The key questions relating to the evolutionary processes underlying plant colonization success pertain to the geographic origin of the source population(s), the location of the migration routes, the extent to which genetic diversity is reduced via founder effects, and the extent of gene flow among populations during expansion. However, these questions must still be addressed for perennial herbaceous plants with large geographic distributions. We investigated the colonization history of Dianthus carthusianorum (the Carthusian Pink), one of the most widespread European carnation species. We called genome-wide 236,964 SNPs from a large sample across the D. carthusianorum distribution range, and used up-to-date population genomics approaches (approximate Bayesian computation Random-Forest method, ABC-RF) to infer population demographic history. Spatial genetic structure and diversity analyses and demographic inferences indicated successive East-West colonization events by the Carthusian Pink. ABC-RF also revealed gene flow during colonization, but only among geographically close populations. This study provides important insights into the colonization processes of herbaceous perennial species belonging to one of Europe's most diverse plant genera.
Characterizing the phenotypic and genetic variation among populations of crop wild relatives help understanding the ecological and evolutionary processes involved in population divergence, and better harness their diversity to mitigate the impact of climate change on crops. We assessed genetic and phenotypic diversity of the European crabapple, Malus sylvestris, a main contributor to the cultivated apple genome (Malus domestica), and investigated for ecological divergence. We assessed variation in growth rate and traits related to carbon uptake between seedlings measured in a common garden, and related it to the genetic ancestry of the seedlings, assessed using 13 microsatellite loci and Bayesian clustering method. The occurrence of patterns of isolation-by-distance, -by-climate and -by-adaptation that might have caused genetic and phenotypic differentiation among M. sylvestris populations was also tested. Seedlings belonged to seven M. sylvestris populations in Europe, with 11.6% of seedlings introgressed by M. domestica. Significant trait variation among M. sylvestris populations was observed, which for some was of moderate to high heritability. Lack of association between trait and genetic divergence suggests that this significant phenotypic variation is not adaptive, but strong association between genetic variation and the climate during the last glacial maximum suggests local adaptation of M. sylvestris to past climates. This study provides an insight into the ecological and evolutionary drivers of phenotypic and genetic differentiation among populations of a wild apple species and relative of cultivated apples, which is a starting point for future breeding programs.
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