Orientation of Heterorhabditis megidis to insect hosts and plant roots in a Y-tube sand olfactometer

The host-searching behaviour of Heterorhabditis megidis strain NLH-E 87.3 in the presence of insect hosts and plant roots, offered individually and in combination, was studied using a newly developed Y-tube olfactometer filled with sand. Within a period of 24 hours infective juveniles (IJs) were significantly attracted to living G. mellonella larvae and caused 100% larval mortality. Otiorhynchus sulcatus larvae, however, did not elicit host-oriented movement of IJs and no larval mortality was observed. Roots of strawberry plants induced a negative response in IJs. The combination of strawberry roots and O. sulcatus larvae, however, strongly attracted IJs leading to 37% host mortality. It was shown that this type of Y-tube choice arena is a useful tool in studying the searching behaviour of entomopathogenic nematodes in a semi-natural habitat.     

Influences of host size and host species on theinfectivity and development of Heterorhabditismegidis (strain NLH-E87.3)

The infectivity, time to first emergence of infective juveniles (IJs), total number of IJs per insect and IJs body length of the entomopathogenic nematode Heterorhabditis megidis (strain NLH-E87.3) after development in larvae of two insect hosts, Galleria mellonella (greater wax moth) and Otiorhynchus sulcatus (vine weevil) was studied. At a dose of 30 IJs, larvae of G. mellonella show to be significantly more susceptible than O. sulcatus larvae. At a dose of one IJ, vine weevil larvae were more susceptible. The number of invading infective juveniles (IJs) increased with host size while the host mortality at a dose of one IJ decreased with the increase of host size. Time to first emergence was longer at a dose of one IJ per larva and increased with the increase of host size in both insect species. Reproduction of IJs differed between host species, host sizes and doses of nematodes. Generally, the IJs body size increased with an increasing host size. The longest infective juveniles were produced at the lowest IJ doses. Results are discussed in relation to the influence of different host species and their different sizes on the performance of H. megidis (strain NLH-E87.3) as a biological control agent.     

Coccidia (Protozoa: Eimeriidae) of the Alpaca Lama pacos*

SYNOPSIS. Three new species of coccidia are described from the alpaca Lama pacos from Peru. These are the first species of coccidia to be named from this host. The oocysts of Eimeria lamae n. sp. are ellipsoidal, occasionally ovoid, 30–40 by 21–30 μ (mean 35.6 by 24.5 μ) with elongate ovoid sporocysts 13–16 by 8–10 μ (mean 15.3 by 8.5 μ). The oocysts of Eimeria alpacae n. sp. are ellipsoidal, rarely ovoid, 22–26 by 18–21 μ (mean 24.1 by 19.6 μ), with ovoid sporocysts 10–13 by 7–8 μ (mean 11.0 by 6.8 μ). The oocysts of Eimeria punoensis n. sp. are ellipsoidal, occasionally ovoid, 17–22 by 14–18 μ (mean 19.9 by 16.4 μ), with ovoid sporocysts 8–11 by 5–7 μ (mean 9.2 by 6.1 μ).     

VENOM FROM THE ECTOPARASITIC WASP Habrobracon hebetor ACTIVATES CALCIUM‐DEPENDENT DEGRADATION OF Galleria mellonella LARVAL HEMOCYTES

Ectoparasitoids inject venom into hemolymph during oviposition. We determined the influence of envenomation by the parasitoid, Habrobracon hebetor, on the hemocytes of its larval host, Galleria mellonella. An increase in both intracellular Са²⁺ content and phospholipase C activity of the host hemocytes was recorded during 2 days following envenomation by the parasitoid. The decreased hemocyte viability was detected 1, 2, and 24 h after the envenomation. Injecting of the crude venom (final protein concentration 3 μg/ml) into the G. mellonella larvae led to the reduced hemocyte adhesion. The larval envenomation caused a decrease in transmembrane potential of the hemocytes. These findings document the suppression of hemocytic immune effectors in the parasitized host larvae.     

