6533b871fe1ef96bd12d2438
RESEARCH PRODUCT
Conservation of the endangered Mediterranean tortoise Testudo hermanni hermanni: The contribution of population genetics and historical demography
Giorgio BertorelleRaphaël LebloisGiuseppe SotgiuVéronique ArnalAlbert BertoleroSaliha ZenboudjiMarc CheylanClaudine MontgelardClaudine MontgelardGuillelme AstrucJoan Lluís PretusMario Lovalvosubject
0106 biological sciences0301 basic medicineConservation geneticsDemographic historyTortoiseDemographic history[SDV]Life Sciences [q-bio]PopulationEndangered speciesSettore BIO/05 - ZoologiaZoologyBiology010603 evolutionary biology01 natural sciencesTestudo hermanni03 medical and health sciences14. Life underwatereducationMicrosatellitesConservation geneticEcology Evolution Behavior and SystematicsNature and Landscape ConservationConservation genetics; Demographic history; Microsatellites; Testudo hermanni Genetic structure; Conservation issueseducation.field_of_studyTestudo hermanniEcologyConservation issuesAmbientaleMicrosatellite15. Life on landbiology.organism_classificationTestudo hermanni Genetic structureConservation genetics Demographic history Microsatellites Testudo hermanni Genetic structure Conservation issues030104 developmental biologyThreatened speciesGenetic structureGenetic structureConservation geneticsdescription
International audience; Estimating the genetic variation and demographic trends of species in decline is of major concern in conservation genetics. This study contributes to understanding how historical and anthropogenic factors shape the distribution of current genetic diversity in one of the most endangered reptiles in Western Europe, the Hermann's tortoise Testudo hermanni hermanni. We used 17 microsatellite loci, chosen from a pyrosequencing library specifically developed for the subspecies to genotype eight populations distributed over about 30 sample localities covering almost the entire geographic distribution of the sub-species. The population genetic results reflect a very strong genetic structure and identify three major clusters among the Hermann's tortoise in the occidental Mediterranean basin: a continental cluster (Albera in Spain, Var in France and continental Italy), an insular cluster (Corsica, Sardinia and Sicily) and a cluster of mixed lineage (Minorca). Each of the eight studied populations is characterized by only one lineage except for Minorca, in which two lineages were identified. In contrast to what most empirical studies predict, the genetic diversity of the Hermann's tortoise is greater on islands than on the continent. Islands can therefore be considered as genetic sanctuaries with high conservation potential for this species, particularly in Corsica. Historical demographic patterns inferred with a generalized stepwise-mutation model (GSM) using maximum likelihood showed significant past demographic changes in only two of the eight sampled populations: a demographic bottleneck was detected in the Albera population (Spain) and a demographic expansion in Corsica (France). In contrast to what was argued in previous studies, these results indicate that the Hermann's tortoise lineage found in Corsica is autochthonous. The origin of both lineages found in Minorca remains speculative. Lastly, our study identifies the six most relevant management units (sensu Moritz, 1994) for conservation purposes on the basis that they represent a significant part of the evolutionary legacy of the species. Some conservation recommendations were proposed, in particular for the most threatened population in Albera.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2016-03-01 |