Search results for "Multitrophic interactions"

showing 10 items of 11 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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Differential performance of a specialist and two generalist herbivores and their parasitoids on Plantago lanceolata

2011

The ability to cope with plant defense chemicals differs between specialist and generalist species. In this study, we examined the effects of the concentration of the two main iridoid glycosides (IGs) in Plantago lanceolata, aucubin and catalpol, on the performance of a specialist and two generalist herbivores and their respective endoparasitoids. Development of the specialist herbivore Melitaea cinxia was unaffected by the total leaf IG concentration in its host plant. By contrast, the generalist herbivores Spodoptera exigua and Chrysodeixis chalcites showed delayed larval and pupal development on plant genotypes with high leaf IG concentrations, respectively. This result is in line with t…

0106 biological sciencesChrysodeixis chalcitesHyposoter didymatorIridoid GlucosidesSpodopteraGeneralist and specialist species010603 evolutionary biology01 natural sciencesMelitaea cinxiaBiochemistryArticlePheromonesParasitoidHost-Parasite InteractionsMultitrophic interactionsSpodoptera exiguaBotanyPlant defense against herbivoryCotesia marginiventrisAnimalsCotesia melitaearumPlantagoEcology Evolution Behavior and Systematics2. Zero hungerImmunocompromised hostHerbivorePlantagobiologyHost (biology)fungiIridoid glycosidesfood and beveragesGeneral MedicineFeeding Behaviorbiology.organism_classificationAdaptation PhysiologicalHymenopteraChrysodeixis chalcitesPlant Leaves010602 entomologyMelitaeaLarvaChemical defensePlants EdibleButterflies

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Hyperparasitoids exploit herbivore-induced plant volatiles during host location to assess host quality and non-host identity

2019

Although consumers often rely on chemical information to optimize their foraging strategies, it is poorly understood how top carnivores above the third trophic level find resources in heterogeneous environments. Hyperparasitoids are a common group of organisms in the fourth trophic level that lay their eggs in or on the body of other parasitoid hosts. Such top carnivores use herbivore-induced plant volatiles (HIPVs) to find caterpillars containing parasitoid host larvae. Hyperparasitoids forage in complex environments where hosts of different quality may be present alongside non-host parasitoid species, each of which can develop in multiple herbivore species. Because both the identity of th…

0106 biological sciencesFood ChainSDG 16 - PeaceForagingWaspsContext (language use)010603 evolutionary biology01 natural sciencesMultitrophic interactionParasitoidPlant-Microbe-Animal Interactions–Original ResearchHost-Parasite InteractionsHyperparasitoid foraging behaviorFourth trophic level organismsMultitrophic interactionsFourth trophic level organismButterflieAnimalsNon-host parasitoid specieHerbivoryLaboratory of EntomologyEcology Evolution Behavior and SystematicsTrophic levelPieris brassicaeHerbivorebiologyHost (biology)EcologyAnimal010604 marine biology & hydrobiologySDG 16 - Peace Justice and Strong InstitutionsnationalHost-Parasite Interactionbiology.organism_classificationCotesia glomerataPE&RCLaboratorium voor Entomologie/dk/atira/pure/sustainabledevelopmentgoals/peace_justice_and_strong_institutionsJustice and Strong InstitutionsPlant-based food webLarvaEPSButterfliesNon-host parasitoid speciesOecologia

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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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Arbuscular mycorrhizal fungi influence host infection during epidemics in a wild plant pathosystem

2022

SummaryWhile pathogenic and mutualistic microbes are ubiquitous across ecosystems and often co-occur within hosts, how they interact to determine patterns of disease in genetically diverse wild populations is unknown.To test whether microbial mutualists provide protection against pathogens, and whether this varies among host genotypes, we conducted a field experiment in three naturally-occurring epidemics of a fungal pathogen, Podosphaera plantaginis, infecting a host plant, Plantago lanceolata, in the Åland Islands, Finland. In each population, we collected epidemiological data on experimental plants from six allopatric populations that had been inoculated with a mixture of mutualistic arb…

DYNAMICS0106 biological scienceshärmätPhysiologyDIVERSITYPlant ScienceDisease01 natural sciencesLOCAL ADAPTATIONMycorrhizae1110 Plant ScienceGenotypemykorritsasienetDISEASE RESISTANCEkasvitauditheinäratamo11832 Microbiology and virology2. Zero hungerprotective symbiont0303 health scienceseducation.field_of_studyPlantagoPodosphaera plantaginisPlantsplant pathogenmycorrhizal fungitaudinaiheuttajatSusceptible individual590 Animals (Zoology)GenotypemutualismPopulationAllopatric speciationZoologyBiologyPATHOGEN METAPOPULATION010603 evolutionary biologyMULTITROPHIC INTERACTIONS10127 Institute of Evolutionary Biology and Environmental Studies03 medical and health sciencesPlantago lanceolataEcosystemSymbiosiseducationPlantagoEcosystemplant diseasemutualismi (biologia)030304 developmental biologyHost Microbial InteractionsHost (biology)INDUCED RESISTANCEFungi1314 Physiology15. Life on land11831 Plant biologybiology.organism_classificationEVOLUTIONhärmäsienetMICROBE-MICROBE INTERACTIONS570 Life sciences; biologyMicrobial Interactionspowdery mildewNew Phytologist

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The Ecology of Hyperparasitoids.