Morphological and Ecological Characterization of Steinernema feltiae (Rhabditida: Steinernematidae) Rioja Strain Isolated from Bibio hortulanus (Diptera: Bibionidae) in Spain

A new strain of Steinernema feltiae (Rhabditida: Steinernematidae) was isolated in La Rioja (Spain) from larvae of Bibio hortulanus (Diptera: Bibionidae). A comparative morphometric analysis of this new strain and four additional S. feltiae isolates was performed. Although significant differences in morphometric measurements were observed, PCR-RFLP profiles and sequence analysis of the ITS region of rDNA confirmed the identity of the new strain as A2 RFLP type of S. feltiae. A comparative morphometric study among nematodes from three hosts, Galleria mellonella (Lepidoptera: Pyralidae), Spodoptera littoralis (Lepidoptera: Noctuidae) and B. hortulanus, was conducted. Ecological characterization of the Rioja isolate was performed in G. mellonella larvae. Larval mortality was 75.3 and 78.12% in penetration and sand column assays, respectively, and the percentage of penetrating infective juveniles was 12.0 and 2.8% in these assays. Larval mortality in the one-on-one bioassay was 4.2%, and in exposure-time bioassays, it was 50% at 11.25 hours. Relationships between morphometric characteristics and host mortality are discussed for this new strain of entomopathogenic nematode.     

Endocrine alteration and precocious premetamorphic behaviors in the greater wax moth larvae,Galleria mellonella,parasitized by an endoparasitoid,Apanteles galleriae

Parasitization of Galleria mellonella (Lepidoptera: Pyralididae) larvae by a larval endoparasitoid Apanteles galleriae (Hymenoptera: Braconidae) leads to the precocious expression of premetamorphic behavior in the sixth (normally penultimate) instar host larvae prior to the parasitoid's emergence. We investigated the role of parasitization with A. galleriae on the alteration of development and/or behavior of its host. The ecdysteroid titer in the hemolymph of parasitized sixth instar larvae (the last instar of parasitized larvae) was higher than that of unparasitized ones, and the high ecdysteroid concentrations induced premetamorphic behaviors such as wandering and cocoon spinning. However, the epidermis of the parasitized larvae was not pupally committed through this stage. The activity of JH esterase in the parasitized larvae remained low, and application of a JH analogue to these larvae caused the production of a larval-type cocoon. These facts suggest that the parasitization by A. galleriae induces precocious premetamorphic behaviors of G. mellonella larvae by changing host endocrine conditions without causing the typical larval-pupal metamorphosis. Arch. Insect Biochem. Physiol. 34:257–273, 1997. © 1997 Wiley-Liss, Inc.     

Lankesteria barretti n. sp. (Eugregarinida,Diplocystidae), a Parasite of the Mosquito Aedes triseriatus (Say) and a Review of the Genus Lankesteria Mingazzini*

SYNOPSIS. Lankesteria barretti n. sp. (Eugregarinida, Diplocystidae) is named from the mosquito Aedes triseriatus in Texas. The young cephalins occur within the midgut epithelial cells. When they reach a length of about 150–200 μ they rupture the host cell and are released into the space between the epithelium and the peritrophic membrane, becoming gamonts. These grow to about 140–310 by 40 μ at the anterior end and 12 μ at the posterior end. When the host pupates they enter the lumen of the Malpighian tubules; pairs join in syzygy by their anterior ends and later more laterally. Each pair forms a spherical gametocyst about 60–100 μ (exceptionally 250 μ) in diameter. A large number of oocysts develop in each gametocyst. The mature oocysts are spindle-shaped, 11 by 5.4–5.7 μ, and contain 8 elongate sporozoites and a refractile residuum. The gametocyst wall breaks down, releasing oocysts in the Malpighian tubules of the host when it is adult. The oocysts pass out in the feces and presumably infect new larvae by ingestion. The cephalins and gamonts of L. barretti differ from those of L. culicis (of Aedes aegypti) in having a relatively anterior instead of a central nucleus and in lacking a noticeable mucron; its longitudinal folds are not as well-developed as in L. culicis, and its paraglycogen granules are larger. The fine structure of L. culicis and L. barretti is described in detail. Their gamonts have a polar ring but no definite conoid. The taxonomy of the genus is reviewed, but its species have been so poorly described that it is impossible to be sure whether they are all really Lankesteria. About 19 species have been described (5 from turbellaria, 8 from tunicates, perhaps 1 from Amphioxus, 1 from the chaetognath Sagitta sp., 1 from Phlebotomus and 3 from mosquitoes).     

