The effectiveness of two biological control agents, Chrysoperla carnea (Neuroptera: Chrysopidae) and the entomopatho­genic fungus Beauveria bassiana (Ascomycota: Hypocreales) against nymphs and adults of Neophilaenus campestris (Hemi­ptera: Aphrophoridae) was determined under laboratory conditions. First, different nymphal stages of N. campestris were presented to different larval stages of C. carnea. Second, the effect of the foam produced by N. campestris nymphs on the larvae of C. carnea predation was evaluated. Finally, four concentrations of a wild strain of B. bassiana, BbGEp1, were sprayed on plants in order to determine their lethality for adults of N. campestris. Second and 3rd-instar larvae of green lacewing larvae are capable of capturing and killing 3rd and 5th-instar nymphs of N. campestris. The percentage of 3rd-instar lacewing larvae that killed nymphs was significantly higher than that were killed by second-instar larvae. Second-instar larvae killed significantly more 3rd-instar nymphs than 5th-instar nymphs. Third instar lacewing larvae killed an average (± SEM) of 1.50 ± 0.31 5th-instar nymphs and 2nd-instar larvae killed very few nymphs. Spittlebug foam reduced, but did not prevent predation. The lethality of the entomopathogenic B. bassiana BbGEp1 used against adults of N. campestris was characterized by an LC₅₀ value of 1.61 × 10⁶ conidia/mL and LT₅₀ of 3.63 days at 1 × 10⁷ conidia/mL. The present study provides new and valuable data on the activity of two promising biological control agents of vectors of the bacterium Xylella fastidiosa. Further research is needed to confirm the results presented here and on the cost effectiveness of using these control agents as alternatives to synthetic insecticides for preventing the further spread of X. fastidiosa in Europe.

Drosophila suzukii (Matsumura, 1931) is an invasive pest from South-East Asia that can damage a wide range of soft-skinned fruit crops (especially berries) resulting in serious financial losses. At present, control of D. suzukii is still mainly based on adult-oriented chemical pesticides that is likely to result in resistance and environmental pollution. In this context, alternative methods that are compatible with sustainable management are required. Sulphur and its different formulations are widely used for a long time as a fungicide and insecticide on many crops as it is environmentally-friendly and compatible with organic management. In this study, the effect that powdered sulphur-treated strawberries had on oviposition were evaluated under laboratory conditions in order to confirm the findings of a previous report on blueberries. No-choice and choice experiments were carried out to assess whether powdered sulphur affected the ability of the fly to detect fruit, altered its behaviour or did both. The treatment of strawberries resulted in a reduction of over 79% in the total number of D. suzukii that developed. In the no-choice experiment, there was a reduction of over 70% in the time the flies spent on treated compared to untreated fruit. In the choice experiment, 57% of the females chose untreated and 43% treated strawberries, but this difference was not statistically significant. Furthermore, females took over 75% longer to visit the treated fruit than the control. Sulphur had no noteworthy effect on fly behavior, although oviposition only occurred on untreated fruit indicating that sulphur affects the acceptance and suitability of fruit for females. These results indicate that powdered sulphur could be an appropriate alternative to synthetic-organic insecticides for controlling D. suzukii and is compatible with organic crop management and waste reduction strategies.

Cohen A.C. 2021: Design, Operation and Control of Insect Rearing Systems. Science, Technology, and Infrastructure. CRC Press, Boca Raton, xxv + 394 pp., 297 color and 63 b/w illustrations. ISBN 9781138571259. Price GBP 170.00 (hardback), GBP 119.00 (e-book).

Classical biological control is an important means of managing the increasing threat of invasive plants. It constitutes the introduction of natural enemies from the native range of the target plant into the invaded area. This method may be the only cost-effective solution to control the rapidly expanding common ragweed, Ambrosia artemisiifolia, in non-crop habitats in Europe. Therefore, candidate biocontrol agents urgently need to be assessed for their suitability for ragweed control in Europe. A previous literature review prioritized the host-specific leaf beetle Ophraella slobodkini as a candidate agent for ragweed control in Europe, whereas it rejected its oligophagous congener O. communa. Meanwhile, O. communa was accidentally introduced and became established south of the European Alps, and we show here that it is expanding its European range. We then present a short version of the traditional pre-release risk-benefit assessment for these two candidate agents to facilitate fast decision-making about further research efforts. We selected two complementary tests that can be conducted relatively rapidly and inform about essential risks and benefits. We conducted a comparative no-choice juvenile performance assay using leaves of ragweed and sunflower, the most important non-target plant, in Petri dishes in climatic conditions similar to that in the current European range of O. communa. This informs on the fundamental host range and potential for increasing abundance on these host plants. The results confirm that O. slobodkini does not survive on, and is hence unlikely to cause severe damage to sunflower, while O. communa can survive but develops more slowly on sunflower than on ragweed. In parallel, our species distribution models predict no suitable area for the establishment of O. slobodkini in Europe, while O. communa is likely to expand its current range to include a maximum of 18% of the European ragweed distribution. Based on this early assessment, the prioritization and further assessment of O. slobodkini seem unwarranted whereas the results urgently advocate further risk-benefit analysis of O. communa. Having revealed that most of the European area colonized by ragweed is unlikely to be suitable for these species of Ophraella we suggest the use of such relatively short and cheap preliminary assessment to prioritise other candidate agents or strains for these areas.

