The mode of transmission of Tipula iridescent virus: II. Route of infection

Tipula iridescent virus (TIV) was inoculated into Tipula oleracea larvae via different routes. It was found to be much more infective when it was injected into the hemocoel than when it was ingested by the larvae.T. oleracea embryos did not become infected when eggs were laid in agar containing TIV, and there was no evidence that larvae can become infected via the spiracles or that transovum transmission occurs. It is suggested that TIV is transmitted principally by cannibalism, including killing and ingesting infected larvae, and finding dead infected larvae and ingesting them. It is proposed that a new generation becomes infected by first-instar larvae feeding upon infected fourth-instar larvae which have survived from the previous generation.     

Early learning and brood discrimination in leptothoracine ants (Hymenoptera: Formicidae)

Workers of the ant species Leptothorax ambiguus and L. longispinosus were exposed to larvae of their own species (conspecific), to larvae of the other species in the pair (allospecific), or to no larvae at all (social isolation) during the first 10 days after adult eclosion. Workers exposed to conspecific larvae preferentially accepted conspecific larvae. Workers exposed to allospecific larvae and socially isolated workers accepted larvae of both species. These results may partially explain why workers of these two species are vulnerable to enslavement by the obligatory parasites Harpagoxenus americanus and L. duloticus.     

Interactions between a braconid,Microplitis croceipes,and a fungus,Nomuraea rileyi,in laboratory-reared bollworm larvae

The parasite Microplitis croceipes required 1.1 days longer at 26°C to complete development in Heliothis zea larvae than was required for the fungus Nomuraea rileyi to kill the host larvae and sporulate. Host larvae parasitized by M. croceipes or infected with N. rileyi failed to complete a fifth larval molt or pupate. Of the remaining healthy larvae, one-half completed six larval stadia before popation. Larvae parasitized by M. croceipes were predisposed to infection by N. rileyi, but the fungus inhibited development of M. croceipes if host larvae were infected with N. rileyi within 1 day after parasitization.     

Effects of the parasitization of a braconid, Apanteles, on the blood of its host, Pieris

Parasitization of a braconid wasp, Apanteles glomeratus, of larvae of a common cabbage butterfly, Pieris rapae crucivora, caused changes in differential haemocyte count (DHC), total haemocyte count (THC), and encapsulative capacity against dead eggs of Apanteles in the fourth and fifth instar host larvae.However, no correlation could be found between the number of Apanteles eggs deposited and THC of the middle fourth instar host larvae or between the number of parasitoid larvae and specific gravity of the haemolymph from the late fifth instar host larvae.From the changes in DHC and in THC of both non-parasitized and parasitized Pieris larvae, an increase in the number of plasmatocytes of non-parasitized Pieris larvae in the early fourth instar period was supposed to be due to transformation of prohaemocytes into plasmatocytes, and a low population of plasmatocytes of parasitized larvae in the comparable period was assumed to be due to a suppression of transformation of prohaemocytes by some factor released from the parasitoid eggs.Failure of the parasitized fourth instar Pieris larvae to encapsulate injected dead eggs of Apanteles indicated that the parasitoid embryos were, in some way, actively inhibiting the encapsulation reactions of the host.The increase in THC of the parasitized fifth instar larvae could not be ascribed to a decrease in the volume of host haemolymph. Rather it could be interpreted by a suppression of adhesive capacity of haemocytes in the host haemocoel to tissue surfaces.Reduced encapsulative capacity of the parasitized fifth instar larvae might be attributed either to a depression of the adhesive activity of plasmatocytes resulting from a depletion of energy source for haemocytes in the host haemolymph by parasitization, or from an active suppression of adhesiveness of the plasmatocytes by secretions from ‘giant cells’ (teratocytes) originated from the parasitoid.     

Larval recognition by Temnothorax longispinosus and T. ambiguus hosts of the slave-making ant Protomognathus americanus revisited: colony-level referent ensures conspecific preference

Slave-making ants exploit the labour of their own or another species. Temnothorax ambiguus and T. longispinosus are both ant species that serve as hosts of the obligatory slave-making ant Protomognathus americanus and are facultative slave-makers themselves. We offered laboratory colonies of T. ambiguus and T. longispinosus a series of choices among different larval types to better understand their brood discrimination abilities. Workers of both species preferentially accepted nestmate over non-nestmate larvae. Both species preferentially retrieved unrelated conspecific larvae over congeneric allospecific larvae, and T. ambiguus workers consumed more allospecifics than conspecifics. When presented with conspecific versus P. americanus larvae, both species manifested a clear bias towards conspecific larvae in terms of earlier retrieval and reduced cannibalism. That workers did not prefer P. americanus larvae over conspecific larvae as documented in previous research likely reflects the fact that in the present study, subject workers had access to the entirety of their colony as a referent during rearing and at the time of testing, as they would in nature. Moreover, reciprocal contact between P. americanus and conspecific larvae increased acceptance of the slave-maker larvae, but did not appear to lessen the acceptability of conspecific larvae. This suggests that transfer of cues through contact may be sufficient to alter the recognition signature of P. americanus larvae increasing acceptability by their hosts.     

