Search results for "Tritrophic interaction"

showing 9 items of 9 documents

Influence of Feeding and Oviposition by Phytophagous Pentatomids on Photosynthesis of Herbaceous Plants

2010

Abstract Feeding by herbivorous insects may change photosynthetic activity of host plants. We studied how feeding and oviposition by herbivorous stink bugs, Murgantia histrionica and Nezara viridula (Heteroptera: Pentatomidae), affect photosynthetic parameters of Brassica oleracea (savoy cabbage) and Phaseolus vulgaris (French bean). First, we measured photosynthetic gas exchange, chlorophyll fluorescence imaging, and emission of induced volatile organic compounds (VOC) immediately after feeding and during a post-feeding period. Photosynthesis decreased rapidly and substantially in B. oleracea and P. vulgaris infested by feeding bugs. Stomatal conductance did not decrease proportionally wit…

ChlorophyllStomatal conductanceTime FactorsOvipositionBrassicaBiologyPhotosynthesisBiochemistryGas Chromatography-Mass SpectrometryHost-Parasite InteractionsHeteropteraTritrophic interactionschemistry.chemical_compoundPhotosynthesifoodPentatomidaeparasitic diseasesBotanyAnimalsPhotosynthesisChlorophyll fluorescenceEcology Evolution Behavior and SystematicsPhaseolusMurgantia histrionicaVolatile Organic CompoundsTerpenesFeedingSavoy cabbagefungiGreen leaf volatilesNezara viridulaFeeding BehaviorGeneral MedicinePentatomidaebiology.organism_classificationfood.foodPlant LeavesHeteroptera; Pentatomidae; Murgantia histrionica; Nezara viridula; Feeding; Oviposition; Photosynthesis; Tritrophic interactionsSettore AGR/11 - Entomologia Generale E ApplicatachemistryNezara viridulaChlorophyllFemaleSesquiterpenesJournal of Chemical Ecology

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Attraction of Trichogramma Wasps to Butterfly Oviposition-Induced Plant Volatiles Depends on Brassica Species, Wasp Strain and Leaf Necrosis

2021

Within the Brassicaceae, wild as well as crop species are challenged by specialist herbivores including cabbage white butterflies (Pieris spp.). The wild crucifer Brassica nigra responds to oviposition by Pieris butterflies by the synergistic expression of two egg-killing traits. Genotypes that express a hypersensitive response (HR)-like necrosis (direct egg-killing) also emit oviposition-induced plant volatiles (OIPVs) attracting Trichogramma egg parasitoids (indirect egg-killing). This so-called double defense line can result in high butterfly egg mortalities. It remains unknown whether this strategy is unique to B. nigra or more common in Brassica species. To test this, we examined the r…

0106 biological scienceshypersensitive responseEvolutionBrassicaTrichogramma evanescens010603 evolutionary biology01 natural sciencesParasitoidBrassica rapaBotanyQH359-425Laboratory of EntomologyQH540-549.5Ecology Evolution Behavior and SystematicsEcologybiologyegg parasitoidshost locationtritrophic interactionsfungifood and beveragesPierisbiology.organism_classificationPE&RCLaboratorium voor EntomologieAttractionBiosystematiekPlant BreedingPieris (butterfly)egg parasitoidBrassica oleraceaBiosystematicsindirect defensePieriTrichogramma010606 plant biology & botanyFrontiers in Ecology and Evolution

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Parasitic wasp-associated symbiont affects plant-mediated species interactions between herbivores

2018

Abstract Microbial mutualistic symbiosis is increasingly recognised as a hidden driving force in the ecology of plant–insect interactions. Although plant-associated and herbivore-associated symbionts clearly affect interactions between plants and herbivores, the effects of symbionts associated with higher trophic levels has been largely overlooked. At the third-trophic level, parasitic wasps are a common group of insects that can inject symbiotic viruses (polydnaviruses) and venom into their herbivorous hosts to support parasitoid offspring development. Here, we show that such third-trophic level symbionts act in combination with venom to affect plant-mediated interactions by reducing colon…