2021

Hyperparasitoids are some of the most diverse members of insect food webs. True hyperparasitoids parasitize the larvae of other parasitoids, reaching these larvae with their ovipositor through the herbivore that hosts the parasitoid larva. During pupation, primary parasitoids also may be attacked by pseudohyperparasitoids that lay their eggs on the parasitoid (pre)pupae. By attacking primary parasitoids, hyperparasitoids may affect herbivore population dynamics, and they have been identified as a major challenge in biological control. Over the past decades, research, especially on aphid- and caterpillar-associated hyperparasitoids, has revealed that hyperparasitoids challenge rules on nutri…

EntomologyFood ChainPopulationWaspsDuurzame gewasbeschermingBiologyInsect food webParasitoidHost-Parasite InteractionsMultitrophic interactionsAnimalsLaboratory of EntomologyeducationEcology Evolution Behavior and SystematicsTrophic leveleducation.field_of_studyHerbivoreAphidParasietenEcologyEcologyHost searching Hyperparasitoid Indirect interactions Insect food web Multitrophic interactions ParasitismIndirect interactionsHyperparasitoidbiology.organism_classificationPE&RCLaboratorium voor EntomologiePupaParasitismInsect ScienceLarvaHost searchingOvipositorEPSAnnual review of entomology

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Microbial symbionts of parasitoids

2020

Parasitoids depend on other insects for the development of their offspring. Their eggs are laid in or on a host insect that is consumed during juvenile development. Parasitoids harbor a diversity of microbial symbionts including viruses, bacteria, and fungi. In contrast to symbionts of herbivorous and hematophagous insects, parasitoid symbionts do not provide nutrients. Instead, they are involved in parasitoid reproduction, suppression of host immune responses, and manipulation of the behavior of herbivorous hosts. Moreover, recent research has shown that parasitoid symbionts such as polydnaviruses may also influence plant-mediated interactions among members of plant-associated communities…

Indirect interaction0106 biological sciencesInsectaInsect01 natural sciencesMultitrophic interactionParasitoidFood chainLaboratory of Entomologymedia_commonTrophic level0303 health sciencesbiologyEcologyMicrobiotaIndirect interactionsHost-Parasite Interactionfood and beveragesPE&RCParasitoid-host interactionPhenotypeDirect interactionVirusesDirect interactionsFood Chainanimal structuresmedia_common.quotation_subjectInsect-plant interactionZoology010603 evolutionary biologyHost-Parasite Interactions03 medical and health sciencesSymbiosisMultitrophic interactionsAnimalsSymbiosisEcology Evolution Behavior and Systematics030304 developmental biologyHerbivoreCommunityBacteriaViruseAnimalHost (biology)fungibiochemical phenomena metabolism and nutritionbiology.organism_classificationLaboratorium voor EntomologieInsect ScienceParasitoid-host interactionsInsect-plant interactionsbacteriaEPS

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Attraction of egg-killing parasitoids toward induced plant volatiles in a multi-herbivore context

2015

In response to insect herbivory, plants emit volatile organic compounds which may act as indirect plant defenses by attracting natural enemies of the attacking herbivore. In nature, plants are often attacked by multiple herbivores, but the majority of studies which have investigated indirect plant defenses to date have focused on the recruitment of different parasitoid species in a single-herbivore context. Here, we report our investigation on the attraction of egg parasitoids of lepidopteran hosts (Trichogramma brassicae and T. evanescens) toward plant volatiles induced by different insect herbivores in olfactometer bioassays. We used a system consisting of a native crucifer, Brassica nigr…

OIPVsWaspsPheromoneSpodopteraPheromonesMultitrophic interactionParasitoid foraging behaviourParasitoidHost-Parasite InteractionsMultitrophic interactionsVolatile Organic CompoundBotanyPlant defense against herbivoryButterflieIndirect plant defencesAnimalsHerbivoryLaboratory of EntomologyEcology Evolution Behavior and SystematicsOIPVOvumPieris brassicaeAphidVolatile Organic CompoundsbiologyHIPVEPS-2HIPVsAnimalMedicine (all)fungifood and beveragesHost-Parasite InteractionTrichogramma brassicaeFeeding BehaviorWaspLaboratorium voor Entomologiebiology.organism_classificationEcology Evolution Behavior and SystematicChemical ecologySettore AGR/11 - Entomologia Generale E ApplicataBrevicoryne brassicaeLarvaButterfliesTrichogrammaIndirect plant defenceMustard Plant

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Ecological role of mycotoxins in wheat crop residues and consequences on the multitrophic interactions in the soil and further development of Fusariu…

2009

Format du poster : 21 X 29,7; absent

[SDE.BE] Environmental Sciences/Biodiversity and Ecology[SDV.SA]Life Sciences [q-bio]/Agricultural sciences[ SDE.BE ] Environmental Sciences/Biodiversity and Ecology[SDV.SA] Life Sciences [q-bio]/Agricultural scienceswheat cropmultitrophic interactions in the soilconsequencesdevelopment of Fusarium graminearum[SDE.BE]Environmental Sciences/Biodiversity and Ecology[ SDV.SA ] Life Sciences [q-bio]/Agricultural sciencesecological role of mycotoxins

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