Cuticular sensilla on newly hatched larvae of Cuterebra fontinella Clark (Diptera : Cuterebridae) and Hypoderma spp. (Diptera : Oestridae)

Cuticular sensilla on newly hatched larvae of Cuterebra fontinella Clark (Diptera : Cuterebridae), Hypoderma lineatum (de Vill.) and H. bovis (L.) (Diptera : Oestridae) were studied by scanning electron microscopy. Three basic types of sensilla were found on C. fontinella larvae, while only 2 were present on the larvae of Hypoderma spp. Sensilla were more numerous on the C. fontinella larvae than on the Hypoderma spp. larvae (210 vs 66). There were no noticeable differences between the sensory complements of H. lineatum and H. bovis. Comparison of the number and type of sensilla on the parasitic larvae with those on free-living muscomorph Diptera larvae indicate that increasing numbers and greater morphological diversity correlate with increasing requirements for location of a suitable environment in which to feed and develop.     

Differences in the susceptibility of five herbivore species and developmental stages to tomato resistance induced by methyl jasmonate treatment

We compared the susceptibility of five herbivores to tomato resistance induced by methyl jasmonate (MeJA) treatment. We tested for lethal effects against five herbivores (Spodoptera litura, Mamestra brassicae, Frankliniella occidentalis, Tetranychus urticae, and Henosepilachna vigintioctopunctata) at various MeJA concentrations. The mortality of all five herbivores increased significantly with increasing MeJA concentration. The 25 % lethal concentration was 0.03 μM for both first-instar larvae of S. litura and third-instar larvae of M. brassicae, 0.51 μM for third-instar larvae of S. litura, 0.76 μM for adult T. urticae, 2.4 μM for first-instar larvae of F. occidentalis, and 5.7 μM for first-instar larvae of H. vigintioctopunctata. Thus, the degree of susceptibility to MeJA-induced resistance of tomato was first-instar larvae of S. litura = third-instar larvae of M. brassicae > third-instar larvae of S. litura ≈ adult T. urticae > first-instar larvae of F. occidentalis > first-instar larvae of H. vigintioctopunctata. Mortality of first-instar larvae of M. brassicae was >90 % at all concentrations. Mortality of fourth-instar larvae of H. vigintioctopunctata (<7 %) was similar to that of the control at all MeJA concentrations. We also detected statistically significant weight loss of the surviving lepidopteran larvae, increased larval duration of F. occidentalis and H. vigintioctopunctata, and reduced egg production by T. urticae grown on MeJA-treated tomato, suggesting that the MeJA-induced resistance can control these herbivores, but effectiveness is different on different species and growth stage. Feeding by both M. brassicae and H. vigintioctopunctata larvae activated JA-inducible genes in tomato.     

Resistance to Taenia pisiformis larvae in rabbits: immunization against infection using non-living antigens from in vitro culture.

Heath D. D. 1976. Resistance to Taenia pisiformis larvae in rabbits: Immunization against infection using non-living antigens from in vitro culture. International Journal for Parasitology6: 19–24. A 97 % protection of rabbits against infection with Taenia pisiformis larvae was stimulated by subcutaneous injections of killed larvae cultured in vitro for 6 or 9 days, combined with the concentrated culture media in which the larvae grew. Larvae cultured in vitro for 3 days or less stimulated only 60% protective immunity.Exogenous antigens produced by 10-day old larvae in vitro were collected free of contaminating macromolecules, and were partially characterized. There appeared to be 6 exogenous antigens. Rabbits were immunized with either frozen larvae, or the exogenous complex, or both, using one subcutaneous injection of antigens adsorbed on aluminium phosphate. Exogenous antigens stimulated an 88% protection against challenge infection 14 days later, while only 52% protection was stimulated by somatic antigens from frozen larvae. The effects of the two antigen complexes were not additive. The protective ability of exogenous antigens was destroyed by exposure to air.     