0301 basic medicineHerbivore colonisationInsecta[SDV]Life Sciences [q-bio]tritrophic interactionWaspsVenomParasitoidchenilleLaboratory of EntomologyTrophic levelbiologyEcologyPolydnavirusHost-Parasite Interactionfood and beveragesplant–insect interactionsHerbivore colonisation parasitoid plant–insect interactions polydnaviruses tritrophic interactionsPE&RCsymbiosisParasiteinternationalpolydnaviruse[SDE]Environmental Sciencespolydnavirussymbioseécologie des populationsinteraction plante insecteherbivoreplant–insect interactionHost-Parasite Interactions03 medical and health sciencesSymbiosisAnimalsParasitesHerbivoryguêpeCaterpillarparasitoidEcology Evolution Behavior and SystematicsHerbivoreAnimaltritrophic interactionsfungi15. Life on landplant-insect interactionsLaboratorium voor Entomologiebiology.organism_classificationplant insect interactionherbivore colonisationpolydnavirusesColonisationSettore AGR/11 - Entomologia Generale E Applicata030104 developmental biologycaterpillarEPS

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Effect of the host plant on the immunity of a phytophagous insect : influence of grape variety on the ability of the European grapevine moth to defen…

2013

In tritrophic interactions involving phytophagous insects, host plants and natural enemies, trophic levels are highly dependent on each other. Host plant may strongly affect directly phytophagous insect and indirectly natural enemies growing on these phytophagous insects. When a natural enemy attacks a phytophagous insect, the host immune system constitutes the last chance for the host to survive to an infection. A great variation of insect immune system is generally found in populations for susceptibility to pathogens, suggesting that variable selection pressures may have shaped and driven adaptation of immune traits. This project aims to determine the influence of both host plant and natu…

Succès de parasitismeGrape varietiesLocal immune selectionGrapevine mothImmune trade-offInteractions tri-trophiquesTordeuses de la vignePhenotypic plasticityAdaptation locale[SDE.BE] Environmental Sciences/Biodiversity and EcologyTritrophic interactionsCompromis immunitaireSystème immunitaire des insectesCépage de vigneSuccessful parasitismPlasticité phénotypiqueInsect immune system

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Survival relative to new and ancestral host plants, phytoplasma infection, and genetic constitution in host races of a polyphagous insect disease vec…

2014

Dissemination of vectorborne diseases depends strongly on the vector's host range and the pathogen's reservoir range. Because vectors interact with pathogens, the direction and strength of a vector's host shift is vital for understanding epidemiology and is embedded in the framework of ecological specialization. This study investigates survival in host-race evolution of a polyphagous insect disease vector, Hyalesthes obsoletus, whether survival is related to the direction of the host shift (from field bindweed to stinging nettle), the interaction with plant-specific strains of obligate vectored pathogens/symbionts (stolbur phytoplasma), and whether survival is related to genetic differentia…

Geneticsstolbur phytoplasmaEcologyObligateHost (biology)tritrophic interactionAssortative matingBiologybiology.organism_classificationmicrosatelliteshost-race evolutionRace (biology)PhytoplasmaGene–behavior interactionVector (epidemiology)Hyalesthes obsoletusPathogenEcology Evolution Behavior and SystematicsOriginal ResearchNature and Landscape ConservationMaladaptationEcology and Evolution

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Should grape moth larval immunity help explaining resistance against natural enemies?

