Erysimum is found in a range of habitats across the northern hemisphere, and has developed diverse morphology and growth habits (herbaceous annual or perennial, and woody perennial). Different
Erysimum species are used as food plants by the
larvae of some
Lepidoptera (
butterflies and
moths) species including the
garden carpet (
Xanthorhoe fluctuata). In addition, some species of weevils, like
Ceutorhynchus chlorophanus, live inside the fruits feeding on the developing seeds. Many species of beetles, bugs and grasshoppers eat the leaves and stalks. Some
mammalian herbivores, for example mule deer (
Odocoileus hemionus) in North America, argali (
Ovis ammon) in Mongolia, red deer (
Cervus elaphus) in Central Europe, or Spanish ibex (
Capra pyrenaica) in the Iberian Peninsula, feed on wallflower flowering and fruiting stalks.
Erysimum crepidifolium (pale wallflower) is toxic to some generalist vertebrate herbivores. Most wallflowers are pollinator-generalists, their flowers being visited by many different species of bees, bee flies, hoverflies, butterflies, beetles, and ants. However, there are some specialist species. For example,
Erysimum scoparium is pollinated almost exclusively by
Anthophora alluadii.
Defensive compounds Like most
Brassicaceae, species in the genus
Erysimum produce
glucosinolates as defensive compounds. However, unlike almost all other genera in the Brassicaceae,
Erysimum also accumulates
cardiac glycosides, another class of
phytochemicals with an ecological importance in insect defense. and/or
oviposition by blocking
ion channel function in muscle cells. These chemicals are toxic enough to deter generalist, and even some specialist insect herbivores.
Cardiac glycoside production is widespread in
Erysimum, with at least 48 species in the genus containing these compounds. Accumulation of cardiac glycosides in
Erysimum crepidifolium, but not other tested species, is induced by treatment with
jasmonic acid and
methyl jasmonate, Molecular
phylogenetic analysis indicates that
Erysimum diversification from other
Brassicaceae species that do not produce cardiac glycosides began in the
Pliocene (2.33–5.2 million years ago), suggesting relatively recent evolution of cardiac glycosides as a defensive trait in this genus.
Escape from herbivory The evolution of novel chemical defenses in plants, such as
cardenolides in the genus
Erysimum, is predicted to allow escape from herbivory by specialist herbivores and expansion into new ecological niches. The crucifer-feeding specialist
Pieries rapae (white cabbage butterfly) is deterred from feeding and oviposition by cardenolides in
Erysimum cheiranthoides. Similarly,
Anthocharis cardamines (orange tip butterfly), which oviposits on almost all crucifer species, avoids
E. cheiranthoides. Erysimum asperum (western wallflower) is resistant to feeding and oviposition of
Pieris napi macdunnoughii (synonym
Pieris marginalis, margined white butterfly). Two crucifer-feeding beetles,
Phaedon sp. and
Phyllotreta sp., were deterred from feeding by
cardenolides that were applied to their preferred food plants. Consistent with the hypothesis of enhanced speciation after escape from herbivory, phylogenetic studies involving 128
Erysimum species indicate diversification in Eurasia between 0.5 and 2 million years ago, and in North America between 0.7 and 1.65 million years ago.) This evolutionarily rapid expansion of the
Erysimum genus has resulted in several hundred known species distributed throughout the northern hemisphere. == Ethnobotanical uses of
Erysimum ==