In Situ Modification of Herbivore-Induced Plant Odors: A Novel Approach to Study the Attractiveness of Volatile Organic Compounds to Parasitic Wasps

doi:10.1093/chemse/bji066

Chemical Senses Advance Access originally published online on October 21, 2005
Chemical Senses 2005 30(9):739-753; doi:10.1093/chemse/bji066

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In Situ Modification of Herbivore-Induced Plant Odors: A Novel Approach to Study the Attractiveness of Volatile Organic Compounds to Parasitic Wasps

Marco D'Alessandro and Ted C.J. Turlings

Laboratory of Evolutionary Entomology, Institute of Zoology, University of Neuchâtel, Case Postale 2, CH-2007 Neuchâtel, Switzerland

Correspondence to be sent to: Ted C.J. Turlings, Laboratory of Evolutionary Entomology, Institute of Zoology, University of Neuchâtel, Case Postale 2, CH-2007 Neuchâtel, Switzerland. e-mail: ted.turlings{at}unine.ch

Many parasitic wasps (parasitoids) exploit volatile organiccompounds (VOCs) emitted by herbivore-infested plants in orderto locate their hosts, but it remains largely unknown whichspecific compounds within the volatile blends elicit the attractivenessto parasitoids. One way of studying the importance of specificVOCs is to test the attractiveness of odor blends from whichcertain compounds have been emitted. We used this approach bytesting the attraction of naive and experienced females of thetwo parasitoids Cotesia marginiventris and Microplitis rufiventristo partially altered volatile blends of maize seedlings (Zeamays var. Delprim) infested with Spodoptera littoralis larvae.Adsorbing filter tubes containing carbotrap-C or silica wereinstalled in a four-arm olfactometer between the odor sourcevessels and the arms of the olfactometer. The blends breakingthrough were tested for chemical composition and attractivenessto the wasps. Carbotrap-C adsorbed most of the sesquiterpenes,but the breakthrough blend remained attractive to naive C. marginiventrisfemales. Silica adsorbed only some of the more polar VOCs, butthis essentially eliminated all attractiveness to naive C. marginiventris,implying that among the adsorbed compounds there are some thatplay key roles in the attraction. Unlike C. marginiventris,M. rufiventris was still attracted to the latter blend, showingthat parasitoids with a comparable biology may employ differentstrategies in their use of plant-provided cues to locate hosts.Results from similar experiments with modified odor blends ofcaterpillar-infested cowpea (Vigna unguiculata) indicate thatkey VOCs in different plant species vary greatly in qualityand/or quantity. Finally, experienced wasps were more stronglyattracted to a specific blend after they perceived the blendwhile ovipositing in a host. Considering the high number ofdistinct adsorbing materials available today, this in situ modificationof complex volatile blends provides a new and promising approachpinpointing on key attractants within these blends. Advantagesand disadvantages compared to other approaches are discussed.

Key words: host location, indirect plant defense, induced plant odors, olfactometer, parasitoids, tritrophic interactions

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