0000000000021998

AUTHOR

Elodie Renvoisé

showing 10 related works from this author

Microevolutionary relationships between phylogeographical history, climate change and morphological variability in the common vole (Microtus arvalis)…

2011

Aim In this study, we analyse microevolutionary processes in common voles (Microtus arvalis) through the investigation of tooth morphological structure, in order to assess the relative impact of climate and phylogeographical history. Microevolutionary studies have shown that climate change may play a role in both population phylogeography and phenotypic differentiation. However, relatively little is known about the precise relationship between phylogeography and phenotypic variability and about how organisms respond to climate change. Location France, from sea level to the Alps (5 to > 2300 m a.s.l.). Methods This morphological analysis is based on first lower molar measurements from 16 geo…

0106 biological sciences0303 health scienceseducation.field_of_studyEcologybiologyEcologyPopulationMicroevolutionClimate change15. Life on landbiology.organism_classification010603 evolutionary biology01 natural sciences03 medical and health sciencesPhylogeography13. Climate actionGeographical distanceGenetic structureVoleMicrotuseducationEcology Evolution Behavior and Systematics030304 developmental biologyJournal of Biogeography
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Why all vole molars (Arvicolinae, Rodentia) are informative to be considered as proxy for Quaternary paleoenvironmental reconstructions.

2013

13 pages; International audience; Rodents are considered as a good model and as a good proxy to characterise Quaternary environments. Molars and incisors are the best-preserved remains and are found in abundance in the fossil record. Since several decades, the lower molars are mostly used for specific determinations. Instead of using qualitative and descriptive characters, morphometric methods provide now a general quantitative description of shape. Applying these new morphometric methods (outline analysis), we demonstrate that lower as well as upper molars are useful and efficient for palaeontological analyses within voles (Arvicolinae). Herein it is made evident that except the first lowe…

0106 biological sciencesSystematicsMolar[ SDV.BID ] Life Sciences [q-bio]/Biodiversity010506 paleontologyArcheologyFossil RecordbiologyOutline analysis[SHS.ARCHEO]Humanities and Social Sciences/Archaeology and PrehistoryVolesPalaeoenvironment[SDV.BID]Life Sciences [q-bio]/Biodiversitybiology.organism_classification010603 evolutionary biology01 natural sciencesProxy (climate)PaleontologyArvicolinae[ SHS.ARCHEO ] Humanities and Social Sciences/Archaeology and PrehistorySystematicsVoleQuaternary0105 earth and related environmental sciences
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Morphological modularity and assessment of developmental processes within the vole dental row (Microtus arvalis, Arvicolinae, Rodentia).

2009

10 pages; International audience; Knowledge of mammalian tooth formation is increasing, through numerous genetic and developmental studies. The prevalence of teeth in fossil remains has led to an intensive description of evolutionary patterns within and among lineages based on tooth morphology. The extent to which developmental processes have influenced tooth morphologies and therefore the role of these processes in these evolutionary patterns are nonetheless challenging. Recent methodological advances have been proposed allowing the inference of developmental processes from adult morphologies and the characterization of the degree of developmental integration/modularity of morphological tr…

0106 biological sciencesMolarMorphogenesisZoology[SDV.BID]Life Sciences [q-bio]/Biodiversity010603 evolutionary biology01 natural sciencesModularity03 medical and health sciencesstomatognathic systemMorphogenesisAnimals[ SDV.BDD ] Life Sciences [q-bio]/Development BiologyMicrotus[SDV.BDD]Life Sciences [q-bio]/Development BiologyEcology Evolution Behavior and Systematics030304 developmental biology[ SDV.BID ] Life Sciences [q-bio]/Biodiversity0303 health sciencesbiologyArvicolinaebiology.organism_classificationTooth morphologyArvicolinaeVoleToothDevelopmental Biology
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New insight into the colonization processes of common voles: inferences from molecular and fossil evidence.

2008

Biologie et Gestion des Populations, Campus International de Baillarguet, Montferrier/Lez, FranceElucidating the colonization processes associated with Quaternary climatic cycles is important in order to understand the distribution of biodiversity and the evolutionary potential of temperate plant and animal species. In Europe, general evolutionary scenarios have been defined from genetic evidence. Recently, these scenarios have been challenged with genetic as well as fossil data. The origins of the modern distributions of most temperate plant and animal species could predate the Last Glacial Maximum. The glacial survival of such populations may have occurred in either southern (Mediterranea…

