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Parallel reduction in flowering time from de novo mutations enable evolutionary rescue in colonizing lineages

Andrea Fulgione, Célia Neto, Ahmed F. Elfarargi, Emmanuel Tergemina, Shifa Ansari, Mehmet Göktay, Herculano Dinis, Nina Döring, Pádraic J. Flood, Sofia Rodriguez-Pacheco, Nora Walden, Мarcus A. Koch, Fabrice Roux, Joachim Hermisson, Angela M. Hancock

2022Nature Communications63 citationsDOIOpen Access PDF

Abstract

Understanding how populations adapt to abrupt environmental change is necessary to predict responses to future challenges, but identifying specific adaptive variants, quantifying their responses to selection and reconstructing their detailed histories is challenging in natural populations. Here, we use Arabidopsis from the Cape Verde Islands as a model to investigate the mechanisms of adaptation after a sudden shift to a more arid climate. We find genome-wide evidence of adaptation after a multivariate change in selection pressures. In particular, time to flowering is reduced in parallel across islands, substantially increasing fitness. This change is mediated by convergent de novo loss of function of two core flowering time genes: FRI on one island and FLC on the other. Evolutionary reconstructions reveal a case where expansion of the new populations coincided with the emergence and proliferation of these variants, consistent with models of rapid adaptation and evolutionary rescue.

Topics & Concepts

Adaptation (eye)BiologyEvolutionary biologyCape verdeNatural selectionArabidopsisSelection (genetic algorithm)Convergent evolutionGenomeEvolutionary ecologyGeneEcologyGeneticsPhylogeneticsMutantComputer scienceArtificial intelligenceHistoryHost (biology)EthnologyNeuroscienceGenetic diversity and population structureEvolution and Genetic DynamicsGenomics and Phylogenetic Studies
Parallel reduction in flowering time from de novo mutations enable evolutionary rescue in colonizing lineages | Litcius