Metabolism and chemical diversity evolve in response to pollinator availability

Abstract Phytochemistry is a core player in shaping plant-pollinator networks and pollination services. Yet, little is known about the dynamic evolution of phytochemical traits in response to limited pollinator access, especially concerning chemical diversity. We combined an evolutionary experiment manipulating pollinator access with predictive metabolomics to uncover evolutionary changes in phytochemical traits of Brassica rapa. Our results unveiled chemical changes in both leaf and flower chemistry. Moreover, plants under selection by limited pollinator access showed a decreased chemical richness and diversity and a modulated primary and specialised metabolism, which could be used to predict pollinator access with 88% accuracy. Chemical indices and metabolites responding to pollinator access were associated with variation in flowering time and performance of outcrossing flowers. Our findings provide key insights into the influence of pollinator access on plant chemistry and indicate a risk of pollinator decline and losses of chemical diversity for plant-pollinator network structure and ecosystem dynamics. Competing Interest Statement The authors have declared no competing interest.