Exploring Lower Limits of Plant Elemental Defense by Cobalt, Copper, Nickel, and Zinc

Elemental defense is a relatively newly recognized phenomenon in which plants use elements present in their tissue to reduce damage by herbivores or pathogens. In the present study, neonates of the generalist herbivore, Spodoptera exigua (Hubner) (Lepidoptera: Noctuidae), were fed artificial diets amended with varying concentrations of Co, Cu, Ni, and Zn that are hyperaccumulated by plants to determine minimum lethal concentrations (MLC) and minimum sublethal concentrations (MSC) for each metal. MLC values (dry mass) for Co (45 mu g/g), Ni (230 mu g/g), and Zn (280 mu g/g) were below published minimum hyperaccumulator levels. MSC levels (dry mass) for Co (15 mu g/g), Ni (140 mu g/g), and Zn (200 mu g/g) were at concentrations lower than published minimum accumulator levels. Furthermore, both MLC and MSC values for Zn were within normal tissue concentrations. These results indicate that elemental defense for Co, Ni, and Zn may be effective at concentrations lower than hyperaccumulator levels and so may be more widespread than previously believed.