Ants are essential components of ecosystems, playing critical roles in nutrient cycling, pest control, and soil health. Agricultural practices significantly influence ant biodiversity, yet studies on this subject remain scarce in Morocco. This study examines the impact of three agricultural systems on ant diversity in Central Morocco: conventional (monoculture with intensive pesticide use), organic (no synthetic inputs and crop diversification), and traditional (low-input polyculture based on local practices), focusing on El Jadida and El Oualidia provinces. Using pitfall traps, a total of 1823 ants belonging to 4 subfamilies, 14 genera, and 21 species were sampled across the three systems. Organic agriculture exhibited the highest species richness (17 species; relative abundances dominated by Tetramorium caldarium and Paratrechina longicornis), and the highest Shannon diversity index, followed by traditional agriculture (11 species) and conventional agriculture (8 species). PERMANOVA and IndVal analyses revealed significant differences in species composition, with organic and traditional systems fostering distinct communities compared to conventional agriculture. Linear Discriminant Analysis highlighted clear separations among systems, reflecting the effects of habitat heterogeneity and management practices. The study underscores the ecological importance of organic and traditional practices in supporting ant biodiversity and calls for sustainable agricultural management to limit the negative impacts of biodiversity loss and homogenisation caused by conventional farming.

The red imported fire ant (Solenopsis invicta Buren, 1972), is native to tropical and subtropical South America but has become a highly invasive species in parts of the southern United States, the Caribbean, and southern China. RIFA has caused significant ecological disruption through rapid colonization and aggressive behavior, affecting ecosystems and human health. This study aimed to examine the impact of different variables on the distribution of S. invicta throughout China and to predict its risk areas under the Current (1970-2000) and future climate change scenarios (2070s) using the ACCESS1-0 and BCC-CSM1-1 climate models. According to the MaxEnt model, under current climatic conditions, the total risk area of S. invicta was 2.554 million km², covering 27.52% of the study area. In the 2070s, high-risk areas are projected to increase by 1.72-fold and 1.68-fold under ACCESS1-0 and BCC-CSM1-1 scenarios, respectively. Precipitation of driest month (Bio14), mean temperature of coldest quarter (Bio11), mean temperature of warmest quarter (Bio10), pH of water, topography, mean diurnal range (Bio2), and soil organic carbon were the main factors influencing the distribution of S. invicta. Generalized Linear Model (GLM) was used to assess key determinants influencing S. invicta distribution. The GLM identified elevated land surface temperature, moderate soil moisture, organic carbon, vegetation cover, topographic diversity, and high urbanization as key factors promoting S. invicta proliferation, while adverse soil conditions limited suitable habitats. This research provides significant clues about the current distribution patterns of S. invicta and the influence of climate change, soil, physical and biological land properties, and anthropogenic activities on its distribution. Additional measures are necessary to control and prevent the continued spread of S. invicta in China.

Host diet often influences its biological parameters and the success of their parasitoids, both in mass rearing, field research and parasitism in applied biological control programs. Habrobracon hebetor (Say, 1836) (Hymenoptera: Braconidae) is an important biological control agent of the flour moth Ephestia kuehniella (Zeller, 1879) (Lepidoptera: Pyralidae), which infests tobacco, grain and other products in storage. This study aimed to evaluate the effect of different proportions of tobacco in artificial diets on the biological parameters of the host E. kuehniella and its parasitoid H. hebetor. Four classes of Virginia tobacco with different sugar and nicotine concentrations were added to flour diets for moths in different percentages (5, 10 and 15%).The experimental design was completely randomized in a 3 × 4 factorial scheme (percentage of dietary tobacco × class of tobacco). In the parasitoid bioassays, hosts fed only with 5% tobacco were used. For E. kuehniella, the development time (egg-adult), viability of immature stages, sex ratio, fecundity, egg viability and longevity were measured. For H. hebetor, percentage parasitism, offspring sex ratio, number of paralyzed and parasitized larvae, egg-adult viability and parasitism preference were measured. Tobacco classes and percentages added to the diet influenced the development time and viability of E. kuehniella. The 5% host diet did not influence the different biological parameters and behaviour of H. hebetor. For mass rearing of H. hebetor, it is unnecessary to add tobacco to the artificial diet in order to improve parasitoid performance.

