Sex allocation and clutch size in the gregarious larval endoparasitoid wasp, Cotesia glomerata

The ability of the gregarious larval endoparasitoid Cotesia glomerata L. (Hymenoptera: Braconidae) to adjust progeny sex ratio and clutch size was investigated. The sex ratios (proportion of males) of field clusters were diverse, but many (70%) were female-biased. Nearly 10% yielded males only, suggesting a low percentage of unmated females in the field. In over half of the clusters containing females, the sex ratio was below 0.3. Superparasitism was common in the field, and females were believed to increase progeny sex ratio when attacking previously-parasitized hosts. However, in a single oviposition bout, sex allocation was not precisely controlled both in the field and laboratory. In the laboratory, the number of eggs laid in a day tended to decrease with increasing female age. For females which were offered two hosts per day and for those offered three hosts per day, this value became nearly the same several days after the start of oviposition. The total number of hosts which a female could parasitize during her lifetime was often less than 40. Some of the old females which attacked more than 40 hosts produced male-biased clutches; this was due to sperm depletion, because sperm remained viable throughout a female's lifetime. The amount of sperm used in a single oviposition bout seemed fixed and was not dependent on the number of eggs laid. Females with much oviposition experience did not produce new eggs to compensate for deposited eggs, and the efficiency of egg use (deposited eggs/total eggs) was more than 80%.     

Host suitability of the New World stalkborer Diatraea considerata for three Old World Cotesia parasitoids

Biological control ofstalkboring Lepidoptera often has beensuccessful when the braconid parasitoids in thegenera Cotesia and Apanteles werethe natural enemies of choice. Constraints inusing these gregarious, koinobiont,endoparasitoids have included host suitability,especially as influenced by the host's immuneresponse. The suitability of a novel host, theNew World stalkborer Diatraeaconsiderata (Lepidoptera:Pyralidae), for parasitization by three OldWorld braconids, Cotesia chilonis, C. flavipes and C. sesamiae (Hymenoptera: Braconidae), wascompared to the suitability of another NewWorld novel host, Diatraea saccharalis. D. considerata was less suitable for allthree parasitoids than was D.saccharalis. The frequent occurrence ofparasitized D. considerata larvae thatdid not yield parasitoids, or pupate within anappropriate time interval, suggestedencapsulation of the parasitoid progeny, whichwas visible through the host cuticle. Giventhe suitability results, these threeparasitoids would not be appropriate candidatesfor use against D. considerata. Theresults also have important implications forthe narrow host range expressed by theseparasitoids.     

Host selection and larval interactions among three primary parasitoids ofPlathypena scabra (Lep.: noctuidae)

Three hymenopteran parasitoids that attackPlathypena scabra (F.) larvae often oviposit into consecutive instars of the host. We investigated host discrimination by adults and competitive interactions among larvae of these three parasitoid species. Avoidance of superparasitism byCotesia marginiventris (Cresson) andDiolcogaster facetosa Ashmead was tested. Females of each species were presented either withP. scabra parasitized by a different female of the same species 6 h earlier or unparasitizedP. scabra. Under these conditions,C. marginiventris attacked similar numbers of parasitized and unparasitized hosts.D. facetosa attacked 31% fewer parasitized than unparasitizedP. scabra. The avoidance of multiple parasitism byD. facetosa was studied in a similar bioassay. AlthoughD. facetosa females parasitized fewerP. scabra that had been attacked byC. marginiventris 6 h previously, the reduction in parasitism was only about 23%. In competition studies, immatureD. facetosa were better competitors than immatureC. marginiventris. Aleiodes (=Rogas) nolophanae (Ashmead) was an inferior competitor against bothC. marginiventris andD. facetosa when the duration between parasitism events was 1 h, but their competitive ability increased when they multiply parasitized hosts at least 32 h after the initial oviposition.     

