Search results for "Cotesia glomerata"

showing 6 items of 6 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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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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Performance of secondary parasitoids on chemically defended and undefended hosts

2012

Defensive chemicals produced by plants can travel up the food chain by being sequestered by herbivores, and then in turn being sequestered by their parasitoids. Insect species with wide host ranges are predicted to perform poorly in the face of specific chemical defence. However, a species at a high trophic level is expected to have a wide host range. This creates a conflict for hyperparasitoids, many of which depend on specialized hosts. We studied the performance of two hyperparasitoids, Lysibia nana and Gelis agilis, both of which have wide host ranges, on two host species, one chemically defended and the other not. We predicted that both hyperparasitoids would perform better using the u…

0106 biological sciencesIridoid GlycosidesHerbivoreHost (biology)BiologyGeneralist and specialist speciesCotesia glomeratabiology.organism_classification010603 evolutionary biology01 natural sciences010602 entomologychemistry.chemical_compoundchemistryinternationalBotanyta1181Ecology Evolution Behavior and SystematicsAllelopathyAucubinTrophic levelBasic and Applied Ecology
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Intraspecific Variation of Host Plant and Locality Influence the Lepidopteran-Parasitoid System of <I>Brassica oleracea</I> Crops

2013

ABSTRACT The aim of the study was to investigate the attractiveness to herbivores and parasitoids of two cultivars of Brassica oleracea L., namely, B. oleracea variety acephala (kale) and B. oleracea variety capitata (cabbage), that exhibit differences of morphological and biochemical traits. To this end, field samplings were replicated at seven localities in Galicia (northwestern Spain). Three specialist and three generalist lepidopteran species were sampled. In total, 7,050 parasitoids were obtained, belonging to 18 genera and 22 species. The results showed that 1) parasitism rate and parasitoid species richness changed with locality and was higher in cabbage, although this crop had lower…

EcologybiologyBiological pest controlGeneral MedicineHymenopteraGeneralist and specialist speciesbiology.organism_classificationCotesia glomerataParasitoidInsect ScienceBotanyBrassica oleraceaBraconidaeScelionidaeJournal of Economic Entomology
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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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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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