2011

National audience; In tritrophic systems (plants, phytophagous insects and natural enemies), host plant variation often keys the relative performance of both the herbivore and its associated natural enemies. In bottom-up effects, host plants could affect the fitness of phytophagous insects including growth rate and adult fertility. These effects are indirectly reflected in parasitoids whose success depends on their host quality. For instance, nutrient deficiency or/and toxic defensive compounds of the plants could slow-down the development of herbivorous insects, thus extending the window of vulnerability of attacks by natural enemies. The immune system is arguably the most common resistanc…

[SDE.BE] Environmental Sciences/Biodiversity and Ecology[SDV] Life Sciences [q-bio][ SDE.BE ] Environmental Sciences/Biodiversity and Ecology[ SDV.MP.PAR ] Life Sciences [q-bio]/Microbiology and Parasitology/Parasitology[SDV]Life Sciences [q-bio]fungi[ SDV.EE.IEO ] Life Sciences [q-bio]/Ecology environment/Symbiosis[SDV.MP.PAR]Life Sciences [q-bio]/Microbiology and Parasitology/Parasitology[SDV.EE.IEO] Life Sciences [q-bio]/Ecology environment/Symbiosis[SDE.BE]Environmental Sciences/Biodiversity and Ecology[SDV.MP.PAR] Life Sciences [q-bio]/Microbiology and Parasitology/Parasitologygrapevine grapevine moth insect immune system tritrophic interactions[SDV.EE.IEO]Life Sciences [q-bio]/Ecology environment/Symbiosis

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Host plant cultivar of the grapevine moth Lobesia botrana affects the life history traits of an egg parasitoid.

2009

6 pages; International audience; The quality and susceptibility of insect eggs for egg parasitoids may be affected by the diet experienced by the females that produce the host eggs. We tested the hypothesis that the host plant fed upon by an herbivore during the larval stages will determine the quality of the eggs laid by the adult for an egg parasitoid. We used the tritrophic system comprising five grape cultivars, the European grapevine moth, Lobesia botrana and the parasitoid Trichogramma evanescens. Parasitoid performance in host eggs of different sizes and originating from five grape cultivars was determined. Overall, egg parasitism was higher on cultivars on which L. botrana laid larg…

[ SDV.MP.PAR ] Life Sciences [q-bio]/Microbiology and Parasitology/ParasitologyTrichogramma evanescensParasitismLobesia botranaParasitoidLobesia botranaBotany[ SDV.EE.IEO ] Life Sciences [q-bio]/Ecology environment/Symbiosis[SDV.MP.PAR]Life Sciences [q-bio]/Microbiology and Parasitology/ParasitologyCultivarHost sizeEgg parasitoidLarvabiologyHost (biology)fungifood and beveragesbiology.organism_classificationTritrophic interactionHorticultureHost plant qualityTrichogramma evanescensInsect Scienceembryonic structuresAgronomy and Crop ScienceTrichogramma[SDV.EE.IEO]Life Sciences [q-bio]/Ecology environment/Symbiosis

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Data from: Survival relative to new and ancestral host plants, phytoplasma infection and genetic constitution in host races of a polyphagous insect d…

2015

Candidatus Phytoplasma solanimedicine and health carestolbur phytoplasmaConvolvulus arvensistritrophic interactionHyalesthes obsoletusMedicineUrtica dioicahost race evolutionLife sciencesgene-behaviour interaction

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Data from: Parasitic wasp-associated symbiont affects plant-mediated species interactions between herbivores

2018

Microbial mutualistic symbiosis is increasingly recognised as a hidden driving force in the ecology of plant–insect interactions. Although plant‐associated and herbivore‐associated symbionts clearly affect interactions between plants and herbivores, the effects of symbionts associated with higher trophic levels has been largely overlooked. At the third‐trophic level, parasitic wasps are a common group of insects that can inject symbiotic viruses (polydnaviruses) and venom into their herbivorous hosts to support parasitoid offspring development. Here, we show that such third‐trophic level symbionts act in combination with venom to affect plant‐mediated interactions by reducing colonisation o…

tritrophic interactionsfungifood and beveragesPieris brassicaeplant-insect interactionsPE&RCLaboratorium voor EntomologieLife sciencespolydnavirusesmedicine and health careCgBVherbivore colonizationMedicineBrassica oleraceaPlutella xylostellaEPSLaboratory of EntomologyCotesia glomerataparasitoid

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