Impact of flowering buckwheat on Lepidopteran cabbage pests and their parasitoids at two spatial scales

We assessed the potential of annual buckwheat, Fagopyrum esculentum Moench, to lead to improved parasitism of lepidopteran cabbage pests over four years. Pest, parasitism, and hyperparasitism rates were monitored in replicated cabbage plots (12 × 20 m) with or without 3 m wide buckwheat borders from 2000 to 2003. Floral borders did not significantly increase egg, larval, or pupal densities of cabbage looper, Trichoplusia ni (Hübner), imported cabbageworm, Pieris rapae (L.), or diamondback moth, Plutella xylostella (L.). Buckwheat increased parasitism rates by Voria ruralis (Fallen) on T. ni larvae and Cotesia rubecula (Marshall) on P. rapaelarvae over four years. Parasitism by Diadegma insulare (Cresson) on P. xylostella larvae was higher in buckwheat than control plots in the first year, and parasitism by Euplectrus plathypenae (Howard) on T. ni larvae was lower in buckwheat than control plots in the second year. The hyperparasitoid Conura side (Walker) attacked D. insulare all four years, but buckwheat did not affect hyperparasitism rates. The effect of spatial scale on pest densities and parasitism in 2001 was evaluated by comparing plots separated at least 67 m (nearby) versus 800 m apart (isolated). T. ni pupae and P. rapae eggs and pupae were more abundant in plots in closer proximity, whereas P. xylostella densities did not vary by the spatial separation of plots. Tachinids and Pteromalus puparum (L.) attacked more P. rapae in nearby plots. E. plathypenae responded to the treatment × scale interaction, parasitizing more in control than buckwheat when plots were isolated but not when plots were nearby.     

Nectar exploitation by herbivores and their parasitoids is a function of flower species and relative humidity

In conservation biological control, diversification of the agro ecosystem with flowering vegetation is seen as an important tool to support the broad range of predators and parasitoids that require nectar and pollen sources to survive and reproduce. In order to identify flowering plants that provide suitable food sources for natural enemies without supporting the pest species, we analyzed the exploitation of 19 flowering plants by two important lepidopteran cabbage pests, Pieris rapae and Plutella xylostella, and their hymenopteran parasitoids, Cotesia glomerata and Diadegma semiclausum. The experiments were conducted at 90% r.h., while Pieris rapae was tested both at 45% r.h. and at 90% r.h. At 45 ± 5% r.h., corresponding with field conditions at which P. rapae is predominantly active, the butterfly was unable to feed on a number of exposed floral nectar sources whose nectar was successfully exploited at 90% r.h. The broader nectar exploitation by P. rapae at the high humidity is presumably explained by the resulting decrease in nectar viscosity. When comparing D. semiclausum and its herbivorous host P. xylostella, the herbivore exploited a broader range of plants. However, those plants that benefited both the parasitoid and the herbivore had a much stronger effect on the longevity of the parasitoid. The results from the accessibility bioassay suggest that flowers where nectar is not accessible can have a negative impact on insect survival presumably by stimulating foraging without providing accessible nectar. Our results underline the importance of considering species-specific environmental conditions when fine-tuning the choice of nectar sources to be used in conservation biological control programs.     

The influence of plant species on attraction and host acceptance inCotesia glomerata (Hymenoptera: Braconidae)

Females of the larval parasitoidCotesia glomerata (L.) use plant-associated cues to locate their lepidopteran host,Pieris rapae L. In this study we investigated the influence of four host plant species,Brassica oleracea var.acephala (‘Vates’ kale),Tropaeolum majus (nasturtium),Lunaria annua (honesty), andCleome spinosa (spider flower), on two components of the host selection process inC. glomerata, namely, attraction and host acceptance. Choice tests in a flight tunnel showed that parasitoids were attracted to some host plant species more than to others in the absence of host larvae.B. oleracea was the most attractive plant species, followed byL. annua, T. majus, andC. spinosa. In previous studies it was shown thatB. oleracea carries highly suitable hosts forC. glomerata and that, in the field, parasitization rates on this plant were the highest. When host larvae were reared on the four host plant species and then transferred to a common substrate (B. oleracea var.capitata, cabbage), plant species that had served as diet for the hosts did not have a significant effect on acceptance for parasitization. Thus, parasitoids were attracted to host plant species differentially, but they did not discriminate among host larvae based on the dietary history of their hosts. ForC. glomerata, it appears that phytochemistry mediates host selection more by influencing parasitoid attraction than it does by affecting host acceptance.     

Host discrimination by Cotesia = (Apanteles) glomerata parasitising Pieris brassicae

The extent to which the parasitoid Cotesia glomerata (L.) (Hymenoptera: Braconidae) discriminates between parasitised and unparasitised host larvae was tested by comparing the mean clutch sizes laid in thirty unparasitised and thirty parasitised two day-old Pieris brassicae (L.) (Lepidoptera:Pieridae) larvae. No eggs were laid in any of the previously-parasitised hosts. In contrast, eggs were laid in all but two of the unparasitised hosts. Most host-rejections involved only a brief insertion of the ovipositor, lasting two seconds or less. However, nearly a third occurred after a more prolonged insertion of the ovipositor, with a mean duration of twenty seconds: not significantly different from that of a normal oviposition.

