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.

Heraty J.M. & Woolley J.B. (eds) 2024: Chalcidoidea of the World. CABI, Wallingford, 840 pp. ISBN 978-1-80062-352-1. Price GBP 250.00.

The gut microbiota of dung beetles comprises bacteria, archaea, and fungi. Most studies have only considered the bacterial element and focused on differences between species reared in the lab. This study considered microorganisms from the gut of Trypocopris pyrenaeus and concentrated on differences among wild individuals of an alpine Italian population. We revealed remarkable interindividual variation in the taxonomic composition of microbiota. Core taxa were few, while individuals harboured many exclusive taxa. Therefore, considering only a few individuals to describe the microbiota of a species is not sufficient. The study also revealed that the nMDS ordination of individuals based on prokaryotes was different from that based on fungi, meaning that both groups should be considered in microbiota analyses and that one microbic group cannot be considered a surrogate of the other. We identified many functions potentially provided by the microbiota and found the taxonomic richness of prokaryotes to be positively correlated with their functional richness. The analysis of the functions potentially provided by these microorganisms confirmed that the gut microbiota, in addition to being essential for the health of their host, may also contribute to the effective functioning of the ecosystems of which dung beetles are part.

Perching (territorial) and patrolling are recognised as mate-locating tactics adopted by male butterflies. It is said that males adopting the former fly fast with high acceleration, whereas those adopting the latter fly at continuous and lower speeds. However, no previous studies have demonstrated these flight properties using quantitative data. In the present study, the flight properties of two lycaenid species, the perching L. phlaeas and the patrolling Z. maha, were investigated based on three-dimensional analysis. Males of L. phlaeas had higher flight velocities and higher relative flight time than those of Z. maha. Furthermore, the flight morphology that supports flight properties was examined. The perching L. phlaeas exhibited higher thorax-to-body mass ratios and greater wing loadings than patrolling Z. maha.

The syrphid genus Eumerus Meigen, 1822 is one of the most speciose in the world. In the Ibero-Balearic area (including Andorra and the Spanish side of the Pyrenees), recent taxonomic studies have increased the knowledge of Eumerus in Europe. A high taxonomic diversity together with a complex morphology make species identification difficult in this genus. The lack of updated and comprehensive tools to assist in the identification of species prompted the production of a dichotomous key to all Ibero-Balearic species of Eumerus and generation of DNA barcodes for ten species. In summary, a total of 37 species of Eumerus and nine species groups are reported in this geographical region. Eumerus caballeroi Gil Collado, 1929 is proposed as junior synonym of Eumerus nudus Loew, 1848 and the taxonomic status of Eumerus pauper Becker, 1921 is discussed. The first sequences of the 5´ region of the Cytochrome c oxidase subunit I gene (COI-5´) of Eumerus subornatus Claußen, 1989 and Eumerus truncatus Rondani, 1868 were obtained and their systematic positions corroborated.

Subterranean ants play a critical role in soil ecosystems, yet their cryptic lifestyle and the challenges associated with their sampling hinder comprehensive understanding of their biodiversity. This study examines the seasonal dynamics of subterranean ant communities in a cork oak forest in northwestern Morocco. We employed an adapted soil-washing method. that enabled the collection of 1,318 individuals from 17 species, of which 41.18% were identified as hypogaeic. The analysis revealed significant differences in community composition across seasons, with summer exhibiting notably higher species richness and worker abundance. Non-hypogaeic ants showed strong positive correlations with temperature and negative correlations with rainfall, while hypogaeic ants exhibited weak and non-significant responses to climatic variables, likely due to their ecological specialization. These results suggest that climatic factors distinctly influence ant subgroups and highlight the ecological relevance of subterranean ants in soil biodiversity. The study underscores the importance of tailored sampling methodologies for capturing the diversity and dynamics of these often-overlooked communities.