This study investigated the effectiveness of field releases of nymphs of Anthocoris nemoralis (F.) (Hemiptera: Anthocoridae) in controlling the olive psyllid, Euphyllura olivina Costa (Hemiptera: Psyllidae). Field trials were conducted in two successive years (2014 and 2015) in two organic olive orchards located in the region of Sfax (Tunisia) using two treatments: low (release of 10 A. nemoralis nymphs/tree) and high (release of 40 A. nemoralis nymphs/tree) applied two times, the first on March 3 and second on March 17. In both olive orchards, the high treatment was the most effective in controlling the increase of E. olivina in the spring. The A. nemoralis population grew gradually and reached a single peak towards the end of April. In control and low treatment plots, despite the significant increase in predator populations, psylla abundance was not controlled. After the second release, however, in high treatment plots a reduction in psyllid density was recorded. An expected effect of the A. nemoralis releases was a reduced parasitic activity of Psyllaephagus euphyllurae (Masi) (Hymenoptera: Encyrtidae).

Medically significant Lucilia sericata larvae lack a standardised, reproducible, animal tissue-free, and sterilisable diet for rearing. In this study, we developed and evaluated a diet made from dried milk, protein powder, cholesterol, amino acids, and vitamins with a defined macronutrient composition. We demonstrated that this formulation supports larval development comparable to that of control liver diet. This diet composition was also tested with a deficiency in each ingredient to determine their role and influence on larval development. Specifically, the effects of these diets on the following traits of the fly were measured: third instar larvae length and weight, pupal weight, pupation percentage, eclosion percentage, adult longevity, and egg-laying capacity across two generations. Based on performed studies, we demonstrated that Lucilia sericata did not successfully develop on a diet lacking vitamins. Moreover, reduced third instar larval survivorship was observed in diets deficient in protein and cholesterol, whereas higher eclosion failure occurred in diets lacking milk, protein, and Ω-acids. These results indicate that each ingredient is important in the larval development. Overall, larvae reared on liver-based diets showed similar characteristics to those reared on artificial diets. Furthermore, subsequent generations of Lucilia sericata reared on this diet exhibited normal development and reproductive capacity, and their eggs produced viable offspring. This represents a potentially novel formulation, with sterilisable and readily available ingredients, and a meat-free composition that can be easily produced and used for medical applications.

Given the development of resistance in stored-grain insect pests to phosphine (PH₃), the grain industry is seeking alternative methods for effective pest and resistance management. We evaluated the efficacy of allyl isothiocyanate (AITC), a potential alternative fumigant against adults of phosphine-susceptible (PH₃-S) and resistant strains (PH₃-R) of five major grain insect pests, including Sitophilus oryzae (Linnaeus), Tribolium castaneum (Herbst), Rhyzopertha dominica (Fabricius), Oryzaephilus surinamensis (Linnaeus), and Cryptolestes ferrugineus (Stephens). Adult dose-mortality response curves were established for each species, and the mortality endpoints of post-fumigated adult S. oryzae and T. castaneum were compared. The effect of commodities on the efficacy of AITC was briefly investigated from the perspective of adult insect mortality. The PH₃-R strain of S. oryzae was the most tolerant and required the highest dose, LC₅₀: 1.75 µL a.i. L^-1, whereas the PH₃-R strain of C. ferrugineus was the most susceptible to AITC, requiring the lowest LC₅₀: 0.59 µL a.i. L^-1. Comparisons of LC_99.9 across the species and strains confirmed that AITC at 2.59 µL a.i. L^-1 was adequate in achieving complete control of adults across all five insect species tested, irrespective of their resistance status to phosphine. These results suggest that phosphine-resistant insects fail to confer cross-resistance to AITC. Post-exposure endpoint mortality studies revealed a steady increase in mortality in S. oryzae (from 18% at 24 h to 100% at 168 h). In contrast, no such changes were recorded with T. castaneum, suggesting the existence of species-specific differences in responding to AITC. The presence of insect-infested commodities, such as rolled oats and cracked sorghum, reduced the efficacy of AITC, indicating that this fumigant could be sorptive.

Adult cicadas in temperate zones are known for their synchronized, loud emergences after spending years underground as nymphs feeding on xylem sap. In contrast, the nymphal stage - where cicadas spend most of their lives - remains poorly understood, especially in the Neotropics. Spatial and host plant relationships between Amazonian cicada nymphs and host trees are virtually unknown, limiting our understanding of the ecological roles of cicadas in Amazonian forests. Here, we present the first detailed spatial ecology study of nymphs of Orialella aerizulae, a species that builds conspicuous turrets. Using systematic mapping and quantification of turrets around Tachigali spp. trees and random control trees, we provide the first quantitative evidence of a specific cicada-tree association by observing xylem-feeding on fine roots within these turrets. We examine the relationship between turret density, tree developmental stage and size, and document emergence and activity patterns over a 19-month field study in the Peruvian Amazon. Finally, we investigate the species' bioturbation impact and its potential relevance to tree growth.

