Search results for "PLANT VOLATILES"

showing 10 items of 10 documents

Volatile-mediated foraging behaviour of three parasitoid species under conditions of dual insect herbivore attack

2016

Infochemicals play an important role in structuring intra-and interspecific interactions. Many parasitoid wasp species rely on herbivory or oviposition-induced plant volatiles (HIPVs/OIPVs) to locate their herbivorous hosts, and must cope with variation in the volatile blends due to factors such as plant/host species, herbivore density or attack by several herbivores. However, little is known about how dual herbivory or changes in herbivore density affect multiple parasitoid species, each attacking a different herbivore, in the same system. In a natural system, we investigated the effect of dual attack on the ability of three parasitoid species to differentiate between volatiles induced by …

0106 biological sciences010603 evolutionary biology01 natural sciencesMultitrophic interactionParasitoid waspParasitoidMultiple attackMultitrophic interactionsHerbivore-induced plant volatilesBotanyLaboratory of EntomologyEcology Evolution Behavior and Systematics016-3906Pieris brassicaeAphidbiologyDiaeretiella rapaeOviposition-induced plant volatilesHerbivore-induced plant volatileTrichogramma brassicaebiology.organism_classificationCotesia glomerataPE&RCLaboratorium voor EntomologieBiosystematiekSettore AGR/11 - Entomologia Generale E ApplicataBrevicoryne brassicaeIndirect defenceBiosystematicsAnimal Science and ZoologyEPS010606 plant biology & botany
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Symbiotic polydnavirus and venom reveal parasitoid to its hyperparasitoids

2018

Symbiotic relationships benefit organisms in utilization of new niches. In parasitoid wasps, symbiotic viruses and venom that are injected together with wasp eggs into the host caterpillar suppress immune responses of the host and enhance parasitoid survival. We found that the virus also has negative effects on offspring survival when placing these interactions in a community context. The virus and venom drive a chain of interactions that includes the herbivore and its food plant and attracts the hyperparasitoid enemies of the parasitoid. Our results shed new light on the importance of symbionts associated with their host in driving ecological interactions and highlight the intricacy of how…

0106 biological sciences0301 basic medicineWasps01 natural sciencesMultitrophic interactionParasitoidHerbivore-induced plant volatilesGene Expression Regulation PlantLaboratory of EntomologyTrophic levelPlant-mediatedLarvaMultidisciplinarybiologyPolydnavirusHerbivore-induced plant volatilePlantsBiological SciencesWaspPE&RCOrganische ChemieBiosystematiekInteraction networkinternationalLarvaSymbiosiButterfliesZoology010603 evolutionary biologyHost-Parasite Interactions03 medical and health sciencesMultitrophic interactionsSymbiosisButterflieAnimalsSymbiosisCaterpillarSalivaEcosystemHerbivoreParasitic waspVenomsHost (biology)AnimalOrganic ChemistryfungiPlantLaboratorium voor Entomologiebiology.organism_classificationVenom030104 developmental biologySettore AGR/11 - Entomologia Generale E ApplicataPolydnaviridaeHerbivoreBiosystematicsEPS
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Exploiting chemical ecology to manage hyperparasitoids in biological control of arthropod pests

2020

Abstract Insect hyperparasitoids are fourth trophic level organisms that commonly occur in terrestrial food webs, yet they are relatively understudied. These top‐carnivores can disrupt biological pest control by suppressing the populations of their parasitoid hosts, leading to pest outbreaks, especially in confined environments such as greenhouses where augmentative biological control is used. There is no effective eco‐friendly strategy that can be used to control hyperparasitoids. Recent advances in the chemical ecology of hyperparasitoid foraging behavior have opened opportunities for manipulating these top‐carnivores in such a way that biological pest control becomes more efficient. We p…

0106 biological sciencesIntegrated pest managementBiological pest controlReview01 natural sciencespush-pullhyperparasitoid foraginginfochemical-based strategieLaboratory of Entomology/dk/atira/pure/sustainabledevelopmentgoals/industry_innovation_and_infrastructureinfochemical‐based strategiesTrophic levelEcologyPlan_S-Compliant-TAParasietenEnvironmental resource managementherbivore‐induced plant volatilespush‐pullGeneral MedicineChemical ecologyfourth trophic level organismherbivore-induced plant volatileinternationalSDG 9 - IndustryFood ChainForagingDuurzame gewasbeschermingEarly detectionmultitrophic interactionsBiologyHost-Parasite InteractionsGeleedpotigenAnimalsmultitrophic interactionfourth trophic level organismsInnovationPest Control BiologicalArthropodsbusiness.industryherbivore-induced plant volatilesLaboratorium voor Entomologiebiology.organism_classification010602 entomologyInsect Scienceand InfrastructureSDG 9 - Industry Innovation and InfrastructurePEST analysisArthropodEPSinfochemical-based strategiesbusinessAgronomy and Crop Science010606 plant biology & botanyPest Management Science
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Prospects of herbivore egg-killing plant defenses for sustainable crop protection