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Résumé Cotesia glomerata (L.) (Hymenopteres: Braconidae) montre deux types de comportement associés à l'oviposition et à l'insertion dans des larves (Pieris brassicae (L.), Lepidoptères: Pieridae) hôtes. Dans le premier cas, il s'agit d'une longue insertion de l'ovipositeur d'une duree de cinq a vingt secondes d'habitude. Dans le second cas, on voit le comportement après une insertion de l'ovipositeur durant deux secondes ou moins. Chez les C. glomerata et chez les autres espèces parasitoides, la première catégorie de comportement a été interprétée comme pondaison (comportement ovipositif) quand à la seconde, elle a été définie comme rejet des hôtes préparasitisés (ou comportement exploratoire). Dans cette étude-ci, on a enregistré la réaction (ovipositive exploratoire) de six guêpes chacuner exposées alternativement à cinq larves parasitisées et à cinq larves non parasitisées âgées de deux jours, le nombre d'ufs pondus dans chacune etant déterminé par dissection. Les ufs pondus par les premières et deuxièmes femelles pouvaient être distinguées par leur grandeux et par leur apparence. Parmi les trente hôtes nonparasitisés initialement, vingt-huit furent parasitisés durant leur comportement ovipositif. On a exploré l'un trouvant qu'aucun uf n'avait été pondu. La guêpe avait montré un comportement ovipositif envers un autre hôte sans pondre d'uf. Aucun des trente hôtes parasitisés auparavant et qui furent réexposés n'avait été super parasitisé. On avait testé vingt et une hôte et la guêpe avait réagi ovipositivement à neuf d'entre eux sans pour autant pondre d'uf. Il n'y avait pas eu de différence marquante entre la durée moyenne d'un comportement ovipositif des guêpes s'attaquant à des hôtes non-parasitisés (lorsque des ufs avaient été pondus dans tous les cas sauf un) et par celles qui s'étaient attaquées à des hôtes parasitisés (alors qu'aucun uf n'avait été pondu).

     

Zombie fire ant workers: behavior controlled by decapitating fly parasitoids

Laboratory observations were conducted on four separate red imported fire ant, Solenopsis invicta, colonies that contained workers parasitized by the decapitating fly, Pseudacteon tricuspis. Parasitized S. invicta workers remained inside the nest during parasitoid larval development and left the nest approximately 8 – 10 hours before decapitation by the parasitoid. When parasitized ants left the nest, they were highly mobile, were responsive to tactile stimuli, and showed minimal defensive behavior. Ants ultimately entered into a grass thatch layer, where they were decapitated and the fly maggots pupariated. This study reveals that parasitized ants exhibit behaviors that are consistent with host manipulation to benefit survival of the parasitoid. Received 9 November 2006; revised 26 January 2007; accepted 7 February.     

Allocation of searching time within the soybean canopy by parasitoids attacking the green cloverworm

We examined the searching behavior of a guild of primary parasitoids which attack the green cloverworm,Plathypena scabra (Fabricius), as well as that of an associated hyperparasitoid. We hypothesized that self-superparasitism is an important constraint on the foraging behavior of primary parasitoids, and therefore these parasitoids should avoid portions of the soybean canopy where parasitized caterpillars accumulate. Conversely, we hypothesized that the hyperparasitoid preferentially searches parts of the canopy where parasitized caterpillars accumulate. In a greenhouse experiment, we found that exposure to parasitoids [eitherCotesia marginiventris (Cresson) orDiolcogaster facetosa Ashmead] resulted in the accumulation of caterpillars lower in the canopy. In a field experiment, we measured the amount of time parasitoids spent searching in each of three strata (upper, middle, bottom) of the soybean canopy. Leaf area in each stratum was used to calculate expected values for search effort. The time spent searching each of the strata was proportional to leaf area for all primary parasitoids, exceptD. facetosa, which spent significantly more time searching the top stratum of plants than predicted by leaf area in that stratum. The hyperparasitoidMesochorus discitergus (Say) tended to search the bottom stratum of the canopy. Thus only one of the three primary parasitoids appears to search in a manner that would reduce its rate of encounter with previously parasitized green cloverworms. The hyperparasitoid searching pattern may increase its probability of encountering parasitized caterpillars, thereby increasing its foraging success.     

