Insect Egg Deposition Induces Pinus Sylvestris to Attract Egg Parasitoids

Overview

Journal J Exp Biol

Specialty Biology

Date 2002 Mar 15

PMID 11893759

Citations 48

Authors

Monika Hilker

Carsten Kobs

Martti Varama

Kai Schrank

Affiliations

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Abstract

Plant volatiles released in response to feeding insects are known to attract enemies of the feeding herbivores. In this study, egg deposition by a herbivorous insect was shown to induce a gymnosperm plant to emit volatiles that attract egg parasitoids. Odour from twigs of Pinus sylvestris laden with egg masses of the pine sawfly Diprion pini attracts the eulophid egg parasitoid Chrysonotomyia ruforum. Volatiles released from pine twigs without diprionid eggs are not attractive. Oviposition by the sawfly onto pine needles induces not only a local response in pine needles laden with eggs but also a systemic reaction. Needles without eggs but adjacent to those bearing diprionid eggs also release the volatiles that attract the egg parasitoid. The elicitor of the attractive volatiles was shown to be present in the oviduct secretion coating the eggs of D. pini. When pine twigs are treated with jasmonic acid, a well-known plant wound signal, they emit volatiles that attract the egg parasitoid. These results show, for the first time, that a gymnosperm plant is able to attract parasitoids as soon as a herbivore has deposited its eggs on it. Thus, the plant appears to defend itself against herbivores prior to being damaged by feeding larvae.

Citing Articles

Sawfly Sex Pheromones: Analysis of Their Impact on Pine Odor Attractive to Egg Parasitoids.

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Chemotaxis response and age-stage, two-sex life table of the Cheilomenes sexmaculata (Fabricius) (Coccinellidae: Coleoptera) against different aphid species.

Safeer H, Ishfaq A, Mukhtar A, Batool M, Zaka S, Tajdar A PLoS One. 2024; 19(2):e0289682.

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The impact of insect egg deposition on Pinus sylvestris transcriptomic and phytohormonal responses to larval herbivory.

Hundacker J, Linda T, Hilker M, Lortzing V, Bittner N Tree Physiol. 2024; 44(2).

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Effect of Drought and Methyl Jasmonate Treatment on Primary and Secondary Isoprenoid Metabolites Derived from the MEP Pathway in the White Spruce .

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Insect eggs trigger systemic acquired resistance against a fungal and an oomycete pathogen.

Alfonso E, Stahl E, Glauser G, Bellani E, Raaymakers T, Van den Ackerveken G New Phytol. 2021; 232(6):2491-2505.

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