Abstract
AbstractThe impact of human mediated environmental change on the evolutionary trajectories of wild organisms is poorly understood. In particular, species’ capacity to adapt rapidly (in hundreds of generations or less), reproducibly and predictably to extreme environmental change is unclear.Silene uniflorais predominantly a coastal species, but it has also colonised isolated, disused mines with phytotoxic, zinc-contaminated soils. Here, we found that rapid parallel adaptation to anthropogenic pollution has taken place without geneflow spreading adaptive alleles between populations of the mine ecotype. Across replicate ecotype pairs, we identified shared targets of selection with functions linked to physiological differences between the ecotypes, although the genetic response is only partially shared between mine populations. Our results are consistent with a complex, polygenic genetic architecture underpinning rapid adaptation. This shows that even under a scenario of strong selection and rapid adaptation, evolutionary responses to human activities may be idiosyncratic at the genetic level and, therefore, difficult to predict from genomic data.
Publisher
Cold Spring Harbor Laboratory
Reference107 articles.
1. Alexa, A. & Rahnenfuhrer, J. (2020). topGO: Enrichment analysis for gene ontology. R package version 2.40.0.
2. Allison, S. (2002). Distribution and biogeochemical cycling of trace metals in soils at an abandoned lead mining and smelting. University of the West of England, Bristol.
3. Parallel adaptation of rabbit populations to myxoma virus
4. Evolutionary genetics of plant adaptation
5. Evolution in closely adjacent plant populations VIII. Clinal patterns at a mine boundary