0106 biological sciences[ SDE.BE.BIOD ] Environmental Sciences/Biodiversity and Ecology/domain_sde.be.biodBiodiversitylcsh:Medicine[SDV.BID.SPT]Life Sciences [q-bio]/Biodiversity/Systematics Phylogenetics and taxonomy01 natural sciencesbiodiversitéEvolutionary Biology/Animal GeneticsMaximum-LikelihoodControl RegionGlacial periodévolutionlcsh:SciencePhylogenyévolution biologiqueMismatch Distributionchangement climatique0303 health sciencesMultidisciplinarybiologyArvicolinaeFossilsEcology[SDV.BID.EVO]Life Sciences [q-bio]/Biodiversity/Populations and Evolution [q-bio.PE]mammifèreFossil RecordCytochromes bEuropePhylogeographyHabitatResearch ArticleEvolutionary Biology/PaleontologyGene FlowClimatic ChangesGenetic SpeciationcolonisationMolecular DatingCytochrome b010603 evolutionary biologyQuaternary03 medical and health sciencesAnimalsMicrotusDemography030304 developmental biologyBayesian ApproachEvolutionary Biology/Evolutionary and Comparative GeneticsrongeurHuman evolutionary geneticslcsh:RGenetic Variation[SDV.BBM.BM]Life Sciences [q-bio]/Biochemistry Molecular Biology/Molecular biologySequence Analysis DNAmicrotus arvalis15. Life on landbiology.organism_classificationBiogeographic TraitsPhylogeographyGenetic SpeciationBiological dispersalAnimal Migrationlcsh:QCommon Vole
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Reappraisal of ‘chronospecies' and the use of Arvicola (Rodentia, Mammalia) for biochronology.

2008

13 pages; International audience; The water vole, genus Arvicola, is characterised by a broad geographic distribution throughout Europe and is widespread during the late Middle and Upper Pleistocene. This genus is used as a major biostratigraphic tool within the Quaternary. Specific determinations using the Schmelzband-Differenzierung-Quotient or SDQ have identified many chronospecies within the fossil species Arvicola cantiana (Hinton, 1910). As SDQ calculation remains limited, this study reappraises the Arvicola genus in terms of morphodiversity and morphospace using outline analysis which takes into account the tooth as a whole. Outline analysis suggests that one single species of Arvico…

0106 biological sciencesMorphology010506 paleontologyArcheologypaléontologie des vertébrés[SHS.ARCHEO]Humanities and Social Sciences/Archaeology and PrehistoryPopulationRodentiaBiochronologyPléistocène moyen010603 evolutionary biology01 natural sciencesEnamel quotientTheriaPaleontologyEutheriaGenusBiochronologyChronospeciesArvicolaWater voleeducation[ SDU.STU.PG ] Sciences of the Universe [physics]/Earth Sciences/Paleontology0105 earth and related environmental scienceseducation.field_of_studychronologiebiologyOutline analysisrongeurbiostratigraphiePléistocène supérieurbiology.organism_classificationEuropeGeography[ SHS.ARCHEO ] Humanities and Social Sciences/Archaeology and PrehistoryArvicolamicromammifère[SDU.STU.PG]Sciences of the Universe [physics]/Earth Sciences/Paleontology
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Evolution of mammal tooth patterns: new insights from a developmental prediction model.

2009

14 pages.; International audience; The study of mammalian evolution is often based on insights into the evolution of teeth. Developmental studies may attempt to address the mechanisms that guide evolutionary changes. One example is the new developmental model proposed by Kavanagh et al. (2007), which provides a high-level testable model to predict mammalian tooth evolution. It is constructed on an inhibitory cascade model based on a dynamic balance of activators and inhibitors, regulating differences in molar size along the lower dental row. Nevertheless, molar sizes in some mammals differ from this inhibitory cascade model, in particular in voles. The aim of this study is to point out arvi…

0106 biological sciencesMolarZoologyBiology010603 evolutionary biology01 natural sciencesModels Biological03 medical and health sciencesMicestomatognathic systemMammal toothCricetinaeevolutionGeneticsAnimalsOdontometryrodents.[ SDV.BDD ] Life Sciences [q-bio]/Development Biology[SDV.BDD]Life Sciences [q-bio]/Development BiologyEcology Evolution Behavior and Systematics[ SDU.STU.PG ] Sciences of the Universe [physics]/Earth Sciences/Paleontology030304 developmental biology0303 health sciencesArvicolinaeFossils[SDV.BID.EVO]Life Sciences [q-bio]/Biodiversity/Populations and Evolution [q-bio.PE]evo-devoEvolution of mammalsinhibitory cascadeBiological Evolution[ SDV.BID.EVO ] Life Sciences [q-bio]/Biodiversity/Populations and Evolution [q-bio.PE]Rapid acquisitionEvolutionary biologyrodentsEvolutionary developmental biology[SDU.STU.PG]Sciences of the Universe [physics]/Earth Sciences/PaleontologyGeneral Agricultural and Biological SciencesToothEvolution; international journal of organic evolution
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Early Cambrian origin of modern food webs: evidence from predator arrow worms.