Spodoptera frugiperda, a worldwide pest, can feed on 353 crops species, including corn, rice, and sorghum. It is highly adaptable to various environments. Heat shock protein 90 kDa (Hsp90) plays a crucial role in the environmental adaptation of insects. To explore the role of SfHsp90 genes coding for Hsp90 proteins in the high temperature and insecticides stress resistance of Spodoptera frugiperda, we identified the complete complementary DNA sequences of two SfHsp90s. Both of them were expressed at different developmental stages and tissues in S. frugiperda. The expression levels of the SfHsp90s were significantly upregulated when exposed to durations of extreme temperature (45°C) and lethal concentrations of emamectin benzoate (LC₁₀ and LC₂₀). The viability of S. frugiperda under 45°C and emamectin benzoate stresses was examined. The mortality rate of S. frugiperda was significantly increased when subjected to 45°C and emamectin benzoate after knockdown of SfHsp90s by RNAi. These results suggest that SfHsp90s are essential for the resistance of S. frugiperda to high temperature and emamectin benzoate stresses.

Allometric analysis provides an insight into the function and diversification mechanisms of body parts in organisms. The allometry and variability in size of various body parts of three hymenopteran species, Anisopteromalus calandrae (Howard), Anisopteromalus quinarius Gokhman & Baur, and Heterospilus prosopidis Viereck, which are solitary ectoparasitoids of stored-product insect pests, were studied. The relationship between many of the traits measured and body size is negatively allometric, others were isometric, and none were positively allometric. The two species of Anisopteromalus were less variable in size than H. prosopidis and there were intersexual differences in both species of Anisopteromalus. Although the patterns in these differences are complex and difficult to interpret from an ecological perspective, based on information on their behaviour it is hypothesized that stabilizing selection is associated with the negative allometry of two traits: ovipositor length in at least two species and male leg length in both species of Anisopteromalus. This hypothesis is supported by the lower variability in the size of these body parts compared to other body parts examined in this study, which is typical of traits subject to stabilizing selection.

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.

Intensive use of pesticides is among the main drivers of biodiversity loss, especially of insects. Here, field concentrations of chemical synthetic pesticides were measured in soil and carabid beetles in a vineyard (VP) and olive grove (OP), in two consecutive years. The aim was to determine if active ingredients in pesticides applied in the field accumulate in carabids and how this correlates with treatment intensity. Carabids and soil samples were collected at a vineyard and olive grove in Zadar County in Croatia, soil in 2018 and 2019 and carabids in 2019. Both were under integrated pest management (IPM), with a total of 34 pesticides applied, between January and August in the two years of this study. Using LC-MS/MS, a broad range of pesticides, mainly fungicides, was detected in the soil and carabids. In soil samples, boscalid (0.047 mg/kg), mandipropamid (0.08 mg/kg), fluopyram (0.09 mg/kg), cyprodinil (0.09 mg/kg) and tebuconazole (0.13 mg/kg) were detected in the highest amounts. In addition, nine substances were detected in carabids, with valiphenalate (0.048 mg/kg), difenoconazole (0.051 mg/kg) and azoxystrobin (0.064 mg/kg) in the highest concentrations. Bioaccumulation factor (BAF) indicated the accumulation of valiphenalate, metalaxyl-M, spiroxamine and difenoconazole in carabids. Data measured directly in the field revealed the accumulation of pesticides in carabids, which indicates they could be good bioindicators in IPM and contribute to a better understanding of the distribution of pesticides in Mediterranean agroecosystems.

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.

Prior familiarity of carabid beetle populations with seeds of a plant species might result in a preference for locally available species, either due to evolutionary adaptation or learning. Rejection of exotic species might favor the survival of the exotic species due to enemy release. In adults of two Carabidae species, Pseudoophonus rufipes (DeGeer) and Harpalus affinis (Schrank), we investigated the consumption of seeds of the local (growing inside the distribution range of experimental carabid individuals) Asteraceae species Taraxacum officinale and Crepis biennis, and the exotic (growing outside this area) Asteraceae species Adenostyles alliariae and Homogyne alpina. We assumed that the seeds of the exotic species would be consumed less than the seeds of the local species because the seeds of exotic species are not typically found within the range of the tested carabid populations and therefore may be preferred less than the seeds of local species. The seeds of both exotic species were consumed less than the seeds of the preferred local species, T. officinale, but were consumed more than the seeds of the rejected local species, C. biennis. Both carabid species preferred A. alliariae seeds over H. alpina seeds. No difference was observed between the preferences of the mobile and well-flying species P. rufipes and the sedentary and rarely flying H. affinis. The study did not demonstrate the hypothesized preference of the two tested beetle species for the seeds of locally available plant species.