The tiger-fly Coenosia attenuata Stein (Diptera: Muscidae: Coenosiini) is a generalist predator that preys on several pests of greenhouse crops and is considered a biological control agent in the Mediterranean region. Previous behavioural observations identified its preferred prey, but a more in-depth evaluation will benefit from using Polymerase Chain Reaction amplification of prey DNA remains in the gut of this predator. To evaluate the rate of decay and suitability of this method for use in the field assessments, we carried out a laboratory feeding calibration experiment on 355 females of C. attenuata, which were killed at different intervals of time after ingestion (10 time points from 0 to 48 h). The prey species tested were: Trialeurodes vaporariorum (Westwood) (Hemiptera: Aleyrodidae: Trialeurodini), Liriomyza huidobrensis (Blanchard) (Diptera: Agromyzidae), Diglyphus isaea (Walker) (Hymenoptera: Eulophidae: Cirrospilini), Bradysia impatiens (Johannsen) (Diptera: Sciaridae) and Drosophila mercatorum Patterson & Wheeler (Diptera: Drosophilidae: Drosophilini). Based on a probit model, amplification success of prey DNA declined exponentially with increasing time after ingestion. The half-time molecular detection differed between species, ranging from an average of 5 h for T. vaporariorum and D. isaea, 6 h for B. impatiens, 15 h for L. huidobrensis to more than 40 h for D. mercatorum. This study confirmed the feasibility of using DNA based detection to identify prey species in the gut contents of C. attenuata and provided calibration curves for a better understanding of predation activity in this agroecosystem.

Larvae and adults of Korynetes caeruleus (de Geer 1775) (Coleoptera: Cleridae) were collected from old churches and reared in the laboratory on Anobium punctatum (de Geer 1774) (Coleoptera: Ptinidae). Breeding success of K. caeruleus was low, but basic parameters of this species' developmental cycle were identified. At 21°C and 75% relative humidity and a four-month cold period at 4°C, the development of K. caeruleus from egg to adult appearance lasted 2 years. The pupal stage may be reached and completed after one and a half years. Feeding on larvae of A. punctatum by larvae of K. caeruleus was observed and consisted of a combination of sucking haemolymph and consuming body parts. The sickle-like mandibles of larvae of K. caeruleus penetrate the cuticle of prey larvae; this is followed by pumping and sucking body movements. Adult beetles of A. punctatum were not attacked by K. caeruleus larvae. Feeding behaviour of adult K. caeruleus was not investigated.

The tendency of parasitoid wasps to oviposit in a previously parasitised host (superparasitism) has long been considered detrimental to their fitness, until recent evidence showed that it may be an adaptive strategy. The solitary koinobiont parasitoid, Coccygidium luteum, was observed to superparasitise the fall armyworm, Spodoptera frugiperda, under laboratory conditions. This study was conducted to elucidate the oviposition choice between unparasitised and previously parasitised hosts by C. luteum and to determine the effect of superparasitism on progeny development and adult fitness, using fall armyworm larvae as hosts. In a choice assay, previously parasitised and unparasitised hosts were simultaneously exposed to C. luteum for oviposition. Oviposition duration and preference were observed and the influence of superparasitism on the development of immature parasitoids and adult fitness were investigated by exposing host larvae to single, double and triple parasitism at 1 h intervals. Coccygidium luteum readily attacked both unparasitised and previously parasitised hosts without discrimination. However, the time spent ovipositing on the unparasitised host was significantly longer than that on a previously parasitised host. Superparasitism did not significantly affect progeny development and the fitness of adult C. luteum. Offspring development time and size of adult parasitoids were similar in superparasitised hosts compared to hosts that were parasitised once. We conclude that superparasitism in C. luteum will have no effect on its mass rearing for the biological control of S. frugiperda.

