Sesquiterpene lactone stereochemistry influences herbivore resistance and plant fitness in the field
| Autor: | Kenneth D. Whitney, Jeffrey R. Ahern |
|---|---|
| Rok vydání: | 2013 |
| Předmět: |
Stereochemistry
Context (language use) Plant Science Biology Sesquiterpene lactone Sesquiterpene Host-Parasite Interactions Lactones chemistry.chemical_compound Botany Animals Herbivory ta116 chemistry.chemical_classification Herbivore Natural selection Chemotype Original Articles Asteraceae Xanthium biology.organism_classification Coleoptera Plant Leaves chemistry ta1181 Sesquiterpenes Lactone |
| Zdroj: | Annals of Botany. 113:731-740 |
| ISSN: | 1095-8290 0305-7364 |
| Popis: | †Background and Aims Stereochemical variation is widely known to influence the bioactivity of compounds in the context of pharmacology and pesticide science, but our understanding of its importance in mediating plant ‐herbivore interactions is limited, particularly in field settings. Similarly, sesquiterpene lactones are a broadly distributed class of putative defensive compounds, but little is known about their activities in the field. †Methods Natural variation in sesquiterpene lactones of the common cocklebur,Xanthiumstrumarium (Asteraceae), was used in conjunction with a series of common garden experiments to examine relationships between stereochemical variation, herbivore damage and plant fitness. †KeyResults The stereochemistry of sesquiterpene lactone ring junctions helped to explain variation in plant herbivore resistance. Plants producing cis-fused sesquiterpene lactones experienced significantly higher damage than plants producing trans-fused sesquiterpene lactones. Experiments manipulating herbivore damage above and below ambient levels found that herbivore damage was negatively correlated with plant fitness. This pattern translated into significant fitness differences between chemotypes under ambient levels of herbivore attack, but not when attack was experimentally reduced via pesticide. †Conclusions To our knowledge, this work represents only the second study to examine sesquiterpene lactones as defensive compounds in the field, the first to document herbivore-mediated natural selection on sesquiterpene lactone variation and the first to investigate the ecological significance of the stereochemistry of the lactone ring junction. The results indicate that subtle differences in stereochemistry may be a major determinant of the protective role of secondary metabolites and thus of plant fitness. As stereochemical variation is widespread in many groups of secondary metabolites, these findings suggest the possibility of dynamic evolutionary histories within the Asteraceae and other plant families showing extensive stereochemical variation. |
| Databáze: | OpenAIRE |
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