Larval development,developmental arrest,and hormone levels in the couple Galleria mellonella (lepidoptera-pyralidae)—Pseudoperichaeta nigrolineata (diptera-tachinidae)

During their growth on the substitution host Galleria mellonella, about onethird of Pseudoperichaeta nigrolineata larvae undergo a developmental arrest in the middle of the second stage. To assess the extent of endocrine involvement, juvenile hormone (JH) and ecdysteroid (ECD) determinations by radioimmunoassays were made both on G. mellonella and P. nigrolineata throughout the larval development of this parasitoid. The transfer of G. mellonella larvae from the usual rearing temperature (27.5°C) to that required for infestation (21°C) significantly affects hormone titers: the JH level increases 10 to 20 times, while the ECD level becomes 10 times lower. The JH levels are lower in hosts with parasitoids in developmental arrest than in those with P. nigrolineata in continuous growth, but the high variability makes it seem unlikely that the titer of this hormone is critical in regulating development of the parasitoid. ECD levels are depressed in the hosts with parasitoids in developmental arrest and are increased when the parasitoids resume growth. Therefore, we propose that the main cause of the developmental arrest of P. nigrolineata is the low ECD levels characterizing some G. mellonella larvae for which the transfer to 21°C has induced some physiological disturbances.     

Passive vectoring of entomopathogenic fungus Beauveria bassiana among the wax moth Galleria mellonella larvae by the ectoparasitoid Habrobracon hebetor females

Females of the ectoparasitoid Habrobracon hebetor attack and envenomate numerous host individuals during oviposition. The vectoring of the entomopathogenic fungus Beauveria bassiana during the adhesion stage by ectoparasitoid females among the wax moth larvae Galleria mellonella was explored under laboratory conditions. Vectoring occurred both from infected parasitoids to wax moth larvae and from infected to healthy wax moth larvae by parasitoids. The efficacy of vectoring in both cases was dose dependent. Parasitoid females were unable to recognize infected larvae in a labyrinth test. In addition, the presence of H. hebetor females significantly (1.5–13 fold) increased the mycoses level in clusters of G. mellonella, with 40% of the larvae infected with fungal conidia. Envenomation by H. hebetor increased conidia germination on the cuticles of the wax moth larvae by 4.4 fold. An enhanced germination rate (2 fold) was registered in the n‐hexane epicuticular extract of envenomated larvae compared to that of healthy larvae. Both envenomation and mycoses enhanced the phenoloxidase (PO) activity in the integument of G. mellonella and, in contrast, decreased the encapsulation rate in hemolymphs. We hypothesize that changes in the integument property and inhibition of cellular immunity provide the highest infection efficacy of entomopathogenic fungi with H. hebetor.     

Ecological characterisation of <Emphasis Type="Italic">Steinernema siamkayai</Emphasis> (Rhabditida: Steinernematidae), a warm-adapted entomopathogenic nematode isolate from India

Our study describes basic ecological properties of Steinernema siamkayai Tiruchirappalli strain from India. The effect of temperature on nematode infectivity and development, laboratory host range and foraging behaviour were determined. The data showed that S. siamkayai is a warm-adapted nematode species with larval mortality observed between 15°C and 37.5°C and nematode reproduction occurring between 20°C and 35°C. All insect species used in this study were susceptible to S. siamkayai under laboratory conditions. Sixty infective juveniles (IJs) per insect were used and the lepidopterans, Galleria mellonella (100%) and Spodoptera exigua (85%), were the most susceptible species followed by the dipteran, Ceratitis capitata (60%), and lepidopteran, Cydia splendana (55%), and the coleopteran, Tenebrio molitor (45%), whereas the coleopteran, Curculio elephas (25%), was the least susceptible species. S. siamkayai infective juveniles (IJs) stood on their tails and jumped and could also attach to a mobile host at a rate of 27 IJs larvae⁻¹ out of 1000 IJs in 10 min. Larval mortality of G. mellonella by S. siamkayai on different substrates (sand, filter paper, filter paper sprinkled with sand) was 100% on all substrates. Number of IJs out of 100 IJs that penetrated into a G. mellonella host at different soil depths was the highest at the surface (44 IJs larva⁻¹) and the lowest at 5 cm depth (13 IJs larva⁻¹) with no larval mortality observed at 10 cm depth. In addition, the symbiotic bacterium of S. siamkayai was identified as Xenorhabdus stockiae based on genotypic and phenotypic characterisation. Bacterial growth was observed between 15°C and 41°C.     