Clear-cuts in production forests provide an open, sunny environment, with an abundance of nectar, as well as exposed soil and woody debris. This makes them a potential habitat for several groups of insects that typically use open habitats like grassland, including those species that visit flowers. In the current study, we used colour pan traps to catch flower-visiting species. Study sites were selected according to age (2-8 yrs since clear-cut) and land-use history (forest or meadow 150 yrs ago). We caught and identified solitary bees (395 specimens belonging to 59 species), social bees (831/16), other Hymenoptera (367/66), Syrphidae (256/31), and beetles (Lepturinae & Cetoniinae; 11,409/12). Age of the clear-cut strongly affected species composition as well as several groups and species, with most species caught mainly in the younger clear-cuts. Flower abundance statistically affected several groups and species, but inferring causation is difficult due to the flower-richness bias in pan trap catches. Bare soil and woody debris were important for the insect assemblage sampled, while bare rock was not. Although the majority of the insects caught were forest species, about one third of the species were associated with open, agricultural sites and hence seem to be able to locate and exploit resources in clear-cuts.

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.

Because it is an important pest of rice, Abidama liuensis Metcalf is well documented in terms of its bioecology and control. However, there are few studies on the biology of this pest. In this study, a technique was developed for rearing this insect under laboratory conditions (26 ± 2°C; 75 ± 3% RH; and 12L : 12D photoperiod) and its immature stages are described. Egg development is divided into four stages, of which S1 took the longest time (accounting for 11.70% of total developmental time); 90% of the eggs that completed S2, hatched. Nymphal instars can be distinguished by body size, colour and other morphological features. Total developmental period of immature stages was approximately 50 d, with the averages of the five stadia 5.18, 4.33, 5.28, 10.41 and 8.5 days, respectively. Using this rearing technique, it is possible to rear A. liuensis throughout the year, which will facilitate further ecological, behavioural and molecular studies and the development of ways of controlling this insect in the field.

Automated pheromone dispensers disrupt the mating behaviour of pest moths by releasing pheromone during their daily activity period, which is not the same for all target species. These periods usually occur in or close to night time and last just a few hours, so automated sampling devices are needed to characterize them. However, the commercially available automated models do not provide enough temporal resolution for characterizing the short diel periods of sexual activity of moths. Thus, we built and tested a relatively cheap and simple high-temporal-resolution image-sensor insect trap. It consisted of a Raspberry Pi computer with an infrared camera operated by open-source software and housed in a plastic box. The Raspberry Pi was powered by a solar panel and rechargeable battery that were mounted on a solid and weather-proof structure made of cheap materials. Pictures were downloaded by WiFi from the Raspberry's SD card to a computer. Six traps baited either with synthetic sex pheromone or with females of Grapholita molesta (Busk) were tested in the field. The traps were sturdy, reliable and easy to use, taking pictures at 10 min intervals, 24 h a day for over two months. These pictures confirmed previous results regarding the period of sexual activity of the oriental fruit moth, which will aid in determining the optimal time for operating automated pheromone dispensers.

The predatory bug, Orius laevigatus (Fieber, 1860) (Hemiptera: Anthocoridae), is an important biological control agent and widely used for augmentative biological control of the western flower thrips, Frankliniella occidentalis Pergande, 1895 (Thysanoptera: Thripidae) in greenhouse crops. This bug is generally reared using the Mediterranean flour moth, Ephestia kuehniella Zeller, 1879 (Lepidoptera: Pyralidae). The aim of this study was to determine the effects of E. kuehniella eggs produced by adult moths reared on different larval diets on the performance of O. laevigatus. The diets were 95% cornmeal + 5% yeast (CY diet), 53.3% cornmeal + 26.7% wheat bran + 15% Glycerine + 5% yeast (CBGY diet) and 53.3% wheat flour + 26.7% wheat bran + 15% Glycerine + 5% yeast (WBGY diet). Laboratory studies started with newly emerged nymphs of O. laevigatus kept in a climate chamber at 27°C, 60% relative humidity and a 14L :10D photoperiod. Eggs of E. kuheniella adults that were fed on one of the three different larval diets were provided to the nymphs as a source of food and bean pods of water. Following adult emergence, all individuals were sexed, and female and male pairs were put in plastic containers (30 cc) with eggs of E. kuehniella and bean pods. Nymphal development time, fecundity and longevity of O. laevigatus were not differently affected by feeding on the eggs of E. kuehniella reared on the three diets. In addition, the daily and total egg consumption of adults of O. laevigatus were similar. Because the CY diet eggs contain more nutrients, their consumption by nymphs was lower. This study indicates that the CY diet is an adequate diet for rearing E. kuehniella for producing eggs for rearing O. laevigatus.

