Effects of population-related variation in plant primary and secondary metabolites on aboveground and belowground multitrophic interactions.

Insects feeding on aboveground and belowground tissues can influence each other through their shared plant and this is often mediated by changes in plant chemistry. We examined the effects of belowground root fly () herbivory on the performance of an aboveground herbivore () and its endoparasitoid wasp (). Insects were reared on three populations of wild cabbage () plants, exhibiting qualitative and quantitative differences in root and shoot defense chemistry, that had or had not been exposed to root herbivory.

Interactions Between a Belowground Herbivore and Primary and Secondary Root Metabolites in Wild Cabbage.

Plants are attacked by both above- and belowground herbivores. Toxic secondary compounds are part of the chemical defense arsenal of plants against a range of antagonists, and are subject to genetic variation. Plants also produce primary metabolites (amino acids, nutrients, sugars) that function as essential compounds for growth and survival.

Development of a generalist predator, Podisus maculiventris, on glucosinolate sequestering and nonsequestering prey.

Insect herbivores exhibit various strategies to counter the toxic effects of plant chemical defenses. These strategies include the detoxification, excretion, and sequestration of plant secondary metabolites. The latter strategy is often considered to provide an additional benefit in that it provides herbivores with protection against natural enemies such as predators.

The importance of aboveground-belowground interactions on the evolution and maintenance of variation in plant defense traits.

Over the past two decades a growing body of empirical research has shown that many ecological processes are mediated by a complex array of indirect interactions occurring between rhizosphere-inhabiting organisms and those found on aboveground plant parts. Aboveground-belowground studies have thus far focused on elucidating processes and underlying mechanisms that mediate the behavior and performance of invertebrates in opposite ecosystem compartments. Less is known about genetic variation in plant traits such as defense as that may be driven by above- and belowground trophic interactions.