Fraimout A., Debat V., Fellous S., Hufbauer R.A., Foucaud J., Pudlo P., Marin J.M., Price D.K., Cattel J., Chen X., Deprá M., Duyck P.F., Guedot C., Kenis M., Kimura M.T., Loeb G., Loiseau A., Martinez-Sañudo I., Pascual M., Richmond M.P., Shearer P., Singh N., Tamura K., Xuereb A., Zhang J., Estoup A.
2017
Deciphering invasion routes from molecular data is crucial to understanding biological invasions, including identifying bottlenecks in population size and admixture among distinct populations. Here, we unravel the invasion routes of the invasive pest Drosophila suzukii using a multi-locus microsatellite dataset (25 loci on 23 worldwide sampling locations). To do this, we use approximate Bayesian ...
Ecologie animale; Méthodes mathématiques et statistiques
2017
Deciphering invasion routes from molecular data is crucial to understanding biological invasions, including identifying bottlenecks in population size and admixture among distinct populations. Here, we unravel the invasion routes of the invasive pest Drosophila suzukii using a multi-locus microsatellite dataset (25 loci on 23 worldwide sampling locations). To do this, we use approximate Bayesian ...
Ecologie animale; Méthodes mathématiques et statistiques