Ecological aspects of an isolate of Steinernema diaprepesi (Rhabditida: Steinernematidae) from Argentina

Ecological aspects of Steinernema diaprepesi isolate SRC were studied to evaluate the species potential as biological control agent of insect pests. Under laboratory conditions, the following aspects were determined: the nematode life cycle, pathogenicity to several arthropods, reproductive capacity, tolerance to desiccation, effect of temperature on survival and infectivity of infective juveniles (IJs), and influence of soil texture and soil water potential on the isolate. The parasitic cycle on last-instar larvae of Galleria mellonella at 25°C was completed 8 days after infection. The nematode showed high virulence to lepidopteran larvae, being limited or nil in the remaining orders of arthropods evaluated. An acceptable offspring production of S. diaprepesi was confirmed in the species G. mellonella and S. frugiperda, suggesting that the isolate would have potential for control of lepidopteran larvae. Optimum temperature for reproduction was 20–25°C. IJs survived exposure to a range of temperatures between 10 and 40°C, with a significant reduction in the number of live IJs at 40°C. The nematodes remained infective at 20–40°C. IJ mortality was 100% on day 6 of exposure to 85% RH. The movement of IJs observed in the soil column experiments revealed that the isolate uses a cruiser-type search strategy. Soil texture and water potential significantly influenced IJ movement, search and penetration of G. mellonella larvae. The efficacy of this isolate was found to be favoured in sandy soils, regardless of the soil water potential.     

Substrate particle size affects pit building decision and pit size in the antlion larvae Euroleon nostras (Neuroptera: Myrmeleontidae)

Abstract. The larvae of the antlion Euroleon nostras are pit-builders, constructing pitfall traps in loose sand. The number of pits and the pit diameter are recorded when larvae are kept in substrates with different particle sizes. The most convenient pit-building sand fractions are two fractions with fine sand (≤ 0.23 mm; 0.23–0.54 mm). The largest pits are constructed in sand with a particle size of 0.23–0.54 mm. In this sand fraction, larvae of all three instars most readily build pits. No pits are constructed in sand with a particle size greater than 1.54 mm. First- and second-instar larvae avoid building pits in substrates of particle size 1–1.54 mm, but third-instar larvae construct pits in this sand fraction. It is assumed that the antlion is capable of distinguishing between substrate types and this hypothesis is tested by giving larvae the choice of building a pit in one of four particle-size fractions. Larvae of all three instars prefer to build pits in the fraction with a particle size of 0.23–0.54 mm. Only third-instar larvae build pits in all four fractions, but only occasionally in the coarser fraction.     

Boric acid‐induced immunotoxicity and genotoxicity in model insect Galleria mellonella L. (Lepidoptera: Pyralidae)

Boric acid (BA) is widely used in various industrial process and can be accessed to nontarget organisms. This study aimed to investigate the insecticidal effects of BA and its toxic activities with respect to immunologic and genotoxic effects using Galleria mellonella larvae as a model. BA concentrations (78.125–10,000 ppm) were administrated to the larvae using the feeding method. Concentration‐dependent mortality was observed in all larval groups. Probit analysis revealed LC₃₀, LC₅₀, and LC₇₀ values to be 112.4, 320.1, and 911.4 ppm, respectively. These concentrations were used in all bioassays. Drastic reductions in total hemocyte counts along with changes in differential hemocyte counts were observed following BA treatment. Cell viability assays showed dose‐dependent reductions in viable cells and an increase in the necrotic and apoptotic ratios after BA treatment. However, mitotic indices of larval hemocytes did not change at all BA concentrations. The cytotoxic effect of BA led to a significant reduction in cellular immune responses such as encapsulation, melanization, and nodulation activities of treated larvae. While BA increased micronucleus ratios at the highest concentration, comet parameters indicating DNA damage increased in G. mellonella larval hemocytes at all concentrations. These report that BA suppresses the immune system of G. mellonella and also poses risks of genotoxicity at high concentrations.     

Eimeria montanaensis n. sp. and E. ernesti n. sp. (Protozoa,Eimeriidae) from the Rocky Mountain Goat Oreamnos americanus*

SYNOPSIS. Oocysts of Eimeria oreamni, E. montanaensis n. sp. and E. ernsti n. sp. were present in a fecal sample collected from a male Rocky Mountain goat Oreamnos americanus in Ravalli County, Montana. Oocysts of E. oreamni were nearly identical to those originally described from this host. Oocysts of E. montanaensis were 15-23 by 13-19 μ (mean 18.9 by 15.2 μ), with sporocysts 8-12 by 4–7 μ(mean 9.9 by 5.2 μ). Oocysts of E. ernsti were 28-37 by 19-26 μ (mean 32.9 by 23.0 μ), with sporocysts 14-20 by 6-9 μ (mean 16.7 by 7.3 μ). A distinct micropyle and micropylar cap were present in E. ernsti.     

