Ostrinia furnacalis Guenée is an important pest of maize. The current use of microbial agents to control O. furnacalis have been relatively successful. However, upon infestation with microorganisms, O. furnacalis initiates an innate immune response to defend itself against foreign invaders. Therefore, understanding the immune mechanisms in O. furnacalis is important to ensure a more efficient use of microbial agents for the control of this pest. In the present study, a gram-positive bacterium, Staphylococcus aureus, and a gram-negative bacterium, Escherichia coli, were used to induce an immune response in O. furnacalis. Transcriptomic sequencing was then used to screen for genes that were significantly differentially expressed after microbial induction and sequence comparison and phylogenetic analysis to identify immune-related genes the expression of which was significantly induced. The results show a large number of genes were differentially expressed in O. furnacalis after microbial induction, the majority of which were immune-related genes. The expression of some immune-related genes such as those encoding antimicrobial peptides, peptidoglycan recognition proteins and serine protease inhibitors were strongly induced. Overall, our study increases the understanding of the mechanism of the innate immune response in O. furnacalis and provides a theoretical basis for better biological control using microbial agents.

This manuscript compiles all the available information on the presence of the native mosquito species Aedes cretinus in Greece, before and after the invasion of Aedes albopictus. Mosquito survey data particularly from the Region of Attica, as well as other areas in Greece indicate Ae. cretinus has become scarce since the invasion of Ae. albopictus, which is now widespread. This mini review on Ae. cretinus occurrence in Greece over the years indicates a marked decline in its populations that seems to be related to the prevalence of the invasive mosquito Ae. albopictus, and a need for more comprehensive entomological surveys in areas where these species co-occur.

Molecular markers have become indispensable tools in contemporary ecological research, offering insights into genetic diversity and structure. These parameters are pivotal for addressing fundamental questions in landscape ecology and planning effective species conservation. Grasshoppers have one of the largest genomes known. A significant portion of the grasshopper genome is composed of mobile genetic elements, with a particular abundance of retrotransposons. In this study, we utilised the iPBS (inter-primer binding sequence) PCR based fingerprinting marker system, as a novel approach based on retrotransposons for the study of Orthoptera. We evaluate the efficacy of the iPBS primers system in characterizing the genetic diversity of two large-genome grasshopper species, Stethophyma grossum and Chrysochraon dispar. Our findings demonstrate the potential of iPBS markers as a valuable tool for assessing the genetic diversity of orthopterans. This approach offers a promising avenue for future research in population genetics and conservation biology.

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.

Prey animals employ masquerade to avoid recognition by visual predators by developing a resemblance to inedible objects in their environment. Phytophagous flea beetles seem to resemble models of their own manufacture. While feeding they cause light- or dark-coloured hole-like damage on the leaves of their host plants that resembles the beetle's body in colour and size. Resemblance to the model and the frequency of the model can influence the efficiency of masquerade. To examine masquerade efficiency in light- and dark-coloured beetles, we evaluated their survival benefits from resembling feeding damage in the field. This was done by using two species of beetle of different colour as prey and a jumping spider as the predator. Dark-coloured species were more likely to avoid predation when they were placed on a background with damage similar in colour to their body, whereas increased survival was not recorded for light-coloured species. The extent of the feeding damage of 34 light- and dark-coloured species of beetle was compared. Variation in the extent of the damage was associated more with host plant taxa than beetle body colour. These results indicate that the efficiency of masquerade can vary among beetle species and/or phenotypes.

Our study showed that under natural conditions the rate and speed of postdiapause emergence by overwintering larvae of the endoparasitic wasp, Dinocampus coccinellae (Schrank) is enhanced when its ladybird beetle host Coleomegilla maculata (DeGeer) receives a nutritious (proteinaceous) diet during late winter and early spring. Living aphid prey provided during April and May yielded the fastest rates of D. coccinellae postdiapause development, followed by an artificial protein/carbohydrate diet and flowering (pollen-producing) heads of dandelion. D. coccinellae development was slowest when hosts received only sugar water or water alone. These results indicate that there is an interaction during late dormancy between host diet and subsequent parasitoid performance. From these studies we conclude that the initiation of feeding by C. maculata hosts, whether on prey or nutritious plant-based substances, during early spring may play an important role in the timing and success of postdiapause larval development and emergence by the parasitoid D. coccinellae. This interaction appears to be an adaptive feature that synchronizes the completion of the parasitoid's postdiapause development with the feeding and occurrence of potential ladybird beetle (C. maculata) hosts in spring. Thus, we conclude that at this point in their life cycles, the developmental success of both the host and the parasitoid are interdependent. It appears that the presence and utilization of aphid prey and/or a rich pollen source early in the spring season could have both positive and negative effects on the local population of ladybird beetle hosts.