Evaluation of herbicide-coated larvae ofBactra verutana [Lep.: Tortricidae] to control nutsedges [Cyperus rotundus L. andC. Esculentus L.]

Feeding by 10-day old mid-instar larvae of the native moth,Bactra verutana Zeller, coated with solutions of bentazon [3-isopropyl-1 H-3-benzothiadiazin-4(3H)-one 2,2-dioxide] or glyphosate [N-(phosphonomethyl) glycine], reduced the dry weight of purple (Cyperus rotundus L.) or yellow nutsedge (C. esculentus L.) an average 25% more than did uncoated larvae. The herbicide-coated larvae reduced dry weight by 71% for 4-week yellow nutsedge and by 80% for 2-week purple nutsedge plants within 15 days after release. This integrated approach was apparently not pratical, however, because larvae randomly damaged the non-target crops, cotton (Gossypium hirsutum L.) and turnip (Brassica rapa L.). The more mature larvae killed about 3% of the cotton and 14% of the turnip plants. Newly-emerged larvae were highly sensitive to the herbicides. Mature larvae are less host-specific than are newly-emerged larvae. Therefore, the use of repeated broadcasts of newly-emergedB. verutana larvae is still the best method known for using insects to control nutsedge.     

Silencing of acetylcholinesterase gene of Helicoverpa armigera by siRNA affects larval growth and its life cycle

RNA interference is an effective means of regulation of gene expression both in vitro and in vivo. We studied the effect of siRNA on larval development by selective targeting of the acetylcholinesterase (AChE) gene of Helicoverpa armigera. Chemically synthesized siRNA molecules were directly fed to H. armigera larvae along with the artificial diet. The siRNA treatment resulted in specific gene silencing of AChE and consequently brought about mortality, growth inhibition of larvae, reduction in the pupal weight, malformation and drastically reduced fecundity as compared to control larvae. Our studies suggest some novel roles for AChE in growth and development of insect larvae and demonstrate that siRNA can be readily taken up by insect larvae with their diet.     

Differential susceptibility of parasitized and nonparasitized larvae of Trichoplusia ni to a nuclear polyhedrosis virus

Nonparasitized second-instar larvae of Trichoplusia ni were twice as susceptible (at the LD₅₀ level) to the singly enveloped T. ni nuclear polyhedrosis virus as those parasitized by Hyposoter exiguae (Hymenoptera: Ichneumonidae). The LD₅₀ values for nonparasitized and parasitized larvae were 1.58 × 10³ and 3.16 × 10³ polyhedra/ml of diet, respectively. The LD₉₅ value for parasitized larvae was approximateely 5 times higher than that for nonparasitized larvae. The slopes (b values) were 1.2 for parasitized larvae and 1.7 for nonparasitized larvae. The LT₅₀ values for parasitized larvae also were significantly longer than those for nonparasitized larvae. No significant difference was found between the food consumption of parasitized and nonparasitized T. ni larvae.     

Susceptibility of the Mediterranean fruit fly (Ceratitis capitata) and the Natal fruit fly (Ceratitis rosa) to entomopathogenic nematodes

The potential of entomopathogenic nematodes, Heterorhabditis bacteriophora, Heterorhabditis zealandica and Steinernema khoisanae, to infect pupariating larvae, pupae and adults of Ceratitis capitata and Ceratitis rosa was investigated in laboratory bioassays. Pupariating larvae and adult flies were susceptible to nematode infection, with no infection recorded for the pupae. Pupariating larvae of C. capitata were generally more susceptible to infection than those of C. rosa. Significantly more larvae of C. capitata were infected by H. bacteriophora. For C. rosa, highest infectivity of larvae was obtained with H. zealandica. In contrast, adults of both species were highly infected by S. khoisanae.     

