Urbanization creates mosaics of microhabitats that sustain diverse plant communities, and offer untapped opportunities to understand contemporary ecological and evolutionary processes. Using a city-wide colonization experiment in Cologne (Germany), we identified the environmental factors limiting establishment and persistence of the ruderal species Arabidopsis thaliana and the genetic variants enabling adaptation. We show that standing genetic variation is essential for realizing the species urban niche, enabling rapid adaptation to fine-scale gradients in disturbance, vegetation, and soil conditions. Despite originating from only two parental genotypes, populations evolved substantial adaptive differentiation within three generations, revealing a highly polygenic basis of local adaptation. More broadly, our approach establishes cities as powerful open-air laboratories for uncovering and fostering ecological and evolutionary processes that generate and sustain biodiversity in human-dominated landscapes.
Floret, J., Linstaedter, A., Zhang, H., Hesen, V., Portalier, S., Weinand, L., Bustarret, G., Bell, K., Roux, F., Ali, T., Schmitz, G., Kopriva, S., de Meaux, J.
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