Methyl benzoate and nerolidol attract the cyclocephaline beetle Cyclocephala paraguayensis to trumpet flowers

Cyclocephaline beetles are flower visitors attracted primarily by major floral volatiles. Addressing the identity of these volatile compounds is pivotal for understanding the evolution of plant-beetle interactions. We report the identification and field testing of the attractant volatiles from trump...

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Bibliographic Details
Published in:Die Naturwissenschaften 2023-02, Vol.110 (1), p.3-3, Article 3
Main Authors: Favaris, Arodí P., Túler, Amanda C., Silva, Weliton D., Pec, Marvin, Rodrigues, Sérgio R., Maia, Artur C. D., Bento, José Maurício S.
Format: Article
Language:English
Subjects:
Allelochemicals
Animals
Beetles
Benzoates
Benzoic acid
Bioassays
Biomedical and Life Sciences
Brugmansia suaveolens
Coleoptera
Cyclocephala paraguayensis
Ecology
Environment
Eucalyptol
Flowers
Flowers & plants
Headspace
Life Sciences
Methyl benzoate
Myrcene
Nerolidol
Original Article
Pheromones
Plant reproduction
Plants (botany)
Solanaceae
VOCs
Volatile compounds
Volatile organic compounds
Volatiles
Volatility
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Summary:Cyclocephaline beetles are flower visitors attracted primarily by major floral volatiles. Addressing the identity of these volatile compounds is pivotal for understanding the evolution of plant-beetle interactions. We report the identification and field testing of the attractant volatiles from trumpet flowers,  Brugmansia suaveolens  (Willd.) Sweet (Solanaceae), for the beetle  Cyclocephala paraguayensis  Arrow (Melolonthidae: Dynastinae). Analysis of headspace floral volatiles revealed 19 compounds, from which eucalyptol (57%), methyl benzoate (16%), and β-myrcene (6%) were present in the largest amounts, whereas E -nerolidol in much lesser amounts (1.8%). During a first-field assay, traps baited with Mebe alone or blended with the other two major compounds attracted more beetles than myrcene and eucalyptol alone, which did not differ from the negative controls. In a second assay, Mebe and nerolidol attracted more beetles as a blend than individually. Nerolidol was more attractive than Mebe, and all treatments attracted more beetles than negative controls. The number of attracted beetles in the Mebe-nerolidol blend was greater than the combined sum of beetles attracted to these compounds alone, suggesting a synergistic interaction. The attraction of  C. paraguayensis  by trumpet-flower volatiles supports the beetle’s extended preference for sphingophilous plants, especially when cantharophilous (beetle-pollinated) flowers are lacking. This phenomenon, thus, might have contributed to the widespread occurrence of this beetle throughout the Brazilian biomes.
ISSN:0028-1042
1432-1904
DOI:10.1007/s00114-023-01831-2