Effects of conventional and transgenic Bacillus thuringiensis galleriae toxin on Exorista larvarum (Diptera: Tachinidae), a parasitoid of forest defoliating Lepidoptera

The Cry9Aa entomocidal toxin from Bacillus thuringiensis ssp. galleriae (Btg) and an epiphytic Pseudomonas sp. derivative carrying the cloned cry9Aa gene from Btg are active against the pine processionary moth Thaumetopoea pityocampa and the laboratory model species Galleria mellonella. A laboratory study was conducted to investigate the side effects of the Cry9Aa toxin and the engineered bacterium on the post-embryonic development of Exorista larvarum, a larval parasitoid of forest lepidopterous defoliators, cultured in the factitious host G. mellonella. In a first experiment, the purified toxin and the commercial Bt preparation Foray 48B induced a mortality of G. mellonella sixth-instar larvae significantly higher than that of the distilled water control. In parallel, the development of E. larvarum in this host was assessed, but no significant difference was found for any of the parasitoid parameters examined (i.e., eggs oviposited, percentage of puparia and adults and puparial weights). In subsequent experiments, cry9Aa-Pseudomonas suspension significantly increased the mortality of sixth instar G. mellonella larvae compared to untransformed Pseudomonas sp. suspension and distilled water. As to the parasitoid parameters, the cry9Aa-Pseudomonas did not significantly affect the number of oviposited eggs, percentage of puparia and puparial weights. It can be concluded that the post-embryonic development of E. larvarum was not affected by host treatment with either Cry9Aa toxin or cry9Aa-Pseudomonas under the laboratory conditions tested. Although direct effects on parasitoid performance have not been shown, indirect effects could still occur and need to be considered in future studies concerning the effects of genetically modified Bt-derivatives.     

Synergistic effect of the herbicides glyphosate and MCPA on survival of entomopathogenic nematodes

The survival and infectivity of the infective juveniles of two species of entomopathogenic nematodes, Steinernema feltiae (Rhabditida: Steinernematidae) Heterorhabditis bacteriophora (Rhabditida: Heterorhabditidae), were determined after exposure for 72 h to two concentrations of the herbicides glyphosate and MCPA, as well as to the combination of the two herbicides (glyphosate + MCPA). For all herbicide treatments, concentrations and exposure times, S. feltiae was more tolerant to the herbicides than H. bacteriophora. The exposure of entomopathogenic nematodes to glyphosate + MCPA caused significantly higher mortality (26.33–57.33%) than glyphosate (0.67–15%) or MCPA (2.33–19%) alone. These results confirm the synergistic effect of the glyphosate + MCPA combination on the mortality in these nematodes. Nematode infectivity of Galleria mellonella larvae in response to the herbicides presence was evaluated in Petri dish assays containing sterile sand. Nematode infectivity was not significantly reduced by exposure to herbicides in S. feltiae but H. bacteriophora was less tolerant. Synergistic effect was obtained in the nematode mortality test but no synergistic effect was observed in the nematode infectivity assay. Our results suggest that possible synergistic effects of agrochemicals on survival of nematodes should be tested before mixing with entomopathogenic nematodes.     

Pathogenic potential of six isolates of entomopathogenic nematodes (Rhabditida: Steinernematidae) from Vietnam

The potential of six Steinernema isolates, isolated from different provinces in Vietnam, was evaluated in the laboratory against Galleria mellonella and Spodoptera littoralis. Steinernema sangi and S. robustispiculum TN24 had the highest penetration rate in both hosts according to a penetration rate assay. The virulence assay showed that S. sangi had a high virulence to both hosts and along with isolate TN38 it was the most mobile among the isolates tested. The migration of S. sangi in sand columns with an insect host at the bottom was significantly higher than in sand columns without insect host. This Steinernema species was the only one that penetrated a host in 24h after migrating 10cm in sand columns at 25°C. Moreover, a multiplication assay showed that S. sangi produced a high number of infective juveniles in G. mellonella. However, all Steinernema isolates tested had low multiplication rates in S. littoralis.     

Investigations on the efficacy of entomopathogenic nematodes against Spodoptera littoralis (Biosd.) and Galleria mellonella (L.)