Use of an artificial diet system to study the toxicity of gut-active insecticidal compounds on larvae of the green lacewing Chrysoperla sinica

A semi-liquid artificial diet was established and found to be a suitable food source for Chrysoperla sinica larvae, comparable to aphid prey. Using the artificial diet, we established and validated a dietary exposure assay by using the insecticidal potassium arsenate (PA) as positive control. Dose-dependent responses were documented for all observed life-table parameters of C. sinica larvae such as survival rate, pupation rate, larval weight, and larval development time. Thus, the dietary assay can detect the effects of insecticidal compounds on the survival and development of C. sinica larvae. Using the established dietary assay, we subsequently tested the toxicity of Cry1Ab, Cry1Ac, and Cry2Aa proteins (which are produced by transgenic maize, cotton or rice plants) to C. sinica larvae. Artificial diets containing Galanthus nivalis agglutinin (GNA) or PA were included as positive controls. Survival and development of C. sinica larvae were not affected when the artificial diet contained purified Cry1Ab, Cry1Ac, or Cry2Aa at 200 μg/g diet. In contrast, C. sinica larvae were adversely affected when the diet contained PA and GNA. The stability and bioactivity of the Cry proteins in the diet and Cry protein uptake by the lacewing larvae were confirmed by bioassay with a Cry-sensitive insect species and by ELISA. The current study describes a suitable experimental system for assessing the potential effects of gut-active insecticidal compounds on green lacewing larvae. The experiments with the Cry proteins demonstrate that C. sinica larvae are not sensitive to Cry1Ab, Cry1Ac, and Cry2Aa.     

Susceptibility of larval Crepidula fornicata to predation by suspension-feeding adults

The slipper shell snail Crepidula fornicata forms dense assemblages along much of the European coast, where it co-occurs with oysters. We examined the susceptibility of slipper shell larvae to predation by suspension-feeders, including adults of their own species. In particular, we compared filtration rates on phytoplankton with those on larvae, and determined the extent to which consumption of larvae varied with adult size, larval size, and with the presence of alternative food (phytoplankton). We also examined the ability of competent larvae to metamorphose successfully in the presence of feeding adults. For each experiment, adults were held in plastic jars with seawater or phytoplankton suspension and allowed to graze on larvae (101 larvae per jar) for 4-6 h at room temperature (21-23 °C); larvae were kept in circulation with gentle aeration. Adults of C. fornicata ingested substantial numbers of larvae over the complete range of sizes tested, about 450-850 μm shell length. Ingestion rates were reduced by 43-50% in the presence of phytoplankton, and were not correlated with adult shell length. The rates at which larvae were removed by adult slipper shells were generally lower than predicted from the rates at which the same adults ingested phytoplankton, suggesting either some ability of larvae to avoid capture or some difficulty of adults in consuming larvae entrained into their feeding currents. Slipper shell larvae were also readily consumed by adult oysters (Ostrea edulis and Crassostrea gigas), and indeed oysters consumed larvae at faster rates than predicted from their phytoplankton ingestion rates. Nevertheless, substantial numbers of competent larvae managed to metamorphose successfully during the test periods, either on the sides of the jars they were in or on the adults' shells, suggesting that recruitment probably continues in the field even when suspension-feeding adults are at high concentrations in the benthos.     

Effects of certain lipid compounds on growth and asexual multiplication of Mesocestoides corti (Cestoda) tetrathyridia

The effects of Williams and Law mixture (W-L), farnesol (juvenile hormone mimics), ecdysterone (molting hormone analog), cholesterol, and stigmasterol on growth and asexual reproduction of Mesocestoides corti larvae in vivo and in vitro were studied. W-L and ecdysterone stimulated an increase in larval asexual reproduction under in vivo conditions, however, cholesterol had no effect on the larvae in vivo. In vitro, cholesterol stimulated a slight increase in reproduction but had no effect on growth; stigmasterol appeared to be somewhat detrimental to the larvae. In vitro, W-L, farnesol, and ecdysterone stimulated by varying amounts an increase in growth (as measured by larval size) and asexual reproduction. Lipid extraction of M. corti larvae and Hymenolepis diminuta adults, followed by a series of thin-layer chromatograms, yielded 2 compounds (I-B and I-D) which affected M. corti larvae in vitro. These 2 compounds stimulated increased growth of the M. corti larvae and to some extent an increase in asexual reproduction.     

Soybean leaf consumption by Nomuraea rileyi (Fungi: Deuteromycotina)-infected Plathypena scabra (Lepidoptera: Noctuidae) larvae

To determine the impact of Nomuraea rileyi on consumption by the green cloverworm, Plathypena scabra, larvae were reared from eggs obtained from field-collected moths, inoculated with conidia, and placed individually in separate plastic vials with a piece of surface-sterilized soybean leaflet. No significant differences in consumption rates were found between N. rileyi-inoculated and control larvae until after 144 hr post-treatment. After this period, consumption by larvae inoculated as first, second, third, or fourth instars was significantly less than that of control larvae because of mortality. First or second instars inoculated with N. rileyi conidia had significantly longer subsequent stadia than did control larvae. The average LT₅₀ of all inoculated instar groups was 6.5 days, and there was little evidence of significantly different N. rileyi susceptibility among instar groups. In general during the N. rileyi infection period leading to their deaths, inoculated P. scabra larvae had consumption patterns that were very similar to those of healthy larvae.     

