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hal.structure.identifierUniversité libre de Bruxelles [ULB]
hal.structure.identifierUniversité de Liège
dc.contributor.authorDUMINIL, Jérôme
hal.structure.identifierUniversité libre de Bruxelles [ULB]
dc.contributor.authorHARDY, Olivier J.
hal.structure.identifierBiodiversité, Gènes & Communautés [BioGeCo]
dc.contributor.authorPETIT, Remy
dc.date.issued2009
dc.identifier.issn1471-2148
dc.description.abstractEnBackground: Understanding the mechanisms that control species genetic structure has always been a major objective in evolutionary studies. The association between genetic structure and species attributes has received special attention. As species attributes are highly taxonomically constrained, phylogenetically controlled methods are necessary to infer causal relationships. In plants, a previous study controlling for phylogenetic signal has demonstrated that Wright's F-ST, a measure of genetic differentiation among populations, is best predicted by the mating system (outcrossing, mixed-mating or selfing) and that plant traits such as perenniality and growth form have only an indirect influence on F-ST via their association with the mating system. The objective of this study is to further outline the determinants of plant genetic structure by distinguishing the effects of mating system on gene flow and on genetic drift. The association of biparental inbreeding and inbreeding depression with population genetic structure, mating system and plant traits are also investigated. Results: Based on data from 263 plant species for which estimates of F-ST, inbreeding (F-IS) and outcrossing rate (t(m)) are available, we confirm that mating system is the main influencing factor of F-ST. Moreover, using an alternative measure of F-ST unaffected by the impact of inbreeding on effective population size, we show that the influence of tm on F-ST is due to its impact on gene flow (reduced pollen flow under selfing) and on genetic drift (higher drift under selfing due to inbreeding). Plant traits, in particular perenniality, influence F-ST mostly via their effect on the mating system but also via their association with the magnitude of selection against inbred individuals: the mean inbreeding depression increases from short-lived herbaceous to long-lived herbaceous and then to woody species. The influence of perenniality on mating system does not seem to be related to differences in stature, as proposed earlier, but rather to differences in generation time. Conclusion: Plant traits correlated with generation time affect both inbreeding depression and mating system. These in turn modify genetic drift and gene flow and ultimately genetic structure.
dc.language.isoen
dc.publisherBioMed Central
dc.subjectDÉPRESSION CONSANGUINE
dc.subjectSYSTÈME D'ACCOUPLEMENT
dc.title.enPlant traits correlated with generation time directly affect inbreeding depression and mating system and indirectly genetic structure
dc.typeArticle de revue
dc.identifier.doi10.1186/1471-2148-9-177
dc.subject.halSciences de l'environnement/Biodiversité et Ecologie
bordeaux.journalBMC Evolutionary Biology
bordeaux.page14 p.
bordeaux.volume9
bordeaux.issueArticle 177
bordeaux.peerReviewedoui
hal.identifierhal-02661940
hal.version1
hal.origin.linkhttps://hal.archives-ouvertes.fr//hal-02661940v1
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