We evaluated the efficacy of four entomopathogenic fungi (EPF) and their compatibility with the bioinsecticide spinosad for control of Ephestia kuehniella (Zeller) under laboratory conditions. Three EPF, including Beauveria bassiana (Balsamo-Criveili) Vuillemin isolates Z1 and Iran 1395C, Lecanicillium (= Verticillium) lecanii (Zimmerman) Zare & Gams, isolate Iran 229, and Purpureocillium (Paecilomyces) lilacinum (Thom) Luangs-ard, Hywel-Jones & Samson, isolate Iran 1026 were tested against third and fifth larval instars of Ephestia kuehniella using a filter paper bioassay. Mortality caused by the EPF ranged from 63.3-72.5% for third instars and 50-65.5% for fifth instars, with LT₅₀ ranging from 8.4-10.5 d and 10.1-12.9 d, respectively. The effect of spinosad at LC₁₀ (= 26.2 ppm) on EPF spore germination was evaluated and found to be negligible, ranging from 0% for B. bassiana Z1 to 5.7% for P. lilacinum. The LC₅₀ values for spinosad against third and fifth instar E. kuehniella larvae were 452.5 and 1446 ppm, respectively. Subsequently, spinosad at LC₁₀ was applied to third instar E. kuehniella larvae 24 h before application of the EPFs at LC₅₀. The addition of spinosad to applications of L. lecanii and B. bassiana Z1 and Iran1395C isolates synergized their pathogenicity to E. kuehniella larvae, whereas the effect was merely additive for P. lilacinum. Our results suggest that these EPF isolates can be used effectively in combination with spinosad for management of E. kuehniella in stored products.

The genus Mecistorhabdia Kiriakoff, 1953 is reviewed and one new species M. sulaki sp. n. from the Central African Republic and Cameroon (Afrotropical region) described. The holotype female of the type species M. haematoessa (Holland, 1893) is matched with a conspecific male using a molecular technique. M. burgessi Kiriakoff, 1957 is removed from the synonymy as it is considered to be a valid species. Habitus and male genitalia of all three species are illustrated along with the female genitalia of M. haematoessa. A key for identification of species based on the structure of male genitalia and a map of their distribution are provided. The results of a study of the genetic diversity of the three species of Mecistorhabdia, based on cytochrome c oxidase subunit I gene, are presented. Relationships between species are briefly discussed.

Quantifying the degree of ecological specialization of animals is essential for understanding the evolution of resource use in changing environments. Stable isotope analysis (SIA) is a powerful tool for investigating the ecological niches of animals and providing insights into their diet. This study focused on the ecological role of two coastal species of ants, Camponotus morosus and Dorymyrmex goetschi, in Chile. Their seasonal isotopic niches were characterised using carbon (δ¹³C) and nitrogen (δ¹⁵N) analysis. This was done on El Tabito Beach, a coastal area with a pronounced seasonality. The results indicated unique niches for each species and variation between them across seasons. While C. morosus maintained a consistent niche breadth throughout the year, D. goetschi displayed a narrower niche in summer. Our analyses showed that terrestrial-derived carbon constituted the primary food resource for both species of ants, with a slight increase in the marine component in summer. Overall, the results highlight seasonal variations in isotopic signatures, niche breadth, and diet composition and underscore the importance of considering temporal dynamics in ant ecology and, in particular, in trophic interactions.

