Atoosa Nikoukar

PhD Candidate in Entomology


Curriculum vitae



Southern Piedmont AREC

Virginia Tech

2375 Darvills Rd, Blackstone, VA 23824



Limoniic Acid and Its Analog as Trap Lures for Pest Limonius Species (Coleoptera: Elateridae) in North America


Journal article


W. V. van Herk, E. Lemke, G. Gries, R. Gries, Jacqueline M. Serrano, H. Catton, K. Wanner, P. Landolt, W. Cooper, S. Meers, Atoosa Nikoukar, Jocelyn L. Smith, S. Alamsetti, F. E. Etzler
Journal of Economic Entomology, 2021

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APA   Click to copy
van Herk, W. V., Lemke, E., Gries, G., Gries, R., Serrano, J. M., Catton, H., … Etzler, F. E. (2021). Limoniic Acid and Its Analog as Trap Lures for Pest Limonius Species (Coleoptera: Elateridae) in North America. Journal of Economic Entomology.


Chicago/Turabian   Click to copy
Herk, W. V. van, E. Lemke, G. Gries, R. Gries, Jacqueline M. Serrano, H. Catton, K. Wanner, et al. “Limoniic Acid and Its Analog as Trap Lures for Pest Limonius Species (Coleoptera: Elateridae) in North America.” Journal of Economic Entomology (2021).


MLA   Click to copy
van Herk, W. V., et al. “Limoniic Acid and Its Analog as Trap Lures for Pest Limonius Species (Coleoptera: Elateridae) in North America.” Journal of Economic Entomology, 2021.


BibTeX   Click to copy

@article{w2021a,
  title = {Limoniic Acid and Its Analog as Trap Lures for Pest Limonius Species (Coleoptera: Elateridae) in North America},
  year = {2021},
  journal = {Journal of Economic Entomology},
  author = {van Herk, W. V. and Lemke, E. and Gries, G. and Gries, R. and Serrano, Jacqueline M. and Catton, H. and Wanner, K. and Landolt, P. and Cooper, W. and Meers, S. and Nikoukar, Atoosa and Smith, Jocelyn L. and Alamsetti, S. and Etzler, F. E.}
}

Abstract

Abstract Four species of Limonius wireworms (Coleoptera: Elateridae), L. californicus, L. canus, L. infuscatus and L. agonus, are serious crop pests in North America. Limoniic acid, (E)-4-ethyloct-4-enoic acid, has been reported as a sex pheromone component of female L. californicus and L. canus, and a sex attractant for male L. infuscatus. In the same study, both limoniic acid and the analog (E)-5-ethyloct-4-enoic acid were highly attractive in field experiments. Moreover, six carboxylic acids in headspace volatiles of Limonius females elicited responses from male antennae but were not tested for behavioral activity. Here, we report trap catch data of Limonius spp. obtained in field experiments at 27 sites across North America. All four Limonius species were attracted to limoniic acid and to the analog but not to the carboxylic acids. Adding these carboxylic acids to limoniic acid, or to the analog, reduced its attractiveness. In dose–response studies, trap lures containing 0.4 mg or 4 mg of limoniic acid afforded large captures of L. californicus and L. infuscatus. Neither limoniic acid nor the analog were deterrent to other elaterid pest species. The broad attractiveness of limoniic acid to Limonius spp., and its non-deterrent effect on heterogeners, may facilitate the development of generic pheromone-based monitoring and management tools for multiple click beetle species.


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