Caryedon serratus and its parasitoids in the Savanna around Lamto,Ivory Coast

In the savanna around Lamto,Caryedon serratus develops, in the beginning of the dry season, on maturing seeds ofPiliostigma thonningii (Caesalpinioideae). A 2^nd generation, and sometimes a 3^nd one, develops in dry seeds. There is no pupal diapause during the rainy season and adults seems to spend this period in a semi-lethargic state. The parasitoid complex ofC. serratus is a chalcid-dominated one. It includes 5 species: one oophagous (Uscana caryedoni) and 4 larvo-nymphal parasitoids. Three species are regular (Anisopteromalus caryedophagus, Bracon sp. andU. caryedoni), the others are sporadic species (Proconura serratocida, Eurytoma caryedocida). Biological data are given for each species.      

Effects of oil droplets by Pieris caterpillars against generalist and specialist carnivores

Pieris rapae larvae secrete small oil droplets from their dorsal setae, which adhere to objects that touch them. The function of the droplets was studied in terms of both generalist and specialist predators. We tested the function of the droplets against ants under laboratory and field conditions. In the laboratory observation, Formica japonica ants that touched the larvae with their antennae initiated antennal cleaning and did not prey on the larvae. In the field, predation pressure by ants on larvae with oil droplets was significantly lower than on larvae from which oil droplets were removed. Thus, we concluded that the droplets had a defensive function. By contrast, oviposition by Cotesia glomerata, the specialist parasitic wasp of P. rapae larvae, was not affected by the presence of oil droplets. Furthermore, the wasps exhibited searching behavior and oviposition behavior towards filter paper which had been impregnated with the droplets substance, suggesting that the oil functions as a host-searching cue and an oviposition stimulant for C. glomerata. According to these results, the functions of the droplets are discussed with regard to the prey–predator interaction.     

15N-enrichment of plant tissue to mark phytophagous insects, associated parasitoids, and flower-visiting entomophaga

New techniques are presented on the use of ¹⁵N to mark insects. ¹⁵N, a stable isotope of nitrogen, was enriched above natural abundance in plant and insect tissues. Two laboratory studies demonstrated that enriched ¹⁵N-concentrations could be tracked from plant to insect using mass spectrometry. In the first study, adult Cotesia plutellae (Kurdjimov) (Hymenoptera: Braconidae) and Hippodamia convergens Guérin-Méneville (Coleoptera: Coccinellidae) were allowed to feed at the flowers of rapid-cycling Chinese cabbage plants that had been fertilized with ¹⁵N-enriched potassium nitrate (KNO₃-¹⁵NO₃). Both insect groups were found to have significantly elevated ¹⁵N levels after visiting the flowers of the ¹⁵N-enriched plants for 48 hours. In the second study, ¹⁵N-enriched bean plant (Phaseolus vulgaris L.) tissue was incorporated into an insect diet and fed to navel orangeworms, Amyelois transitella (Walker) (Lepidoptera: Pyralidae). When the navel orangeworm larvae were 4th instars, they were removed from the diet and exposed to the parasitoid, Goniozus legneri Gordh (Hymenoptera: Bethylidae). Results indicated that the enriched ¹⁵N-concentration of the bean plants was transferred to the navel orangeworms and, subsequently, to the parasitoids. This work may provide useful techniques to help establish whether agriculturally important entomophaga visiting ¹⁵N-enriched flowers or parasitizing enriched sentinel larvae in the field can be effectively marked with ¹⁵N.     

Response of the wasp (<Emphasis Type="Italic">Cotesia glomerata</Emphasis>) to larvae of the large white butterfly (<Emphasis Type="Italic">Pieris brassicae</Emphasis>)

The large white butterfly (Pieris brassicae L) first invaded northernmost Japan from Siberia around 1994, and after a few years, began to expand its range. The wasp, Cotesia glomerata (L) parasitizes larvae of the small white butterfly (Pieris rapae crucivora Boisduval), a usual host in the same geographic area. Some Pieris brassicae larvae in Hokkaido have been parasitized by Cotesia glomerata, but the parasitism rate of Pieris brassicae larvae tends to be lower than that of Pieris rapae. To examine the process of parasitizing Pieris brassicae larvae, we observed how the parasitoid wasp responded to the host larvae on damaged leaves. Cotesia glomerata females tended to avoid Pieris brassicae larvae, and even when female wasps inserted their ovipositors into Pieris brassicae larvae, none laid eggs. The parasitoids obtained from Pieris rapae larvae failed to parasitize Pieris brassicae during the host-acceptance step.     