The field cricket, Scapsipedus icipe Hugel and Tanga (Orthoptera: Gryllidae) is edible and could be used to reduce malnutrition in Sub-Saharan Africa. As the demand for cricket products is increasing, there is a need to find cost-effective ways of rearing this cricket using locally available and affordable sources of food. This study evaluated the feeding preferences of the field cricket S. icipe for 11 species of dayflowers (Commelina spp.; Commelinaceae), using no-choice and multiple-choice experiments in controlled environments. Leaf feeding rates and the nutrient content and phytochemicals of the plants were determined. The ANOVA results indicate significantly higher feeding rates when offered Commelina petersii and C. forskaolii, than Commelina sp. and C. purpurea in no-choice experiments. Multiple-choice experiments ranked C. petersii as the most preferred species followed by C. forskaolii and the two reference species, C. benghalensis var. benghalensis (non-hybrid variant) and C. benghalensis (hybrid variant). The Spearman correlation and PCA revealed positive significant associations between leaf feeding and Ca and NDF content of leaves and a negative significant association between Ca and NDF. A high Ca/low NDF content was recorded for C. petersii and a low Ca/high NDF content for C. purpurea. The beta regression analysis and a biplot identified six phytochemical constituents influencing leaf feeding: phenols, alkaloids, tannins, glycosides, saponins and anthraquinones. Phenols stimulate feeding by S. icipe on C. petersii and C. forskaolii, whereas the tannins and alkaloids in Commelina sp. and C. purpurea, acted as deterrents. Nutrient content and phytochemicals are two important factors determining the suitability of species of Commelina for the field cricket S. icipe. Based on the results of this study, the leaves of C. petersii are highly recommended as a source of food for the mass rearing of this field cricket (S. icipe) and boosting entomophagy in Sub-Saharan Africa.

The new genus Kevinilla Bartholomay & Cambra includes the following four Neotropical species: Kevinilla ludovica (Cameron, 1895) comb. n. (the type species), K. bicarinata (Cambra & Quintero, 2008) comb. n., K. bimaculata (Cambra & Quintero, 2008) comb. n., and K. hansoni (Cambra & Quintero, 2008) comb. n., all transferred from Pseudomethoca. A neighbour joining tree clustered IST1 sequences of Kevinilla in a subclade of the main clade, which includes species of Pseudomethoca and Dasymutilla. Therefore, here Kevinilla is considered to be a member of the subfamily Sphaeropthalminae, tribe Pseudomethocini. A key for both sexes of the known species of Kevinilla is given, as well as an account of seasonal flight activity of males recorded over six years using Malaise traps on Barro Colorado Island, Panama.

Cuticular lipids are essential for the functioning of all arthropods. They maintain water balance, are involved in intraspecific and interspecific chemical communication and prevent fungal and bacterial infections. Although, the insect's lipid layer is relatively well known, that of spiders is considerably less well known. Only a few species are studied in terms of the identification and composition of cuticular lipids. The results obtained so far are discussed in this article. Spiders are subjected to various forms of extraction and in the majority of cases the subsequent analysis using GC-MS identified hydrocarbons, carboxylic acids, esters, alcohols, aldehydes, ketones, methyl ethers and cholesterol. Among these lipids there are semiochemicals, mainly pheromones and kin recognition cues. Despite the few publications on spider cuticular lipids, this subject is significant in terms of searching for antimicrobial substances such as potential bio fungicides and medicines.

The degeneration in flight ability in beetles has rarely been studied in detail with regard to the polymorphism of flight traits within species. However, intraspecific diversity in flight traits means that the flight ability of species is in the process of degenerating, which could provide important insights into how flight ability in beetles degenerates. In this study, the flight muscle and hind wings of the genus Synuchus in Japan were studied, which revealed the morphological status of flight traits in 21 species of Synuchus. Several species in this genus were found to show intraspecific polymorphisms in the states of the flight muscle and hind wings, and in particular, the very high diversity of different types of hind wings. These results indicate that this genus contains a mixture of species at various stages in the degeneration of the ability to fly.

Two new species and two new subspecies of the satyrine butterfly genus Punargentus Heimlich, P. atusparia sp. n., P. heimlichi sp. n., P. blanchardi libertas ssp. n. and P. atusparia yupania ssp. n., are described from north-central Peru (Ancash, Huánuco and La Libertad). The affinities of the new taxa are evaluated based on molecular data obtained using target enrichment and COI barcoding. Punargentus is fully supported and consists of two branches, the P. lamna clade with four species and P. blanchardi clade with three species, two of which are described here. Species in the P. blanchardi clade occur in Andean shrubland, at altitudes between 2800-3600 m, whereas those in the P. lamna clade occur in puna grassland at 3600-4600 m, with occasional overlaps. Based on their habitat preferences, none of the newly described species are in need of immediate conservation measures. The genus Etcheverrius Herrera is reinstated, with E. chiliensis (Guérin-Méneville) and E. tandilensis (Köhler), comb. n.

