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« Previous AbstractInteractive Effects of an Herbivore-Induced Plant Volatile and Color on an Insect Community in Cranberry    Next Abstract"Molecular, biochemical, and organismal analyses of tomato plants simultaneously attacked by herbivores from two feeding guilds" »

J Chem Ecol


Title:"Herbivore-induced volatiles in the perennial shrub, Vaccinium corymbosum, and their role in inter-branch signaling"
Author(s):Rodriguez-Saona CR; Rodriguez-Saona LE; Frost CJ;
Address:"Department of Entomology, PE Marucci Blueberry and Cranberry Center, Rutgers University, Chatsworth, NJ 08019, USA. crodriguez@aesop.rutgers.edu"
Journal Title:J Chem Ecol
Year:2009
Volume:20090122
Issue:2
Page Number:163 - 175
DOI: 10.1007/s10886-008-9579-z
ISSN/ISBN:1573-1561 (Electronic) 0098-0331 (Linking)
Abstract:"Herbivore feeding activates plant defenses at the site of damage as well as systemically. Systemic defenses can be induced internally by signals transported via phloem or xylem, or externally transmitted by volatiles emitted from the damaged tissues. We investigated the role of herbivore-induced plant volatiles (HIPVs) in activating a defense response between branches in blueberry plants. Blueberries are perennial shrubs that grow by initiating adventitious shoots from a basal crown, which produce new lateral branches. This type of growth constrains vascular connections between shoots and branches within plants. While we found that leaves within a branch were highly connected, vascular connectivity was limited between branches within shoots and absent between branches from different shoots. Larval feeding by gypsy moth, exogenous methyl jasmonate, and mechanical damage differentially induced volatile emissions in blueberry plants, and there was a positive correlation between amount of insect damage and volatile emission rates. Herbivore damage did not affect systemic defense induction when we isolated systemic branches from external exposure to HIPVs. Thus, internal signals were not capable of triggering systemic defenses among branches. However, exposure of branches to HIPVs from an adjacent branch decreased larval consumption by 70% compared to those exposed to volatiles from undamaged branches. This reduction in leaf consumption did not result in decreased volatile emissions, indicating that leaves became more responsive to herbivory (or 'primed') after being exposed to HIPVs. Chemical profiles of leaves damaged by gypsy moth caterpillars, exposed to HIPVs, or non-damaged controls revealed that HIPV-exposed leaves had greater chemical similarities to damaged leaves than to control leaves. Insect-damaged leaves and young HIPV-exposed leaves had higher amounts of endogenous cis-jasmonic acid compared to undamaged and non-exposed leaves, respectively. Our results show that exposure to HIPVs triggered systemic induction of direct defenses against gypsy moth and primed volatile emissions, which can be an indirect defense. Blueberry plants appear to rely on HIPVs as external signals for inter-branch communication"
Keywords:Acetates/pharmacology/toxicity Animals Cyclopentanes/pharmacology/toxicity Gas Chromatography-Mass Spectrometry Larva Moths Oxylipins/pharmacology/toxicity Plant Growth Regulators/*metabolism Plant Leaves/drug effects/*metabolism Plant Physiological Pheno;
Notes:"MedlineRodriguez-Saona, Cesar R Rodriguez-Saona, Luis E Frost, Christopher J eng Research Support, U.S. Gov't, Non-P.H.S. 2009/01/23 J Chem Ecol. 2009 Feb; 35(2):163-75. doi: 10.1007/s10886-008-9579-z. Epub 2009 Jan 22"

 
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