Response of adult parasitoids ofBemisia tabaci (Hom.: Aleyrodidae) to leaf residues of selected cotton insecticides

The contact toxicity of eight insecticides to adults of four parasitoids of the sweetpotato whiteflyBemisia tabaci was evaluated in the laboratory. Two common Texas species,Eretmocerus sp. andEncarsia pergandiella Howard, and two exotic species,Eretmocerus mundus Mercet from Spain andEncarsia formosa Gahan from Greece were tested. Insecticides, applied as sprays to greenhouse-grown cotton plants at recommended rates were amitraz (Ovasyn^®), azinphosmethyl (Guthion^®), bifenthrin (Capture^®), buprofezin (Applaud^®), cypermethrin (Ammo^®), methyl parathion and thiodicarb (Larvin^®), with a water control. Parasitoid adults were confined on discs cut from leaves (1) sprayed the same day and (2) sprayed two days previously. Survival in both treatments was measured two and four days following exposure. Significant differences in toxicity were detected among the insecticides. Buprofezin was not toxic to any of the four parasitoids. When caged on leaves sprayed two days previously, only amitraz of the remaining compounds allowed significant general parasitoid survival after two days.E. mundus exhibited the greatest overall tolerance to insecticides, with 40% or more surviving 48 hr after confinement on leaves sprayed with amitraz, thiodicarb and cypermethrin. Survival was generally much reduced after 96 hr. In a separate test, fresh residues of endosulfan (Thiodan^®) were highly toxic at the two rates tested, but two day old residues at the lower rate allowed 76.7% survival ofE. mundus and 35% survival ofE. pergandiella after 48 hrs.     

Honeydew as a contact kairomone for aphid parasitoids

Aphidius rhopalosiphi De Stefani-Perez, four other primary parasitoids and three hyperparasitoids of cereal aphids responded to cereal aphid honeydew on filter paper discs by greatly increasing visit times. Both female and male parasitoids responded, females generally more strongly. A. rhopalosiphi females were shown to habituate to honeydew, and to dishabituate fully in 90 min. Their response increased with increasing concentrations of honeydew up to 0.25 mg/l, but no further increase was detected at 0.5 mg/l. The response did not occur when direct contact with the treated paper was prevented. A. rhopalosiphi responded to some honeydew from non-host aphids as strongly as to that from host aphids. A. rhopalosiphi responded to the honeydew produced by Metopolophium dirhodum (Walker) reared on artificial diet and to the diet itself as strongly as to honeydew from M. dirhodum reared on wheat. The response of A. rhopalosiphi to honeydew therefore appears not to be caused by specific plant chemicals in the honeydew, and is probably not caused by aphid-specific chemicals. The results are discussed in relation to host location by A. rhopalosiphi.

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Résumé Les parasitoïdes primaires de pucerons des céréales: Aphidius rhopalosiphi, A. picipes, A. ervi, Praon volucre et Ephedrus plagiator, ainsi que leurs hyperparasitoïdes, Dendrocerus carpenteri, Phaenoglyphis villosa et Alloxysta victrix ont réagi à du miellat de Sitobion avenae imbibant des disques de papier filtre, en prolongeant beaucoup leur temps de visite. Les femelles et les mâles ont réagi, mais les femelles généralement plus fortement. L'augmentation du temps de visite était probablement provoqué par la diminution de leur vitesse dans les zones traitées, leur tendance à séjourner dans ces zones et à y retourner après les avoir quittées.Les femelles de A. rhopalosiphi s'habituaient au miellat, mais s'en déshabituaient totalement en 90 minutes. Leurs réactions augmentaient avec la concentration en miellat jusqu'à 0,25 mg/l, sans qu'il y ait eu une nouvelle augmentation à 0,5 mg/l. La réaction était supprimée en absence de contact direct avec le papier. A. rhopalosiphi a repondu à quelques miellats produits par des non-hôtes aussi fortement qu'à celui de ses hôtes. A. rhopalosiphi a réagi au miellat produit par Metopolophium dirhodum, élevé sur milieu artificiel, et au milieu nutritiflui-même, aussi fortement qu'au miellat de M. dirhodum élevé sur du blé. Ainsi, la réponse d'A. rhopalosiphi à un miellat apparait comme n'étant pas due à la présence de substances chimiques spécifiques de plantes, ni, probablement, à des substances produites par les pucerons. Les résultats sont discutés en relation avec la localisation de l'hôte par A. rhopalosiphi.