2016

Abstract Due to a growing demand of food production worldwide, new strategies are suggested to allow for sustainable production of food with minimal effects on natural resources. A promising alternative to the application of chemical pesticides is the implementation of crops resistant to insect pests. Plants produce compounds that are harmful to a wide range of attackers, including insect pests; thus, exploitation of their natural defense system can be the key for the development of pest‐resistant crops. Interestingly, some plants possess a unique first line of defense that eliminates the enemy before it becomes destructive: egg‐killing. Insect eggs can trigger (1) direct defenses, mostly i…

0106 biological sciences[SDV]Life Sciences [q-bio]Biological pest controlReviewInsectphylogeny01 natural sciencesPlant defense against herbivoryLaboratory of EntomologyPhylogenyoviposition-induced plant volatilemedia_common2. Zero hungerEcologyegg parasitoidsOviposition-induced plant volatilesfood and beveragesEgg depositionBiosystematiekegg depositionEgg deposition; egg parasitoids; hypersensitive response; oviposition-induced plant volatiles; phylogeny; Ecology Evolution Behavior and Systematics; Ecology; Nature and Landscape ConservationHypersensitive responseegg parasitoidhypersensitive responsemedia_common.quotation_subjectReviewsoviposition‐induced plant volatilesBiology010603 evolutionary biologyprotection des plantesEgg parasitoidsEcology Evolution Behavior and Systematicsoviposition-induced plant volatilesNature and Landscape ConservationHerbivoreegg deposition;egg parasitoids;hypersensitive response;oviposition-induced plant volatiles;phylogenybusiness.industryfungiPesticideLaboratorium voor EntomologieEcology Evolution Behavior and SystematicCrop protectionSettore AGR/11 - Entomologia Generale E ApplicataAgronomySustainabilityoeuf d'insecteFood processingBiosystematicsEPSbusiness010606 plant biology & botany
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An invasive insect herbivore disrupts plant volatile-mediated tritrophic signalling

2017

Plants respond to insect attack by emission of volatile organic compounds, which recruit natural enemies of the attacking herbivore, constituting an indirect plant defence strategy. In this context, the egg parasitoid Trissolcus basalis is attracted by oviposition-induced plant volatiles emitted by Vicia faba plants as a consequence of feeding and oviposition by the pentatomid host Nezara viridula. However, this local tritrophic web could be affected by the recent invasion by the alien pentatomid bug Halyomorpha halys, an herbivore that shares the same environments as native pentatomid pests. Therefore, we investigated in laboratory conditions the possible impact of H. halys on the plant vo…

0106 biological sciencesmedia_common.quotation_subjectForagingHalyomorpha halys; Insect invasion; Multiple attack; Oviposition-induced plant volatiles; Trissolcus basalisContext (language use)InsectInsect invasion010603 evolutionary biology01 natural sciencesParasitoidMultiple attackSemiochemicalHalyomorpha halysTrissolcus basalismedia_commonOriginal PaperHerbivorebiologyHost (biology)EcologyOviposition-induced plant volatileOviposition-induced plant volatilesTrissolcus basalibiology.organism_classificationHalyomorpha halys; Insect invasion; Multiple attack; Oviposition-induced plant volatiles; Trissolcus basalis; Agronomy and Crop Science010602 entomologyHalyomorpha halySettore AGR/11 - Entomologia Generale E ApplicataNezara viridulaAgronomy and Crop Science
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An Egg Parasitoid Efficiently Exploits Cues From a Coevolved Host But Not Those From a Novel Host

2019

Egg parasitoids have evolved adaptations to exploit host-associated cues, especially oviposition-induced plant volatiles and odors of gravid females, when foraging for hosts. The entire host selection process is critical for successful parasitism and relevant in defining host specificity of parasitoids. We hypothesized that naïve egg parasitoid females reared on their coevolved host are able to exploit cues related to the coevolved host but not those from a novel host. We used the egg parasitoid Trissolcus japonicus, its coevolved host Halyomorpha halys, and the non-coevolved host Podisus maculiventris to evaluate this hypothesis. H. halys, a polyphagous pest native from Eastern Asia, has i…

