Sequestration of cucurbitacins from cucumber plants by Diabrotica balteata larvae provides little protection against biological control agents

Cucurbitaceae plants produce cucurbitacins, bitter triterpenoids, to protect themselves against various insects and pathogens. Adult banded cucumber beetles ( Diabrotica balteata ), a common pest of maize and cucurbits, sequester cucurbitacins, presumably as a defensive mechanism against their natur...

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Bibliographic Details
Published in:Journal of pest science 2023-06, Vol.96 (3), p.1061-1075
Main Authors: Bruno, Pamela, Arce, Carla C. M., Machado, Ricardo A. R., Besomi, Gaia, Spescha, Anna, Glauser, Gaétan, Jaccard, Charlyne, Benrey, Betty, Turlings, Ted C. J.
Format: Article
Language:English
Subjects:
Agriculture
Biological control
Biomedical and Life Sciences
Diabrotica balteata
Ecology
Entomology
Entomopathogenic nematodes
Forestry
Insects
Larvae
Larval development
Life Sciences
Natural enemies
Original Paper
Pathogens
Pest control
Plant breeding
Plant Pathology
Plant Sciences
Predators
Triterpenoids
Vegetables
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Summary:Cucurbitaceae plants produce cucurbitacins, bitter triterpenoids, to protect themselves against various insects and pathogens. Adult banded cucumber beetles ( Diabrotica balteata ), a common pest of maize and cucurbits, sequester cucurbitacins, presumably as a defensive mechanism against their natural enemies, which might reduce the efficacy of biological control agents. Whether the larvae also sequester and are protected by cucurbitacins is unclear. We profiled cucurbitacin levels in four varieties of cucumber, Cucumis sativus , and in larvae fed on these varieties. Then, we evaluated larval growth and resistance against common biocontrol organisms including insect predators, entomopathogenic nematodes, fungi and bacteria. We found considerable qualitative and quantitative differences in the cucurbitacin levels of the four cucumber varieties. While two varieties were fully impaired in their production, the other two accumulated high levels of cucurbitacins. We also observed that D. balteata larvae sequester and metabolize cucurbitacins, and although the larvae fed extensively on both belowground and aboveground tissues, the sequestered cucurbitacins were mainly derived from belowground tissues. Cucurbitacins had no detrimental effects on larval performance and, surprisingly, did not provide protection against any of the natural enemies evaluated. Our results show that D. balteata larvae can indeed sequester and transform cucurbitacins, but sequestered cucurbitacins do not impact the biocontrol potential of common natural enemies used in biocontrol. Hence, this plant trait should be conserved in plant breeding programs, as it has been demonstrated in previous studies that it can provide protection against plant pathogens and generalist insects.
ISSN:1612-4758
1612-4766
DOI:10.1007/s10340-022-01568-3