Abstract
Specialized metabolites mediate important interactions in both the rhizosphere and the phyllosphere. How this compartmentalized multifunctionality influences plant-environment interactions is unknown. Here, we investigated how the dual role of maize benzoxazinoids as leaf defenses and root siderophores shapes the interaction between maize and a major global insect pest, the fall armyworm. We find that benzoxazinoids suppress fall armyworm growth in soils with low bioavailable iron but enhance growth in soils with higher bioavailable iron. Manipulation experiments confirm that benzoxazinoids suppress herbivore growth under iron-deficient conditions but enhance herbivore growth when iron is present in its free form. This reversal of the protective effect of benzoxazinoids is not associated with major changes in plant primary metabolism. Plant defense activation is modulated by the interplay between soil iron and benzoxazinoids but does not explain fall armyworm performance. Instead, increased iron supply to the fall armyworm by benzoxazinoids in the presence of free iron enhances larval performance. This work identifies soil chemistry as a decisive factor for the impact of plant secondary metabolites on herbivore growth. It also demonstrates how the multifunctionality of plant secondary metabolites drives interactions between abiotic and biotic factors, with major consequences for plant health in variable environments.
Competing Interest Statement
The authors have declared no competing interest.