Search results for "Phylogenetics"

showing 10 items of 777 documents

Multilocus phylogenetics of smooth clam shrimps (Branchiopoda, Laevicaudata)

2021

International audience; Laevicaudatan branchiopods, also called ‘smooth clam shrimps’ or ’pea shrimps’, are rare crustaceans found exclusively in temporary, small freshwater bodies, which stay dry most of the year. Only 42 laevicaudatan species have been described so far, 90% of which belong to the genus Lynceus. The first multilocus phylogeny of the group is provided here, based on 15 Lynceus species from North and South America, Europe, Africa, Asia, Australia and New Caledonia and using nine molecular markers (two mitochondrial and seven nuclear genes, including newly designed primers). Genetic data suggest populations of Lynceus brachyurus from Europe and North America to represent a co…

0106 biological sciencesSystematicsSpecies complexLaevicaudataZoologyBiology[SDV.BID.SPT]Life Sciences [q-bio]/Biodiversity/Systematics Phylogenetics and taxonomy010603 evolutionary biology01 natural sciences03 medical and health sciencesGenusGeneticsVicariance14. Life underwaterCladeMolecular clockMolecular BiologyEcology Evolution Behavior and Systematics030304 developmental biology0303 health sciencesGondwanahistorical biogeographymolecular clock[SDV.BA.ZI]Life Sciences [q-bio]/Animal biology/Invertebrate ZoologyTaxonSister groupBiogeografiaAnimal Science and ZoologySouthern Hemisphere
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Rodents and palaeogenetics: new perspectives.

2008

10 pages; Rodents are the most diversified mammalian order (484 extant genera including 2277 species), and they have a worldwide distribution. Palaeontological, morphological and molecular data have greatly helped to resolve their systematics and evolutionary history. However, some discrepancies remain between palaeontologists and molecular biologists. New techniques in molecular biology, and especially in palaeogenetics, allow us to have direct access to the hereditary material of extinct organisms, and they can compensate for some morphological limits. Unfortunately, few studies are dealing with rodent palaeogenetics, despite the amount of museum and fossil material available. Here, we re…

0106 biological sciencesSystematicsZoologyBiology[SDV.BID.SPT]Life Sciences [q-bio]/Biodiversity/Systematics Phylogenetics and taxonomy010603 evolutionary biology01 natural sciencesRodentsGenetic diversity03 medical and health sciencesExtant taxonPhylogeneticsPalaeoparasitologyPhylogeny030304 developmental biology[ SDU.STU.PG ] Sciences of the Universe [physics]/Earth Sciences/Paleontology0303 health sciences[ SDE.BE ] Environmental Sciences/Biodiversity and Ecology[SDV.GEN.GPO]Life Sciences [q-bio]/Genetics/Populations and Evolution [q-bio.PE]Ancient DNAPhylochronologyGeneral EngineeringPaleogenetics[ SDV.GEN.GPO ] Life Sciences [q-bio]/Genetics/Populations and Evolution [q-bio.PE]Ancient DNA[SDE.BE]Environmental Sciences/Biodiversity and Ecology[SDU.STU.PG]Sciences of the Universe [physics]/Earth Sciences/Paleontology[ SDV.BID.SPT ] Life Sciences [q-bio]/Biodiversity/Systematics Phylogenetics and taxonomy
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Chirocephalus sarpedonis sp. nov. (Branchiopoda, Anostraca, Chirocephalidae) from Turkey questions the monophyly of the traditional Chirocephalus spe…

2017

Chirocephalus sarpedonis sp. nov. (Anostraca, Chirocephalidae), collected in a temporary pond in Lycia (Turkey), is described and its affinities with the other species of the genus are investigated based on both morphology and mtDNA cytochrome oxidase subunit I (COI) sequences. Male and female morphology suggests its major affinity with the species belonging to the bairdi-group although the morphological peculiarities of the species make it difficult to ascribe C. sarpedonis sp. nov. to any of the Chirocephalus species-groups which are currently used in the systematics of the genus. Furthermore, molecular analyses based on the comparison with available Chirocephalus spp. COI sequences fail …