     

The responses ofPraon spp. parasitoids to aphid sex pheromone components in the field

In autumn 1991, aphid parasitoids of the genusPraon (Hymenoptera; Braconidae) were caught in water traps with lures containing synthetic aphid sex pheromone components at three sites in England and one in Germany. At two of the English sites and at the German site, the traps were placed in winter cereal fields whilst the third English site was in woodland. Three species were caught,P. volucre, P. dorsale andP. abjectum. Those caught in cereal fields were almost entirelyP. volucre, whilstP. dorsale dominated at the woodland site. Of the known aphid sex pheromone components, the most effective lure was the (+)-(4aS, 7S, 7aR)-nepetalactone. Nepetalactone traps placed at the woodland site in spring and summer caught fewPraon females, and attraction may be confined to the autumn, when sexual female aphids are present in the field. Male parasitoids did not respond to the aphid pheromones at any time, although they were caught in suction traps operated at the woodland site during the autumn. At the cereal sites height had a significant influence on the efficiency of the pheromone traps, those placed just above the crop canopy being most effective. There was no evidence that any other genus of parasitoid responded to aphid sex pheromones at these sites.     

Genetic Variation in Behavioral Response to Herbivore-Infested Plants in the Parasitic Wasp, Cotesia glomerata (L.) (Hymenoptera: Braconidae)

Female Cotesia glomerata (L.) relies on stimuli from herbivore-infested plants to select suitable hosts, but behavioral response to such stimuli is highly variable among individuals. This study investigates a genetic component of phenotypic variability in both short-range host-search and long-range host-location behaviors in the tritrophic system consisting of cabbage plants (Brassica oleracea L.), cabbage butterfly (Pieris brassicae L.) and the parasitoid, by comparing full-sib families established from a laboratory population and isofemale strains from a field population. Short-range host-search behaviors were examined within a Petri-dish test arena, and long-range host-location behaviors assessed in a wind tunnel. Significant differences among full-sib families were shown in the duration of walking on a plant-herbivore complex (i.e., a leaf section with two host caterpillars, their silk and feces) and searching off the complex, and the total time elapsed for wasps to locate a host larva after release into the test arena. Flight responses to and landing choices between the intact and the herbivore-infested plants were also significantly different among these families. Effects of families on both short-range host-search and long-range host-location behaviors were consistent, without significant influences of host larvae from which wasps emerged. The analysis of isofemale strains reveals that strains account for significant variation in the oriented flight response to herbivore-infested plants, and the isofemale heritability for this behavioral character is estimated as 0.447. The results suggest that genetic variation exists at different behavioral levels of the host-selection process in this parasitoid.     

Competitive interaction between Cotesia kazak and Hyposoter didymator, exotic parasitoids of Heliothis armigera

Competitive interaction between two introduced parasitoids of Heliothis armigera (Hb.) i.e. the braconid Cotesia kazak Telenga and the ichneumonid Hyposoter didymator (Thunb.) was studied in the laboratory. C. kazak and H. didymator individually parasitized about 55% H. armigera larvae, the combination of the two parasitoids gave more than 75% parasitism. C. kazak was found to be more effective, when the host was exposed to both parasitoids at the same time, reduced H. didymator population by 69% to 24 h. It is, therefore, better to release these two parasitoids individually in different locations to avoid any possible competitive interaction between the two. No difference in developmental time was observed irrespective of parasitoid sequence.

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Résumé Les interactions liées à la compétition entre deux parasitoïdes introduits d'H. armigera, le braconide C. kazak et l'ichneumonide H. didymator ont été examinées au laboratoire pour évaluer leur efficacité dans la nature. Séparément, C. kazak et H. didymator ont parasité respectivement 55% et 58% des chenilles d'H. armigera, et en combinaison, par multiparasitisme, 75%. Dans toutes les combinaisons de superparasitisme, après 24 h d'exposition, C. kazak a réduit de plus de 69% l'action de H. didymator. En plus de la mortalité des hôtes liées au succès du parasitisme, une mortalité larvaire élevée (23%) a été observée dans les cas de multiparasitisme, contre 10% avec parasitisme par une espèce. Cependant, quelle que soit la combinaison, la durée de développement de chacune des espèces n'a pas été modifiée. Puisque H. didymator s'est révélé intrinsèquement inférieur, il est suggéré de la lâcher le premier. C. kazak est un parasitoïde valable pour des libérations, là où déplacement compétitif de l'autre parasite n'est pas réalisé ou délibérément nécessaire.