The genus Culicoides is the best known of the family Ceratopogonidae. Hematophagous females of the genus typically feed on the blood of vertebrate animals and in the Brazilian Amazon often on the blood of human beings. Amazon region anthropophilic Culicoides bites can provoke allergic reactions and transmit Mansonella ozzardi as well as the Oropouche virus. Past integrated taxonomy studies, combining morphometric and molecular analyses, have revealed hidden disease vector biodiversity and cryptic species with epidemiological and disease control relevance and have provided new tools to assist with vector identification. For this study we used light traps set in 12 distinct sites from three different Amazon states: Rondonia (1 site), Amazonas (3 sites) and Para (8 sites). We captured 12 different species of Culicoides representing seven different subgenera: C. foxi, C. fusipalpis, C. hylas, C. insignis, C. plaumanni, C. pseudodiabolicus, C. ruizi, C. debilipalpis, C. glabrior, C. jurutiensis, C. paraensis, C. pauci­enfuscatus. Between two and nine specimens were barcoded of each species. Neighbor joining and Maximum likelihood phylogenetic analysis with these COI barcodes showed the utility of these barcode sequences for species identification by clustering the barcode sequences into bootstrap-supported, species-specific monophyletic groups. Although this barcoding analysis did not resolve relationships between the species studied, it did reveal cryptic diversity within C. paucienfuscatus, C. glabrior, C. plaumanni, C. insignis and C. pseudodiabolicus. Two-dimensional geometric morphometrics, using eight wing-vein landmarks, robustly separated the analyzed species and raised questions about the validity of the subgenus Haematomyidium. Importantly, our GM wing landmark analysis separated C. paraensis from all the other analyzed species suggesting this type of analysis could be harnessed for epidemiological monitoring of this key Amazon-region vector species.

Orius spp. (Hemiptera: Anthocoridae) is well-known genus of generalist predators, which feed on numerous pest insects and mites infesting crops. In this study, the functional responses of the predatory bugs, Orius laevigatus (Fieber) and Orius vicinus (Ribaut), to different densities of the eggs of the whitefly, Bemisia tabaci (Gennadius) (Hemiptera: Aleyrodidae) and red spider mite, Tetranychus urticae Koch (Acari: Tetranychidae), were determined under laboratory conditions. Different numbers of eggs (2, 4, 6, 8, 16, 32, 64 and 128) of both species of prey were offered to females of the above predators for 24-h in a controlled environment of 25 ± 1°C, 60 ± 10% RH and under a 16L : 8D photoperiod. The parameters of the functional responses were assessed using Holling's Disc Equation. Both predators showed a Type II response to both prey. The attack rates (a) and handling times (Th) of the predators were computed for spider mites eggs: O. laevigatus (a: 0.972, Th: 0.007) and O. vicinus (a: 1.113, Th: 0.005), and whitefly eggs: O. laevigatus (a: 1.022, Th: 0.002) and O. vicinus (a: 0.772 Th: 0.006). Furthermore, the average number of B. tabaci eggs consumed by O. laevigatus females was greater than by those of O. vicinus. In contrast, O. vicinus was a more efficient predator of T. urticae eggs than O. laevigatus. Consequently, these results indicate that together these predators might be effective biological control agents in regulating populations of B. tabaci and T. urticae in agricultural ecosystems.

Improved methods of integrated pest management of the pear psyllid Cacopsylla pyri (L.), the primary pest of pear in Europe and North America, are needed. Trechnites insidiosus (Crawford) is the most abundant parasitoid of C. pyri in pear orchards, where it is present early in the psyllid infestation period. However, little is known about its general biology, interaction with its host and potential as a control agent. The objective of this laboratory study was to evaluate the behaviour of a specialist parasitoid when presented with different larval instars of C. pyri, and assess the quality of the next generation of parasitoids. T. insidiosus was able to insert its ovipositor into all host instars. However, the fourth instar of the host appeared to be the most suitable in terms of behavioural acceptance, time spent walking, antennal activity and progeny development (mummy formation, development time and tibial length). In addition, we report a low frequency of host-feeding behaviour by this parasitoid. From a biological control perspective, we suggest that favouring T. insidiosus, either through mass releases or conservation of naturally present populations, when the first generation of psyllids reach the fourth instar, would maximize the chance of controlling psyllid populations in pear orchards.

Scymnus syriacus Marseul is one of the most important biocontrol agents of aphids in citrus orchards. Understanding the efficiency and host specificity of natural enemies can help improve their effectiveness as biological control agents of particular pests. In this study, the functional response, preference and switching behaviour of different stages of S. syriacus feeding on Aphis spiraecola Patch and Aphis gossypii Glover, on orange leaves, were studied under laboratory conditions of 27 ± 2°C, 65 ± 5% RH and a photoperiod of 16L : 8D. The results indicate that 4^th instar larvae and adult males and females of this predator exhibit a type II functional response when offered different numbers (3, 5, 7, 10, 20, 30, 40, 60 and 80) of both A.spiraecola and A. gossypii. Adult females had significantly higher attack rates (a) on both species of aphids. Handling times (T_h) of adult male predators on A. spiraecola and those of 4^th instar larvae on A. gossypii were shorter than that of the other stages. In no-choice preference experiments, adult females fed equally on both species of aphid, but the 4^th instar larvae preferred A. gossypii. In switching experiments, prey selection was evaluated by simultaneously presenting different ratios (30 : 50, 40 : 40 and 50 : 30) of the two aphids, A. spiraecola : A. gossypii, to the predator. The 4^th instar larvae and adult females of S. syriacus showed higher preference for A. gossypii at each ratio offered (except adult females offered the 50 : 30 ratio). Based on their foraging behaviour 4^th instar larvae and adult females of S. syriacus are suitable for use in integrated management of citrus aphids.

