Vishwakarma R., Sgarlata G. M., Soriano-Paños D., Rasteiro R., Maié T., Paixao T., Tournebize Rémi, Chikhi L. (2024). Species-specific traits shape genetic diversity during an expansion-contraction cycle and bias demographic history reconstruction. Molecular Ecology, [Early access], p. [18 p.]. ISSN 0962-1083.
Titre du document
Species-specific traits shape genetic diversity during an expansion-contraction cycle and bias demographic history reconstruction
Vishwakarma R., Sgarlata G. M., Soriano-Paños D., Rasteiro R., Maié T., Paixao T., Tournebize Rémi, Chikhi L.
Source
Molecular Ecology, 2024,
[Early access], p. [18 p.] ISSN 0962-1083
Species ranges are dynamic, experiencing expansions, contractions or shifts in response to habitat changes driven by extrinsic factors such as climate change or human activities. While existing research examines the genetic consequences of spatial processes, few studies integrate species-specific traits to analyse how habitat changes affect co-existing species. In this study, we address this gap by investigating how genetic diversity patterns vary among species with different traits (such as generation length, population density and dispersal) experiencing similar habitat changes. Using spatial simulations and a simpler panmictic population model, we investigate the temporal genetic diversity in refugium populations undergoing range expansion of their habitat, followed by stationary and contraction periods. By varying habitat contraction speed and species traits, we identified three distinct temporal dynamics of genetic diversity during contraction: (i) a decrease in genetic diversity, (ii) an initial increase followed by a decrease and (iii) a continuous increase throughout the contraction period. We show that genetic diversity trajectories during population decline can be predicted by comparing sampled population diversity to equilibrium values expected under expanded and contracted habitat ranges. Our study also challenges the belief that high genetic diversity in a refugium population is due to a recent and rapid habitat loss. Instead, we found contrasting effects of contraction speed on genetic diversity depending on the interaction between species-specific traits and the dynamics of habitat change. Finally, using simulated genetic data, we found that demographic histories inferred from effective population size estimates may vary across species, even when they experience similar habitat changes.
Plan de classement
Sciences fondamentales / Techniques d'analyse et de recherche [020]
;
Sciences du milieu [021]
