnimalsEvolutionary Systematicslcsh:ScienceBiologyPhylogeny030304 developmental biologyTaxonomy0303 health sciencesEvolutionary BiologyMultidisciplinaryPopulation Biologylcsh:RComputational Biologybiology.organism_classificationOrganismal EvolutionPhylogeneticsTaxonBombycoideaAnimal Taxonomylcsh:QZoologyButterfliesPopulation GeneticsResearch ArticlePLoS ONE
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A molecular phylogeny for the leaf-roller moths (Lepidoptera: Tortricidae) and its implications for classification and life history evolution.

2012

BackgroundTortricidae, one of the largest families of microlepidopterans, comprise about 10,000 described species worldwide, including important pests, biological control agents and experimental models. Understanding of tortricid phylogeny, the basis for a predictive classification, is currently provisional. We present the first detailed molecular estimate of relationships across the tribes and subfamilies of Tortricidae, assess its concordance with previous morphological evidence, and re-examine postulated evolutionary trends in host plant use and biogeography.Methodology/principal findingsWe sequenced up to five nuclear genes (6,633 bp) in each of 52 tortricids spanning all three subfamil…

0106 biological sciencesTortricidaeGenetic SpeciationScienceZoologyChlidanotinaeGenes InsectMothsAnimal Phylogenetics010603 evolutionary biology01 natural sciencesEvolution MolecularMonophylyPhylogeneticsAnimalsEvolutionary SystematicsOlethreutinaeBiologyPhylogenyLikelihood FunctionsEvolutionary BiologyMultidisciplinarybiologyPhylogenetic treeEcologyQRComputational BiologyAgricultureBiodiversityAutecologybiology.organism_classificationPhylogenetics010602 entomologyBiogeographyEvolutionary biologyAnimal TaxonomyMolecular phylogeneticsMedicinePest ControlSequence AnalysisZoologyEntomologyTortricinaeMultilocus Sequence TypingResearch ArticlePloS one
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Transcriptome data reveal syndermatan relationships and suggest the evolution of endoparasitism in acanthocephala via an epizoic stage

2014

The taxon Syndermata comprises the biologically interesting wheel animals ("Rotifera": Bdelloidea + Monogononta + Seisonidea) and thorny-headed worms (Acanthocephala), and is central for testing superordinate phylogenetic hypotheses (Platyzoa, Gnathifera) in the metazoan tree of life. Recent analyses of syndermatan phylogeny suggested paraphyly of Eurotatoria (free-living bdelloids and monogononts) with respect to endoparasitic acanthocephalans. Data of epizoic seisonids, however, were absent, which may have affected the branching order within the syndermatan clade. Moreover, the position of Seisonidea within Syndermata should help in understanding the evolution of acanthocephalan endoparas…

Animal EvolutionScienceMolecular Sequence DataRotiferaAnimal PhylogeneticsTranscriptomesAcanthocephala570 Life sciencesGenome Analysis Toolsddc:570GeneticsAnimalsEvolutionary SystematicsParasitesBiologyPhylogenyTaxonomyEvolutionary BiologyLife Cycle StagesQRComputational BiologyGenomicsBiological EvolutionOrganismal EvolutionPhylogeneticsAnimal TaxonomyMedicineTranscriptomeAnimal GeneticsZoologyResearch Article570 Biowissenschaften
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Lymnaea schirazensis, an Overlooked Snail Distorting Fascioliasis Data: Genotype, Phenotype, Ecology, Worldwide Spread, Susceptibility, Applicability

2011

BackgroundLymnaeid snails transmit medical and veterinary important trematodiases, mainly fascioliasis. Vector specificity of fasciolid parasites defines disease distribution and characteristics. Different lymnaeid species appear linked to different transmission and epidemiological patterns. Pronounced susceptibility differences to absolute resistance have been described among lymnaeid populations. When assessing disease characteristics in different endemic areas, unexpected results were obtained in studies on lymnaeid susceptibility to Fasciola. We undertook studies to understand this disease transmission heterogeneity.Methodology/principal findingsA ten-year study in Iran, Egypt, Spain, t…

EpidemiologyInternational CooperationSnailAnimal PhylogeneticsGlobal HealthPolymerase Chain ReactionMalacologyFoodborne DiseasesGlobal Change EcologyComparative AnatomyPhylogenyLymnaeaGalba truncatulaMolecular EpidemiologyMultidisciplinaryEcologyGeographybiologyZoonotic DiseasesEcologyQRMalacologyInfectious DiseasesPhenotypeBiogeographyVeterinary DiseasesMedicinePublic HealthResearch ArticleNeglected Tropical DiseasesDisease EcologyFascioliasisConservation of Natural ResourcesSpecies complexFasciolosisGenotypeScienceZoologyDNA MitochondrialDNA RibosomalInfectious Disease EpidemiologyIntraspecific competitionVeterinary EpidemiologyHepaticaPhylogeneticsbiology.animalparasitic diseasesGeneticsParasitic DiseasesAnimalsBiologyEvolutionary BiologyModels GeneticSelfingSequence Analysis DNAbiology.organism_classificationBiomarker EpidemiologyHaplotypesAnimal TaxonomyBioindicatorsParasitologyVeterinary ScienceZoologyPopulation GeneticsBiomarkersHelminthologyPLoS ONE
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Kretzoiarctos gen. nov., the oldest member of the giant panda clade

2012

The phylogenetic position of the giant panda, Ailuropoda melanoleuca (Carnivora: Ursidae: Ailuropodinae), has been one of the most hotly debated topics by mammalian biologists and paleontologists during the last century. Based on molecular data, it is currently recognized as a true ursid, sister-taxon of the remaining extant bears, from which it would have diverged by the Early Miocene. However, from a paleobiogeographic and chronological perspective, the origin of the giant panda lineage has remained elusive due to the scarcity of the available Miocene fossil record. Until recently, the genus Ailurarctos from the Late Miocene of China (ca. 8–7 mya) was recognized as the oldest undoubted me…

EvolutionLineage (evolution)ScienceCarnivoraVertebrate PaleontologyZoologyLate MioceneAnimal PhylogeneticsAilurarctosAiluropodinaebiology.animalAnimalsEvolutionary SystematicsCladeBiologyPhylogenyAiluropoda melanoleucaTaxonomyEvolutionary BiologyMultidisciplinaryRadiationbiologyFossilsSkullQRPaleontologybiology.organism_classificationBiological EvolutionCladisticsPhylogeneticsUrsavusBiogeographySpainAnimal TaxonomyMammaliaMedicineZoologyUrsidaeResearch Article
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