0106 biological sciencespredatorPhysiologyForagingBiological pest controlParasitismZoologybiological controlBiology010603 evolutionary biology01 natural scienceslcsh:PhysiologyParasitoidinvasive speciesPodisus maculiventrisHerbivore induced plant volatilesTrissolcus japonicusPhysiology (medical)Halyomorpha halysPredatorOriginal Researchlcsh:QP1-981Host (biology)fungiBiological control; Halyomorpha halys; Herbivore induced plant volatiles; Invasive species; Podisus maculiventris; Predator; Trissolcus japonicusherbivore-induced plant volatilesbiology.organism_classification010602 entomologyOlfactometerPEST analysisFrontiers in Physiology
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Nectar-Inhabiting Bacteria Affect Olfactory Responses of an Insect Parasitoid by Altering Nectar Odors

2022

AbstractFloral nectar is ubiquitously colonized by a variety of microorganisms among which yeasts and bacteria are the most common. Microorganisms inhabiting floral nectar can alter several nectar traits, including nectar odor by producing microbial volatile organic compounds (mVOCs). Evidence showing that mVOCs can affect the foraging behavior of insect pollinators is increasing in the literature, whereas the role of mVOCs in altering the foraging behavior of third-trophic level organisms such as insect parasitoids is largely overlooked. Parasitoids are frequent visitors of flowers and are well known to feed on nectar. In this study, we isolated bacteria inhabiting floral nectar of buckwhe…

Science & TechnologyPESTSEcologyDIVERSITYSoil ScienceParasitoid foraging behaviorEnvironmental Sciences & EcologyATTRACTIONWILDMicrobiologyPLANT VOLATILESFLORAL NECTARNectar-associated microbeMarine & Freshwater BiologyHABITAT MANAGEMENTFLOWERConservation biological controlFagopyrum esculentumLife Sciences & BiomedicineTrissolcus basalisBIOLOGICAL-CONTROLEcology Evolution Behavior and SystematicsNectar-associated microbes
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Integrating natural enemies and semiochemicals in cultural control for an effective IPM

2012

Since their discovery, many semiochemicals (behavior modifying chemicals) have been identified and synthetized, and a number of techniques have been developed to use them in integrated pest management (IPM) programs against insect pests. In particular, the uses of semiochemicals in IPM to monitor insect pest populations and to interfere with their behavior preventing agricultural damage are widely adopted by the growers. In the same time, evidences that semiochemicals can also modify the behavior of insect natural enemies inspired researchers to explore the possibility to use semiochemicals to conserve and/or enhance the efficacy of natural enemies in cropping systems. However the use of se…

Settore AGR/11 - Entomologia Generale E ApplicataHymenoptera parasitoid tri-trophic interactions herbivore-induced plant volatiles
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Data from: Symbiotic polydnavirus and venom reveal parasitoid to its hyperparasitoids

2018

Symbiotic relationships may provide organisms with key innovations that aid in the establishment of new niches. For example, during oviposition, some species of parasitoid wasps, whose larvae develop inside the bodies of other insects, inject polydnaviruses into their hosts. These symbiotic viruses disrupt host immune responses, allowing the parasitoid’s progeny to survive. Here, we show that symbiotic polydnaviruses also have a downside to the parasitoid’s progeny by initiating a multi-trophic chain of interactions that reveals the parasitoid larvae to their enemies. These enemies are hyperparasitoids that use the parasitoid progeny as host for their own offspring. We found that the virus …

herbivore salivafungiLife Sciencesmultitrophic interactionsPieris brassicaeherbivore-induced plant volatilesparasitic waspPE&RCLaboratorium voor EntomologieLysibia nanaBiosystematiekmedicine and health careBiosystematicsMedicineBrassica oleraceaEPSLaboratory of EntomologyCotesia glomerataplant-mediated interaction network
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Editorial: Chemical Ecology and Conservation Biological Control

2022

International audience

semiochemicalsEcologyEvolutionQH359-425[SDE.BE]Environmental Sciences/Biodiversity and Ecologynatural enemiesherbivore-induced plant volatilesEcology Evolution Behavior and SystematicsQH540-549.5methyl salicylateagricultureFrontiers in Ecology and Evolution
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