We induced immune activation in mass rearing experiments in three insect species, i.e., Gryllus bimaculatus De Geer, 1773 (Orthoptera: Gryllidae), Hermetia illucens (Linnaeus, 1758) (Diptera: Stratiomyidae), and Protaetia brevitarsis seulensis (Kolbe, 1886) (Coleoptera: Scarabaeidae). Lysosomal staining of immune cells was a little over 6% in the control group insects, whereas it ranged from 17-35% in insects immunized with Escherichia coli K12 or Bacillus thuringiensis (Bt). The expression of attacin-like protein and defensin-like protein was also found to be upregulated at least 10-fold, and even up to 30-fold, from the third day of rearing in insects immunized with E. coli K12 or Bt. Non-immunized or immunized G. bimaculatus, H. illucens, and P. brevitarsis seulensis were freeze-dried and powdered, and these powders were then tested for protection against Pectobacterium carotovorum infestation. No inhibitory effects on P. carotovorum were observed when using all non-immunized insect powders or PBS. However, in the clear zone test treated with H. illucens powder at 10,000 ppm, an average size of 21.67 mm was observed. In a test using potato slices infected with P. carotovorum, we observed severe disease occurrence and potato weight loss in all non-immunized insect powders or PBS-treated groups. However, the group treated with H. illucens powder had the least potato weight loss. When tested on lettuce, the H. illucens powder-treated group revealed an approximately 10% increase in the fresh weight of lettuce, with both the dry weight and leaf area of lettuce increasing in comparison with those in the control group. Thus, our study proposes a novel method for the use of freeze-dried and powdered forms of insects immunized in mass rearing as effective functional fertilizers on a large scale that can also be effective in inhibiting microbial infections, overcoming the limitation of high production costs of such insect fertilizers using conventional methods.

Spodoptera frugiperda damages crops around the world and has developed resistance to many pesticides. Beauveria bassiana, a fungus that is harmless to humans and the environment, is widely used in pest control. In our study, differentially expressed genes between S. frugiperda larvae, both exposed and unexposed, to B. bassiana were analyzed by transcriptome sequencing. More than 160 Gb of clean data were obtained, and 2767 and 2892 DEGs were identified in LH36vsCK36 and LH144vsCK144, respectively. To explore the roles of glycometabolism and antioxidation-related enzyme genes in S. frugiperda against B. bassiana infection, the expression patterns of those genes when under attack from B. bassiana were analyzed by quantitative real-time PCR. The results of enzyme activity experiments revealed that S. frugiperda larvae exposed to B. bassiana could upregulate these genes to produce more enzymes related to the maintainance of normal glucose metabolism, as well as regulate the expression of detoxification and antioxidant factors to enhance the larvae's detoxification and antioxidant capacity. The result implied that glycometabolism and antioxidation-related enzymes and genes played critical roles in the antifungal immune process of S. frugiperda larvae. This study enhances our understanding of the molecular mechanisms related to regulation of metabolism and provides a basis for exploring new methods to combat antifungal resistance in S. frugiperda.

Pupal diapause in the Chinese oak silkmoth (Antheraea pernyi) is maintained under short-day (SD) photoperiods but is terminated when pupae are exposed to long-day (LD) photoperiods for a specific number of days. This process suggests that pupae can count or retain memory of the number of LD days experienced. In this study, we investigated how long diapause pupae retain photoperiodic information acquired during LD exposure. Diapause pupae were first reared under SD conditions and then exposed to LD for 8 days - an insufficient duration to terminate diapause. Following this, the pupae were placed back under SD for 7, 14, or 21 days, and subsequently returned to LD to induce adult eclosion. Using the final transfer to LD as a reference point, we found that pupae exposed to SD for 7 or 14 days reached adulthood significantly earlier than control pupae that had not previously experienced LD. However, no significant difference in eclosion timing was observed between the 21-day SD group and the control group. These results suggest that photoperiodic information acquired during the 8-day LD exposure gradually decayed under SD conditions and was lost between 14 and 21 days after the transfer from LD to SD. Complete erasure of photoperiodic information under SD appeared to require approximately twice the duration of the initial LD exposure.