2007

7 pages; International audience; Although palaeontological evidence from exceptional biota demonstrates the existence of diverse marine communities in the Early Cambrian (approx. 540-520 Myr ago), little is known concerning the functioning of the marine ecosystem, especially its trophic structure and the full range of ecological niches colonized by the fauna. The presence of a diverse zooplankton in Early Cambrian oceans is still an open issue. Here we provide compelling evidence that chaetognaths, an important element of modern zooplankton, were present in the Early Cambrian Chengjiang biota with morphologies almost identical to Recent forms. New information obtained from the lowermost Cam…

Range (biology)010502 geochemistry & geophysicsMESH: Fossils01 natural sciencesFood chainMESH : EcosystemMESH: AnimalsMESH: EcosystemMESH : EvolutionGeneral Environmental ScienceTrophic level[ SDU.STU.PG ] Sciences of the Universe [physics]/Earth Sciences/PaleontologyEcologyFossilsplanktonBiotaGeneral MedicineBiological EvolutionMESH: ChinaMESH : Food ChainCambrianpredation[SDU.STU.PG]Sciences of the Universe [physics]/Earth Sciences/PaleontologyGeneral Agricultural and Biological SciencesResearch Article010506 paleontologyChinaBiologyZooplanktonGeneral Biochemistry Genetics and Molecular BiologyMESH: Invertebrates[SDV.EE.ECO]Life Sciences [q-bio]/Ecology environment/EcosystemsMESH: EvolutionAnimalsMESH : ChinaMarine ecosystem14. Life underwaterMESH: Food ChainEcosystem0105 earth and related environmental sciencesMESH : InvertebratesEcological nicheGeneral Immunology and MicrobiologyPelagic zoneInvertebrateschaetognaths[ SDV.EE.ECO ] Life Sciences [q-bio]/Ecology environment/Ecosystemsfood chainMESH : Fossilsfossil-lagerstätteMESH : Animals
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When less means more: evolutionary and developmental hypotheses in rodent molars.

2012

10 pages; International audience; Tooth number in rodents is an example of reduction in evolution. All rodents have a toothless diastema lacking canine and most premolars present in most other mammals. Whereas some rodent lineages retained one premolar (p4), many others lost it during evolution. Recently, an 'inhibitory cascade' developmental model (IC) has been used to predict how the first molar (m1) influences the number and relative sizes of the following distal molars (m2 and m3). The model does not, however, consider the presence of premolars, and here we examine whether the premolar could influence and constrain molar proportions during development and evolution. By investigating a l…

0106 biological sciencesMolarRodentmolar proportionsRodentiapremolarBiologyMacroevolutionModels Biological010603 evolutionary biology01 natural sciencesMandibular first molar03 medical and health sciencesstomatognathic systembiology.animalevolutionPremolarmedicineAnimalsdevelopmentEcology Evolution Behavior and Systematics[ SDU.STU.PG ] Sciences of the Universe [physics]/Earth Sciences/Paleontology030304 developmental biology0303 health sciencesmacroevolutionDentition[SDV.BID.EVO]Life Sciences [q-bio]/Biodiversity/Populations and Evolution [q-bio.PE]Anatomyinhibitory cascadeBiological EvolutionMolar[ SDV.BID.EVO ] Life Sciences [q-bio]/Biodiversity/Populations and Evolution [q-bio.PE]medicine.anatomical_structureEvolutionary biologyrodentsDiastemaLinear ModelsBasal phenotype[SDU.STU.PG]Sciences of the Universe [physics]/Earth Sciences/Paleontology
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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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Mitochondrial DNA Gene Diversity and Morphological Variability of the Common Vole (Microtus arvalis) in France

2006

International audience

PhylogeographyTeeth[SDV.GEN.GPO]Life Sciences [q-bio]/Genetics/Populations and Evolution [q-bio.PE]mtDNAMorphometry[SDV.BID.EVO]Life Sciences [q-bio]/Biodiversity/Populations and Evolution [q-bio.PE][SDV.BID.EVO] Life Sciences [q-bio]/Biodiversity/Populations and Evolution [q-bio.PE][SDV.GEN.GPO] Life Sciences [q-bio]/Genetics/Populations and Evolution [q-bio.PE]RodentsComputingMilieux_MISCELLANEOUSCommon Vole
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