In the landscape of the Dolomites, within the protected area of the Paneveggio - Pale di S. Martino Park in the Eastern Alps of Italy, a study was conducted to explore the distribution of carabid beetles. To achieve this, pitfall traps were placed along a 1000-m elevation gradient, following the bioclimatic gradient from spruce forests to the resilient pioneer vegetation in the extreme high-altitude environments. The research revealed that both community diversity and biogeographic diversity exhibited a clear correlation with the bioclimatic gradient. As one ascended to higher altitudes, the composition and distribution of carabid beetle communities shifted, reflecting the bioclimatic gradient. The chorological spectrum of the communities showed that Pleistocene paleoclimatic events provided the triggering factors affecting the postglacial recolonization of alpine ecosystems of the Dolomites region. Most of the sampled species displayed specific life strategies that enabled them to thrive in this harsh setting, responding to the selective pressures imposed by ecological factors. An extensive dataset encompassing the diversity of carabid beetles in these high-altitude domains was created. Given that the studied environments are widely distributed along the Italian Eastern Alps, the dataset serves a crucial purpose as it can be used as a reference for other research campaigns conducted in similar environments. Furthermore, it could act as a temporal benchmark for future researches on insects living in extreme environments, e.g. the Dolomites, or for comparing changes in climate that may be detected by future studies in the same geographic area.

In the context of ongoing threats to forest ecosystems, this study investigates the temporal and spatial dynamics of Lymantria dispar defoliation intensity over a period of three years. We analysed the relationship between the insects' reproductive and feeding behaviours and forest stand characteristics, exploring the key factors that shape this behaviour. The results revealed a dynamic pattern, with a significant escalation of defoliation starting from the second year and peaking in the third. The analysis highlighted that, among several forest stand characteristics, woody species abundance and specific forest composition significantly influence population density and defoliation intensity. Sporadic outbreaks of the insects were associated with stand features, posing major challenges to forest health. These findings make a significant contribution to understanding the population dynamics of L. dispar and provide essential insights for forest managers in efficiently managing this defoliator. By highlighting the complex interactions between the insect and its environment, this study lays the groundwork for conservation and protection strategies for forest ecosystems.

Most Neotropical forest-dwelling leafhopper species are rare and exhibit limited distributions. The Mexican leafhopper fauna is known to be highly diverse and identification of genera and species is difficult because no attempts have been made to provide comprehensive identification tools for the fauna. Here, a dichotomous key to all genera recognized within Mexico of the diverse but little studied leafhopper tribe Athysanini is provided. Spinulana josefinae Pinedo-Escatel sp. n. is described and illustrated based on specimens collected in the dry tropical forest of Oaxacan mountains. A total of 46 genera and 146 species are now recognized in the checklist of Athysanini of Mexico. Notes on type repositories, distributional data and maps, and selected references are provided.

Chemical defence in insects is an increasingly popular subject of research and has the potential for providing unexplored compounds with unknown properties for drug and repellent discovery, so the secretions of various species of insects are currently being studied, and new ways of collecting these secretions are being sought. Silica gel and activated carbon were used as absorbents to collect the sprayed defensive secretion of Eurycantha calcarata. Using gas chromatography coupled with mass spectrometry, 49 compounds were identified, including 19 carboxylic acids, nine esters, ten alcohols, five hydrocarbons, and other organic compounds. The most abundant two compounds from each group were: hexadecanoic acid, octadecanoic acid, 9-hexadecenoic acid octadecyl ester, hexadecanoic acid tetradecyl ester, octacosanol, triacontanol, tridecane, and tetradecane. Silica gel turned out to be a better absorbent because it captured more compounds than the activated carbon. The mass of the absorbent did not affect the quality of the analyses. This paper is the first describing the volatile secretions emitted by phasmid representatives that originate from abdominal structures rather than the glands on prothorax. The presented results of the analyses and the known properties of the detected compounds give grounds for the conclusion that these secretions are of importance for defence in this species of phasmid.

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.