Experiments examined the life histories and the effect of photoperiod on the expression of adult hibernal diapause in the Palearctic ladybird beetle Coccinella septempunctata, within 10 years of its discovery in North America. The study used beetles from two populations in eastern United States and focused on two aspects of diapause. First, the effects of daylength on the induction and depth (or duration) of diapause were examined by rearing and maintaining adult beetles from Tompkins County, New York, under six constant photoperiods until oviposition, death, or the passage of 125 days. Second, the seasonal progression of diapause maintenance and termination under natural conditions was evaluated by periodically (between October and April) testing the photoperiodic responses of overwintering adults that had been held out-of-doors; this test used beetles from Bergen County, New Jersey. Despite large variation in responses, the first test indicated that LD 16:8 had a strong, but not complete, diapause deterring effect. About 60% of females reared at LD 16:8 oviposited without delay, whereas photoperiods with shorter daylengths yielded lower incidences of oviposition without delay (18% at LD 14:10, 0% at LD 12:12 and 10:14). Only 27% of the females that experienced daylengths of LD 18:6 and 17:7 reproduced without delay. Females that survived the full length of the experiment (125 days) without ovipositing were considered likely to express an alternate (univoltine) life-history pattern that was unaffected by photoperiod. In the second experiment, results from the naturally overwintering C. septempunctata population indicated that females undergo significant changes in their photoperiodic responses during hibernal reproductive diapause. Based on the beetles' seasonal pattern of photoperiodic responses, we conclude that during autumn, short (and/or decreasing) daylengths play a role in diapause maintenance. By January, the photoperiodic maintenance of diapause diminishes, and by April, photoperiod no longer affects the timing of postdiapause reproduction. In our study, a small proportion of the overwintering adult C. septempunctata was parasitized by the koinobiont parasitoid Dinocampus coccinellae (Hymenoptera: Braconidae); data on the parasitoid's emergence pattern indicated that photoperiod plays a role in maintaining its diapause until the middle of January.

The yellow peach moth, Conogethes punctiferalis is a well-known agricultural pest with significant impacts on crops from Southeast Asia to Australia. It has also become one of the major pests of corn (Zea mays) in China. This review provides a comprehensive overview of the bio-ecology, potential damage, and management of C. punctiferalis on various economically important crops. The review discusses the current management strategies for C. punctiferalis, mainly based on chemical insecticides, and highlights their limitations and sustainability concerns. The authors emphasize the urgent need for sustainable integrated pest management (IPM) approaches tailored to the affected regions. Key research directions and recommendations are presented to fill knowledge gaps and improve the effective management of C. punctiferalis in agriculture.

An Erratum has been published for this article: https://doi.org/10.14411/eje.2025.028

The velvetbean caterpillar, Anticarsia gemmatalis, is one of the major insect pests causing defoliation in soybean crops. Alternative strategies have been explored to reduce insect damage, including the use of protease inhibitors (PIs) that act as anti-nutritional factors. The tripeptide GORE-2, designed based on the soybean SKTI PI, exhibits enhanced protease inhibitory activity and reduces caterpillar survival. To investigate the molecular response to these PIs, we analyzed gene expression profiles using RNA-Seq. Both SKTI and GORE-2 induced extensive transcriptional reprogramming in the midgut after 24 h of exposure. The response patterns were generally similar, with changes in the expression of genes encoding digestive proteases and defense-related proteins, particularly those involved in peritrophic matrix protection and regeneration. However, SKTI elicited a more robust activation of defense signaling pathways, suggesting a stronger ability to trigger protective responses. This may explain the greater efficacy of GORE-2 in inhibiting proteolysis and reducing caterpillar survival potentially involving both amino acid starvation signaling and broader perception mechanisms developed to detect soybean-derived deterrents. As a mimetic tripeptide, GORE-2 may engage these pathways less efficiently. Notably, genes associated with detoxification and oxidative stress were more highly expressed in response to GORE-2, highlighting an additional advantage of using synthetic or mimetic protease inhibitors.

Continuous cover forestry is a silvicultural system designed to mimic natural forest dynamics and maintain the structure of uneven-aged semi-natural forests. One of the key steps in this approach is to create small gaps in the canopy by logging small groups of trees or individual trees. In gap-cutting, the main goal is to determine the optimal shape and size of these gaps in order to ensure spontaneous natural regeneration of the major tree species in the canopy. Yet, it remains relatively unknown how various arthropods respond to such forestry practices. Carabid beetles (Coleoptera: Carabidae) play an important role as predators of various small invertebrates and their predators are mostly vertebrates. The interactions between carabids and their predators might change due to shifts in the distribution of patches of suitable habitat as a result of forest management. Here, the aim was to determine whether gaps in the canopy of two different sizes (small vs. large) and shapes (circular vs. elongated) can affect the predation pressure on large carabids in a Hungarian oak-hornbeam forest. Using 3D-printed decoys of the largest common carabid in the area, Carabus coriaceus, placed in each of the four gap treatments and control plots, the seasonal, diurnal, and treatment-specific aspects of predation pressure was estimated. This revealed no significant effects of any of the variables included in this study, which indicates that predation pressure in undisturbed controls located in closed forests and small canopy gaps did not differ significantly. Creating gaps in the canopy by felling few trees seems to be a good strategy for maintaining the forest ecological network with minimal disruption compared clear-felling large areas.