Quantifying horizontal transmission of Nosema lymantriae, a microsporidian pathogen of the gypsy moth, Lymantria dispar (Lep., Lymantriidae) in field cage studies

Nosema lymantriae is a microsporidian pathogen of the gypsy moth, Lymantria dispar that has been documented to be at least partially responsible for the collapse of L. dispar outbreak populations in Europe. To quantify horizontal transmission of this pathogen under field conditions we performed caged-tree experiments that varied (1) the density of the pathogen through the introduction of laboratory-infected larvae, and (2) the total time that susceptible (test) larvae were exposed to these infected larvae. The time frame of the experiments extended from the early phase of colonization of the target tissues by the microsporidium to the onset of pathogen-induced mortality or pupation of test larvae. Upon termination of each experiment, the prevalence of infection in test larvae was evaluated. In the experiments performed over a range of pathogen densities, infection of test larvae increased with increasing density of inoculated larvae, from 14.2 ± 3.5% at density of 10 inoculated per 100 larvae to 36.7 ± 5.7% at 30 inoculated per 100 larvae. At higher densities, percent infection in test larvae appeared to level off (35.7 ± 5.5% at 50 inoculated per 100 larvae). When larval exposure to the pathogen was varied, transmission of N. lymantriae did not occur within the first 15 d post-inoculation (dpi) (11 d post-exposure of test larvae to inoculated larvae). We found the first infected test larvae in samples taken 20 dpi (16 d post-exposure). Transmission increased over time; in the cages sampled 25 dpi (21 d post-exposure), Nosema prevalence in test larvae ranged from 20.6% to 39.2%.     

Selective breeding and characterization of a black mealworm strain of Tenebrio molitor Linnaeus (Coleoptera: Tenebrionidae)

Larvae of Tenebrio molitor Linnaeus are edible insects and are approved as a food ingredient in Korea. They are typically yellow; however, rare black larvae have been found in breeding boxes at insect farms. It is not clear whether black larvae represent a different species that invaded and hybridized with the yellow larvae of T. molitor or whether T. molitor shows intraspecific color variation. In this study, we characterized and identified black larvae for applications in industrial fields as well as accurate breeding and management. First, in a comparative analysis, we did not detect differences in the morphological characteristics of yellow and black larvae and adults, with the exception of larval body color. For accurate species identification, molecular analyses (p-distances and neighbor-joining) were performed based on partial COI sequences of 33 yellow and seven black larvae. Genetic divergence between yellow and black larvae ranged from 0.0% to 2.1%, revealing intraspecific variation. A neighbor-joining analysis strongly supported the classification of the two morphs as a single species. Black larvae were separated from yellow larvae and maintained by selective breeding. As a result, black larvae were completely fixed in the F2 generation (F1 = 96% and F2 = 100%). Yellow and black larvae showed no significant differences in developmental characteristics and fecundity. These findings improve our understanding of diversity within an important edible insect species and contribute to quality assurance in the food industry based on clear species identification.     

Growth of Musca domestica (Diptera: Muscidae) and Sarcophaga dux (Diptera: Sarcophagidae) larvae in poultry and livestock manures: Implication for animal waste management

Natural diets commonly exploited by the flies are animal manures including production from the poultry and livestock facilities. The larvae of the common filth flies such as Musca domestica and Sarcophaga dux are known as voracious feeders and may thus be used to convert manures into non-polluted residue. This study was conducted to observe the impact on flies' growth rate and capability of the larvae to process animal manures using chicken, goat and cow manures. One hundred newly hatched larvae of M. domestica and S. dux were introduced separately into 150?g manures under laboratory conditions. The initial wet mass and larvae length were recorded while mortality rate and dry mass were measured after the larvae were placed into the manures. The results showed that the manure types give significant effects (p?<?.05) on the growth of M. domestica and S. dux larvae. Cow manures and chicken manures contributed the highest growth for M. domestica and S. dux respectively. This result confirmed by the mean increment in wet mass and larvae length. In contrast, M. domestica greatly reduced 59.9?±?4% chicken manures while 25.0?±?1.8% goat manures reduced by S. dux. The potential of M. domestica and S. dux larvae to reduce animal waste products were further discussed in this study.