0106 biological sciencesSystematicsbiology010604 marine biology & hydrobiologyAnostracan phylogenySettore BIO/05 - ZoologiaZoologyBranchiopodaChirocephalidaeAnostracan phylogeny; Brood pouch morphology; Molecular taxonomy; Aquatic ScienceAquatic Sciencebiology.organism_classification010603 evolutionary biology01 natural sciencesMolecular taxonomyMonophylyPhylogeneticsAnostracaTaxonomy (biology)ChirocephalusBrood pouch morphology
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Phylogeny, biogeography, systematics and taxonomy of Salicornioideae (Amaranthaceae/Chenopodiaceae) – A cosmopolitan, highly specialized hygrohalophy…

2017

0106 biological sciencesSystematicsbiologyBiogeographySarcocorniaZoologyPlant ScienceAmaranthaceaebiology.organism_classification010603 evolutionary biology01 natural sciencesEvolutionary biologyPhylogeneticsSalicornioideaeTaxonomy (biology)ChenopodiaceaeEcology Evolution Behavior and Systematics010606 plant biology & botanyTAXON
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Cryptic speciation in Southern Ocean Aequiyoldia eightsii (Jay, 1839): Mio-Pliocene trans-Drake Passage separation and diversification

2019

Abstract The species of the genus Aequiyoldia Soot-Ryen, 1951, previously known as Yoldia, are common, soft-substratum, sareptid bivalves. In the Southern Ocean, Aequiyoldia eightsii (Jay, 1839) was originally described from the Antarctic Peninsula and has also been reported in southern South America. The species A. woodwardi (Hanley, 1960) was reported for the Falkland/Malvinas Islands and Tierra del Fuego, but this taxon has been recently synonymised within the broadly distributed A. eightsii. Aequiyoldia has received little attention across its distribution in the Southern Ocean, and although its taxonomy and systematics remain uncertain, all the species have been grouped under a single …

0106 biological sciencesSystematicsgeographygeography.geographical_feature_category010504 meteorology & atmospheric sciences010604 marine biology & hydrobiologyBiogeographyCytochrome c oxidase subunit IZoologyGeologyAquatic ScienceBiology01 natural sciencesGenetic divergenceOceanographyTaxonPeninsulaPhylogeneticsTaxonomy (biology)0105 earth and related environmental sciencesProgress in Oceanography
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Possible amphi-Atlantic dispersal of Scyllarus lobsters (Crustacea: Scyllaridae): molecular and larval evidence

2017

14 pages, 6 figures, 1 table

0106 biological sciencesSystematicsphylogénétiquewater bloomsArthropodaplanktonic larval duration010603 evolutionary biology01 natural sciencesDNA barcodingPhyllosomaCrustaceaDecapodaAnimaliaamphi-Atlantic distributionDNA barcodingdéveloppement larvaire14. Life underwaterScyllarusanalyse moléculaireMalacostracahomarusEcology Evolution Behavior and SystematicsTaxonomybiologyEcologyprolifération planctonique010604 marine biology & hydrobiologySlipper lobsterScyllaridaeBiodiversitydispersion des populationscrustaceabiology.organism_classificationCrustaceanphylogenetics[SDV.BA.ZI]Life Sciences [q-bio]/Animal biology/Invertebrate ZoologySister groupBiological dispersalAnimal Science and ZoologySlipper lobsteratlantiqueatlantic
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Molecular phylogeny of the extinct giant deer, Megaloceros giganteus.

2006

a Centre de Genetique Moleculaire et Cellulaire (CGMC), CNRS UMR 5534, Universite Claude Bernard Lyon 1, Villeurbanne, France b Laboratoire d’Anthropologie des Populations du Passe, CNRS UMR 5199 PACEA, Universite Bordeaux 1, Talence, France c UCD School of Biology and Environmental Science, UCD, BelWeld, Dublin 4, Ireland d Laboratoire d’Ecologie des Hydrosystemes Fluviaux, CNRS UMR 5023, Universite Claude Bernard Lyon 1, Villeurbanne, France e Biogeosciences-Dijon, CNRS UMR 5561, Universite de Bourgogne, Centre des Sciences de la Terre, Dijon, France f Department of Palaeontology, Royal Belgian Institute of Natural Sciences, Brussels, Belgium g Department of Biology, University College Lo…

