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RESEARCH PRODUCT
Long live the alien: is high genetic diversity a pivotal aspect of crested porcupine (Hystrix cristata) long-lasting and successful invasion?
Benoit FaconEmiliano TrucchiEmiliano TrucchiEmiliano MoriSissel JentoftSissel JentoftPaolo GrattonNils Chr. Stensethsubject
0301 basic medicine0106 biological sciences[SDV]Life Sciences [q-bio]01 natural sciencesInvasive speciesgene surfingGene flowinvasive speciesSouth AfricaAfrica Northernpopulation dynamicsNorthern0303 health sciencesbiologyEcologyEcologyPhylogeographyItalyInbreedingGenetic MarkersSettore BIO/05EvolutionPopulationinbreedingAlienRAD sequencing010603 evolutionary biologyHystrix cristatagene surfing; inbreeding; invasive species; population dynamics; RAD sequencing; Africa Northern; Animals; Genetic Markers; Italy; Phylogeography; Porcupines; South Africa; Genetic Variation; Genetics Population; Introduced Species; Ecology Evolution Behavior and Systematics; Genetics03 medical and health sciencesBehavior and Systematicsbiology.animalGeneticsAnimalsEvolutionary dynamicsEcology Evolution Behavior and Systematics030304 developmental biologyEcological nicheGenetic diversityAmbientaleGenetic Variation15. Life on landPorcupinesbiology.organism_classificationPhylogeographyGenetics Population030104 developmental biologyAfricaIntroduced SpeciesPorcupinehuman activitiesdescription
AbstractStudying the evolutionary dynamics of an alien species surviving and continuing to expand after several generations can provide fundamental information on the relevant features of clearly successful invasions. Here, we tackle this task by investigating the dynamics of the genetic diversity in invasive crested porcupine (Hystrix cristata) populations, introduced to Italy about 1500 years ago, which are still growing in size, distribution range and ecological niche. Using genome-wide RAD markers, we describe the structure of the genetic diversity and the demographic dynamics of theH. cristatainvasive populations and compare their genetic diversity with that of native African populations of bothH. cristataand its sister species,H. africaeaustralis. First, we demonstrate that genetic diversity is lower in both the invasive Italian and the North Africa source range relative to other native populations from Sub-Saharan and South Africa. Second, we find evidence of multiple introduction events in the invasive range followed by very limited gene flow. Through coalescence-based demographic reconstructions, we also show that the bottleneck at introduction was mild and did not affect the introduced genetic diversity. Finally, we reveal that the current spatial expansion at the northern boundary of the range is following a leading-edge model characterized by a general reduction of genetic diversity towards the edge of the expanding range. We conclude that the level of genome-wide diversity ofH. cristatainvasive populations is less important in explaining its successful invasion than species-specific life-history traits or the phylogeographic history in the native source range.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2016-08-01 |