Variation in root secondary metabolites is shaped by past climatic conditions

O_LIPlants can adapt to changing environments by adjusting the production and maintenance of diverse sets of bioactive secondary metabolites. To date, the impact of past climatic conditions relative to other factors such as soil abiotic factors and herbivore pressure on the evolution of plant secondary metabolites is poorly understood, especially for plant roots. C_LIO_LIWe explored associations between root latex secondary metabolites in 63 Taraxacum officinale populations across Switzerland and past climatic conditions, soil abiotic parameters, and root herbivore pressure. To assess the contribution of environmental effects, root secondary metabolites were measured in F0 plants in nature and F2 plants under controlled greenhouse conditions. C_LIO_LIConcentrations of root latex secondary metabolites were most strongly associated with past climatic conditions, while current soil abiotic factors or root herbivore pressure did not show a clear association with root latex chemistry. Results were identical for natural and controlled conditions, suggesting heritable trait variation rather than environmental plasticity as underlying factor. C_LIO_LISynthesis. We conclude that climatic conditions likely play a major role in the evolution of root secondary metabolites. Direct abiotic effects are likely underlying this pattern, hinting at a novel role of root latex metabolites the tolerance of abiotic stress. C_LI