Spiders are the most abundant naturally occurring predators in vineyards and play a crucial role in natural pest control. However, vineyards are frequently sprayed with fungicides, which can harm spider communities. Fungus-resistant grape varieties can drastically reduce this fungicide input. The spiders on grape vines that were sprayed with a variable number of fungicide applications in 32 vineyards in different landscapes in Southwestern Germany were recorded. Vineyards received between 0 and 14 fungicidal sprays of varying toxicity (cumulated hazard quotients for honeybee up to 6). The majority of spiders benefited from a reduction in the number fungicide sprays, particularly Dictynidae, Philodromidae, Theridiidae and Thomisidae. Overall, space web weavers, orb web weavers and ambush hunters were most strongly affected by the frequency and toxicity of fungicide applications. The response of spiders to the landscape were highly variable and included both positive and negative effects of the percentage cover of woodland. In conclusion, reducing the cumulative hazard of fungicides by reducing the number of fungicide applications is a key element in fostering spiders in vineyards.

Mate choice is one of the main components of sexual selection, with females usually considered to be the selective sex. Male status is an important factor that affects female choice and to a large extent female mating preference. Pachycrepoideus vindemmiae (Rondani) (Hymenoptera: Pteromalidae) is an important solitary ectoparasitic idiobiont parasitoid that attacks several fly species and thus can be used as a biological control agent. We explored the influence of male status on mate selection, fecundity and offspring sex ratio. The results show that (1) P. vindemmiae females prefer to mate with young and large males and tended to choose males with only one mating experience; (2) the age, body size and mating status of males did not significantly affect female fecundity; and (3) the proportion of male offspring was larger when females mated with older, small and more often mated males. These results show that P. vindemmiae females prefer to mate with young and large males that had mated few times, and that mating with these males results in a higher proportion of female offspring. In addition, this study also indicates the way of rearing P. vindemmiae that produce more female offspring for use as biological control agents.

After immunizing black soldier fly (Hermetia illucens) larvae using Gram-negative (Escherichia coli) and Gram-positive (Bacillus thuringiensis, Bt) bacteria, we compared expression patterns across the whole genome. Compared to a control group treated with PBS buffer, the group immunized using Bt showed significant differences in the expression patterns of 2,312 genes. Similarly, the group immunized using E. coli showed significant differences in the expression patterns of 2,251 genes compared to the control. The groups immunized with E. coli and Bt both showed overexpression of genes involved in the extracellular region, serine-type endopeptidase activity, and neuropeptide signaling pathways, including genes related to the Toll pathway. In other words, the immune response of black soldier flies involves the simultaneous expression of innate immunity-related genes, irrespective of the type of bacteria. This is determined to be because, rather than showing a specific immune response, the flies depend on responding rapidly based on high expression levels.

Social wasps are often considered as nuisance pests in urban environments and are often controlled by using traps. The majority of commercially produced traps for catching wasps have yellow as the dominant colour around the trap entrance. However, the observations on the function of yellow as an attractant for wasps are controversial. The efficiency of yellow, compared with green striped (N = 15) and yellow and green striped beer traps (N = 15) was evaluated. According to the results, yellow does not have a specific role as an attractant for wasps of the genera Vespula Linnaeus and Dolichovespula (Rohwer). For wasps, it may be the bait that is the major lure and it might be sufficient on its own for both control and monitoring purposes.

Among the semi-natural elements in agricultural landscapes, wildflower strips sown at field margins or within fields are potential habitats for the natural enemies of insect pests. As insects are sensitive to a variety of flower traits, we hypothesized that mixtures with high functional diversity attract and support a higher abundance and species richness of aphid flower visiting predators than mixtures with low functional diversity. During a field experiment, repeated over two years (2014 and 2015) in Gembloux (Belgium), aphid predators (i.e., lacewings, ladybeetles and hoverflies) were pan-trapped in five sown flower mixtures (including a control mixture, with three replicates of each mixture) of low to high functional diversity based on seven traits (i.e., flower colour, ultra-violet reflectance and pattern, start and duration of flowering, height and flower class, primarily based on corolla morphology). In both years, the species of flowering plants in the sown mixtures (i.e., sown and spontaneous flowers) were listed, and the realized functional diversity in each plot calculated. Over the two years, a high functional diversity was not associated with high abundance and richness of aphid predators. Moreover, ladybeetles, which made up the majority of the predators trapped, were more abundant in mixtures with very low or intermediate functional diversity at sowing, especially in 2014. We hypothesize that certain flowers, which were abundant in certain mixtures (and not in those exhibiting the highest functional diversity), attracted predators and were sufficiently abundant to support them. Our results present novel information that could be used for developing flower mixtures that provide effective ecosystem services, such as pest control.