Intraspecific variation in plants plays a major role in the composition and diversity of the associated insect community. Resistance traits of plants are likely candidates mediating community composition. However, it is debated whether total concentrations of chemical compounds or specific compounds determine herbivore resistance, and how chemical diversity among plant genotypes in turn affects the composition of the associated herbivore community. To study the role of specific chemical compounds in affecting the herbivore community, we used cultivated Brassica oleracea. The cultivars differ qualitatively in glucosinolate profile, i.e., foliar composition of different glucosinolate compounds, and only a little in total concentration of gluc...
Glucosinolates present classical examples of plant compounds affecting insect-plant interactions. Th...
Like many other plants, chemical defence compounds are involved in the defense of Barbarea vulgaris ...
Glucosinolates are sulphur-containing secondary metabolites characteristic of Brassicaceous plants. ...
Intraspecific variation in plants plays a major role in the composition and diversity of the associa...
Co-evolutionary interactions between plants and herbivores are suggested to be the driving force beh...
Natural populations of wild cabbage (Brassica oleracea) show significant qualitative diversity in he...
Plants display a wide range of chemical defences that may differ in effectiveness against generalist...
Intraspecific plant diversity can modify the properties of associated arthropod communities and plan...
Plants have evolved a range of defence traits that prevent or reduce attack by insect herbivores. Di...
Relationships between two taxonomic kingdoms; plants and herbivorous insects, are hypothesized to be...
1. Arthropod communities are structured by complex interactions between bottom-up (resource-based) a...
Direct and indirect plant defences are well studied, particularly in the Brassicaceae. Glucosinolate...
Allocation of resources to growth and defense against herbivores crucially affects plant competitive...
Populations of wild Brassica oleracea L. grow naturally along the Atlantic coastlines of the United ...
Glucosinolates present classical examples of plant compounds affecting insect-plant interactions. Th...
Like many other plants, chemical defence compounds are involved in the defense of Barbarea vulgaris ...
Glucosinolates are sulphur-containing secondary metabolites characteristic of Brassicaceous plants. ...
Intraspecific variation in plants plays a major role in the composition and diversity of the associa...
Co-evolutionary interactions between plants and herbivores are suggested to be the driving force beh...
Natural populations of wild cabbage (Brassica oleracea) show significant qualitative diversity in he...
Plants display a wide range of chemical defences that may differ in effectiveness against generalist...
Intraspecific plant diversity can modify the properties of associated arthropod communities and plan...
Plants have evolved a range of defence traits that prevent or reduce attack by insect herbivores. Di...
Relationships between two taxonomic kingdoms; plants and herbivorous insects, are hypothesized to be...
1. Arthropod communities are structured by complex interactions between bottom-up (resource-based) a...
Direct and indirect plant defences are well studied, particularly in the Brassicaceae. Glucosinolate...
Allocation of resources to growth and defense against herbivores crucially affects plant competitive...
Populations of wild Brassica oleracea L. grow naturally along the Atlantic coastlines of the United ...
Glucosinolates present classical examples of plant compounds affecting insect-plant interactions. Th...
Like many other plants, chemical defence compounds are involved in the defense of Barbarea vulgaris ...
Glucosinolates are sulphur-containing secondary metabolites characteristic of Brassicaceous plants. ...