A herbivore-induced plant volatile interferes with host plant and mate location in moths through suppression of olfactory signalling pathways

Hatano, Eduardo; Saveer, Ahmed M.; Borrero-Echeverry, Felipe; Strauch, Martin; Zakir, Ali; Bengtsson, Marie; Ignell, Rickard; Anderson, Peter; Becher, Paul G.; Witzgall, Peter; Dekker, Teun

Publikation:
A herbivore-induced plant volatile interferes with host plant and mate location in moths through suppression of olfactory signalling pathways

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Hatano_0-303152.pdfGröße: 1.91 MBDownloads: 703

Datum

2015

Autor:innen

Hatano, Eduardo

Saveer, Ahmed M.

Borrero-Echeverry, Felipe

Strauch, Martin

Zakir, Ali

Bengtsson, Marie

Ignell, Rickard

Anderson, Peter

Becher, Paul G.

Witzgall, Peter

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Open Access Gold

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Biologie: Publikationen

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BMC Biology. 2015, 13, 75. eISSN 1741-7007. Available under: doi: 10.1186/s12915-015-0188-3

Zusammenfassung

Background
Plants under herbivore attack release volatiles that attract natural enemies, and herbivores in turn avoid such plants. Whilst herbivore-induced plant volatile blends appeared to reduce the attractiveness of host plants to herbivores, the volatiles that are key in this process and particularly the way in which deterrence is coded in the olfactory system are largely unknown. Here we demonstrate that herbivore-induced cotton volatiles suppress orientation of the moth Spodoptera littoralis to host plants and mates.

Results
We found that (E)-4,8-dimethyl-1,3,7-nonatriene (DMNT), an induced volatile, is key in herbivore deterrence: DMNT suppressed plant odour- and pheromone-induced behaviours. We then dissected the neurophysiological basis of this interaction. DMNT-responding glomeruli were also activated by other plant compounds, suggesting that S. littoralis possesses no segregated olfactory circuit dedicated exclusively to DMNT. Instead, DMNT suppressed responses to the main pheromone component, (Z)-9-(E)-11-tetradecenyl acetate, and primarily to (Z)-3-hexenyl acetate, a host plant attractant.

Conclusion
Our study shows that olfactory sensory inhibition, which has previously been reported without reference to an animal’s ecology, can be at the core of coding of ecologically relevant odours. As DMNT attracts natural enemies and deters herbivores, it may be useful in the development or enhancement of push-pull strategies for sustainable agriculture.

Fachgebiet (DDC)

570 Biowissenschaften, Biologie

Schlagwörter

(E)-4,8-dimethyl-1,3,7-nonatriene, Herbivore-induced plant volatiles, Suppression, Antennal lobe, Spodoptera littoralis, Oviposition choice, Mating disruption, Olfaction, Orientation

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ISO 690

HATANO, Eduardo, Ahmed M. SAVEER, Felipe BORRERO-ECHEVERRY, Martin STRAUCH, Ali ZAKIR, Marie BENGTSSON, Rickard IGNELL, Peter ANDERSON, Paul G. BECHER, Peter WITZGALL, Teun DEKKER, 2015. A herbivore-induced plant volatile interferes with host plant and mate location in moths through suppression of olfactory signalling pathways. In: BMC Biology. 2015, 13, 75. eISSN 1741-7007. Available under: doi: 10.1186/s12915-015-0188-3

BibTex

@article{Hatano2015herbi-33279,
  year={2015},
  doi={10.1186/s12915-015-0188-3},
  title={A herbivore-induced plant volatile interferes with host plant and mate location in moths through suppression of olfactory signalling pathways},
  volume={13},
  journal={BMC Biology},
  author={Hatano, Eduardo and Saveer, Ahmed M. and Borrero-Echeverry, Felipe and Strauch, Martin and Zakir, Ali and Bengtsson, Marie and Ignell, Rickard and Anderson, Peter and Becher, Paul G. and Witzgall, Peter and Dekker, Teun},
  note={Article Number: 75}
}

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Publikation: A herbivore-induced plant volatile interferes with host plant and mate location in moths through suppression of olfactory signalling pathways

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Publikation:
A herbivore-induced plant volatile interferes with host plant and mate location in moths through suppression of olfactory signalling pathways