Abstract

The infectivity of seven entomopathogenic nematode strains of the families Steinernematidae and Heterorhabditidae were tested against the last instar larvae of the cotton leafworm, Spodoptera littoralis (Biosd.) and the greater wax moth, Galleria mellonella (L.) in a Petri dish and sand column assay. Exposure of the insect species was done at a dose of 100 IJ/ ml. Heterorhabditis sp. ELG., H. indica, Heterorhabditis sp. ELB. were the highest in activity, they gave a 100% mortality to S. littoralis larvae in a Petri dish assay 24 h postexposure. The rest of the strains tested gave mortalities ranged between 50 and 90% at 24 h then 100% after 48 h postexposure . In the sand-column assay strains, Heterorhabditis sp. ELB., S. riobravae and S. carpocapsae were the highest in activity against S. littoralis with 100% mortality within 24 h postexposure. The results of infectivity against G. mellonella showed that H. indica was the highest in the Petri dish assay and H. egyptii was the highest in the sand column assay with 100% mortality after 24 h of exposure. The penetration rate as an indicator of entomopathogenic nematode infection was also evaluated. The highest value was recorded for Heterorhabditis sp. ELB. (62.3%) and S. carpocapsae (61.4%) against S. littoralis in both the Petri dish and sand-column assay, respectively. In the case of G. mellonella, the highest value of penetration was recorded for Heterorhabditis sp. ELG. (68.3%) and S. riobravae (65.00%) in both the Petri dish and sand-column assay, respectively.     

Influence of humidity and a surfactant-polymer-formulation on the control potential of the entomopathogenic nematode <Emphasis Type="Italic">Steinernema feltiae</Emphasis> against diapausing codling moth larvae (<Emphasis Type="Italic">Cydia pomonella</Emphasis> L.) (Lepidoptera: Tortricidae)

The codling moth (Cydia pomonella L.) is a serious pest of pome fruit. Diapausing cocooned larvae overwinter in cryptic habitats in the soil or in the bark of infested trees. The entomopathogenic nematode Steinernema feltiae (Filipjev) (Rhabditida: Steinernematidae) is used to control diapausing codling moth larvae. The objective of this study was to define environmental conditions favouring the performance of the nematodes. Cocooned larvae were more susceptible than non-cocooned larvae. Susceptibility of pupae was low. To determine the influence of decreasing water activity (a_w-value) on the activity of the nematodes, mortality of codling moth larvae and Galleria mellonella L. were tested in sand-sodium-polyacrylate mixtures of variable water activity. S. feltiae was able to infect both insects at a_w-values >0.9. Cocooned larvae of both insects died at lower a_w-values than non-cocooned larvae. Mortality of cocooned larvae did not further increase after half an hour of exposure to nematodes, whereas the mortality of non-cocooned larvae increased with increasing exposure time. LC₅₀ and LC₉₀ considerably decrease with increasing RH. The negative influence of the relative humidity (macro environment) was less important than the effect of the water activity in the bark substrate (micro environment). The micro environment can be manipulated by applying S. feltiae with higher volumes of water. A surfactant-polymer-formulation significantly increased nematode efficacy and can buffer detrimental environmental effects.     

The reproduction potentials of four entomopathogenic nematode strains related to cost-effective production for biological control

Bioassays to evaluate the mortality, virulence and reproduction potentials of four indigenous EPN strains, S-PQ16, S-BM12, H-KT3987 and H-CB3452 on insect larvae of mealworm (Tenebrio molitor) and greater wax moth (Galleria mellonella) revealed the highest mortality rates of two insect larvae at the highest inoculation dose of 100 IJs to range from 89 to 100 percent and 94.3–100 percent at 48 h after inoculation, respectively. Virulence was high for all nematode strains, with LC₅₀ values between 29.6 and 47.3 IJs/insect host. The highest IJ yields were different between nematode strains and insect host, from 66.8 × 10³ IJs (S-PQ16) to 118.6 × 10³ IJs (H-KT3987) on T. molitor, and from 54.2 × 10³ IJs (S-BM12) to 163.3 × 10³ IJs (H-KT3987) on G. mellonella. The culturing cost in terms of food expenditure for rearing insect larvae varied between insect larvae and nematode strains, from 6.76 to 26.63 USD per billion IJs for nematode strains cultured on T. molitor larvae and from 3.54 to 7.81 USD per billion IJs for nematode strains cultured on G. mellonella larvae. The full cost for a nematode product of 2.5 × 10⁹ IJs per hectare, produced through in vivo mass culturing, of the most efficient nematode strain, H-KT3987, was 191.3 USD, slightly cheaper than 199.4 USD for the same nematode product produced through in vitro mass culturing.