0106 biological sciencesTime FactorsMESH: GeographyMESH: Base Sequence[SDV.BID.SPT]Life Sciences [q-bio]/Biodiversity/Systematics Phylogenetics and taxonomy01 natural sciencesMESH: FossilsMESH : BiodiversityMESH: AnimalsMESH: PhylogenyGiant deerPhylogenyComputingMilieux_MISCELLANEOUS[ SDU.STU.PG ] Sciences of the Universe [physics]/Earth Sciences/Paleontology0303 health sciencesbiologyAncient DNAGeographyEcologymtDNAFossils[SDV.BID.EVO]Life Sciences [q-bio]/Biodiversity/Populations and Evolution [q-bio.PE]MegalocerosMESH : GeographyClaude bernardBiodiversityMESH : Deer[ SDV.GEN.GPO ] Life Sciences [q-bio]/Genetics/Populations and Evolution [q-bio.PE][SDU.STU.PG]Sciences of the Universe [physics]/Earth Sciences/PaleontologyMESH : Time Factors[SDV.OT]Life Sciences [q-bio]/Other [q-bio.OT]MESH: Deer010603 evolutionary biologyMESH: BiodiversityQuaternary03 medical and health sciencesGeneticsAnimals14. Life underwaterMolecular BiologyEcology Evolution Behavior and Systematics030304 developmental biologyBase SequenceDeerMESH: Time FactorsMESH : Phylogenybiology.organism_classificationMESH : FossilsMESH : Base SequenceMESH : AnimalsHumanities[ SDV.BID.SPT ] Life Sciences [q-bio]/Biodiversity/Systematics Phylogenetics and taxonomy
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Genome reduction of the aphid endosymbiont Buchnera aphidicola in a recent evolutionary time scale.

2007

International audience; Genome reduction, a typical feature of symbiotic bacteria, was analyzed in the last stages of evolution of Buchnera aphidicola, the primary aphid endosymbiont, in two neutrally evolving regions: the pseudogene cmk and an intergenic region. These two regions were examined in endosymbionts from several lineages of their aphid host Rhopalosiphum padi, and different species of the same genus, whose divergence times ranged from 0.62 to 19.51 million years. Estimates of nucleotide substitution rates were between 4.3 and 6.7 x 10(-9) substitution/site/year, with G or C nucleotides being substituted around four times more frequently than A or T. Two different types of indel …

0106 biological sciencesTime FactorsPseudogeneBiology010603 evolutionary biology01 natural sciencesGenomeDNA MitochondrialEvolution Molecular03 medical and health sciencesIntergenic regionBuchneraPhylogeneticsGeneticsAnimalsMolecular clockIndelSymbiosisPhylogeny030304 developmental biologyGenetics0303 health sciences[SDV.GEN]Life Sciences [q-bio]/GeneticsBase SequenceGeographyNucleotidesGeneral Medicinebiology.organism_classificationFixation (population genetics)HaplotypesAphidsCalibrationMutationBuchneraGenome BacterialGene
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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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Weak effects of geolocators on small birds: A meta-analysis controlled for phylogeny and publication bias

2020

Abstract Currently, the deployment of tracking devices is one of the most frequently used approaches to study movement ecology of birds. Recent miniaturization of light‐level geolocators enabled studying small bird species whose migratory patterns were widely unknown. However, geolocators may reduce vital rates in tagged birds and may bias obtained movement data. There is a need for a thorough assessment of the potential tag effects on small birds, as previous meta‐analyses did not evaluate unpublished data and impact of multiple life‐history traits, focused mainly on large species and the number of published studies tagging small birds has increased substantially. We quantitatively reviewe…

0106 biological sciencesZOOLOGIAFuture studiesSurvivalAnimal Ecology and PhysiologyLEG-LOOP HARNESSESTag effect01 natural sciences//purl.org/becyt/ford/1 [https]TRACKINGWINTERING AREASROUTESgeolocator GeoLight FLightR migration annual schedules precisionReturn ratePhylogenyMigrationcondition ; migration ; phenology ; reproduction ; return rate ; survival ; tracking device ; tag effectHIRUNDO-RUSTICAMatched controlReproductionGeoLightATTACHMENTgeolocationPhenologyMeta-analysis1181 Ecology evolutionary biologyMIGRATORY CONNECTIVITYSONGBIRDgeolocatorSeasonsCIENCIAS NATURALES Y EXACTASSTRATEGIEStracking methodsZoologyBiology010603 evolutionary biologyBirdsCiencias BiológicasPhylogeneticsFLightRAnimals//purl.org/becyt/ford/1.6 [https]ConditionEcology Evolution Behavior and SystematicsANNUAL CYCLETracking device010604 marine biology & hydrobiologyPlant EcologyQHPublication biasEcologíabiology.organism_classificationSongbirdGeolocationannual schedulesAnimal Science and ZoologyAnimal MigrationprecisionVital ratesPublication Bias
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