Invasive ambrosia beetles, such as the black stem borer (Xylosandrus germanus), pose serious ecological and economic threats to various natural, semi-natural and artificial ecosystems with suitable host plants. This study investigates the temporal and spatial variation in X. germanus abundance within lowland, mostly oak-dominated forests of the West Carpathians, focusing on the influence of tree species diversity, altitude, and forest stand age. Our findings reveal a strong positive correlation between tree diversity and X. germanus abundance, suggesting that diverse forests provide favourable conditions for beetle establishment. Altitude also exhibited a significant positive effect, likely due to increasing humidity and more suitable microclimatic conditions at higher elevations. In contrast, forest age had a small but significant negative effect, potentially due to reduced availability of stressed host trees in older stands. Beetle activity peaked in early to mid-June, in agreement with previous observations of phenology of this species in Central Europe. These findings contribute to our understanding of the ecological factors shaping X. germanus populations and provide valuable insights for forest management strategies aimed at mitigating the spread of invasive ambrosia beetles.

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.

Haplodiploidy is a sex determination system in which males are haploid and females are diploid. In the typical haplodiploid system, females inherit half of their genome from each parent, whereas males inherit a haploid genome exclusively from their mother. However, several exceptions to this pattern have recently been reported in some insects and spider mites, underscoring the need for rigorous genetic analyses of inheritance patterns in other haplodiploid species. Thrips (order Thysanoptera) are a major clade that exhibits haplodiploidy. Here, we investigated inheritance in the onion thrips, Thrips tabaci, by comparing parent-offspring genotypes using an amplicon-based microsatellite genotyping-by-sequencing method (Short Sequence Repeats-Genotyping by Sequencing, SSR-GBS). We successfully genotyped eight loci across eight families from the sexual lineage and additionally analyzed five families from the thelytokous lineage, including both diploid and triploid strains. In the sexual lineage, segregation conformed to arrhenotoky: F₁ females inherited one allele from each parent, and F₁ males carried a single maternal allele. In the thelytokous lineage, offspring inherited only alleles present in the mother. Compared with fragment-length genotyping, SSR-GBS increased the mean number of alleles detected per locus by 28% and reduced the rate of size homoplasy (alleles of the same size but different sequences), yielding clearer separation of the sexual and thelytokous lineages. These findings advance our understanding of the evolution of reproductive systems in this major haplodiploid clade and demonstrate the utility of SSR-GBS for high-resolution SSR genotyping.

The insect biodiversity crisis affects diverse cultural landscapes as well as natural and semi-natural habitats. Accordingly, the effectiveness of protected areas in conserving insect communities needs to be evaluated. We employed photo-interpretation of aerial photographs from the past (1938-1947) and present (2014-2019) to analyse changes in natural habitats with diverse canopy cover in seven long-term protected areas (jointly called 'reserves') in the Czech Republic, Central Europe, and evaluated potential links between these changes and butterfly and moth (Lepidoptera) declines. We observed a marked decrease in habitat heterogeneity, largely due to the expansion of closed-canopy forests at the expense of semi-open habitats (e.g. forest steppes, open woodlands) and open grasslands. An analysis of faunistic records of 162 species of butterflies and 160 species of macro-moths before and after 2000 showed that, on average, the reserves have experienced losses of 26% of butterfly species and 19% of moth species. Trait-based analyses suggested that the losses were associated with particular life-history traits. Non-generalist butterflies with a short period of seasonal flight activity, and moths associated with grasslands and with non-feeding adults, had a greater probability of going missing (meaning potentially locally extinct) in the reserves. These findings suggest that conservation efforts should prioritise active management that aims to restore habitat heterogeneity in order to mitigate the ongoing trend of insect decline.

Combining a biotin-enrichment protocol and 454GS-FLX titanium pyrosequencing technology, we characterised 22 polymorphic microsatellite loci from the parasitic wasp, Habrobracon hebetor (Say) (Hymenoptera: Braconidae), a cosmopolitan species commonly used in biological control against a wide range of both major lepidopterous pests of stored products and field crops in different parts of the world. Three multiplex PCR sets were optimised and characterised across 46 H. hebetor specimens from two samples collected from millet fields in Niger. Two to 11 alleles were found per locus and observed heterozygosity ranged from 0.289 to 0.826. Polymorphism was detected in both samples with a similar level of observed heterozygosity (0.482 vs. 0.502) and number of alleles (4.1 vs. 3.6). Deviation from Hardy-Weinberg equilibrium was detected at the same five loci in both samples and five or seven more loci in each sample but was not associated with heterozygote deficiencies. Even though evidence for linkage disequilibrium was found between a few alleles, these new loci segregated independently. The variability of the 22 loci will enable estimates of genetic diversity and structure patterns, as well as gene flow between H. hebetor populations at different spatial scales. Cross-species amplifications were successful among the six Bracon spp. tested and nine loci will be particularly appropriate for population genetic studies in B. brevicornis.

Understanding the relationship between solitary bee flight and flowering phenology is globally relevant for environmental management and habitat restoration. Using Swedish citizen science data over an 11-year period, the flight behaviours of two oligolectic solitary bees (Andrena hattorfiana and Andrena marginata) were compared to the flowering phenology of their hosts (Knautia arvensis and Succisa pratensis) in southern Sweden. There were 2,327 and 4,566 records of flight and flowering, respectively. While associative studies cannot resolve the degree of oligolecty, a strong temporal association of Andrena hattorfiana with Knautia arvensis and Andrena marginata with Succisa pratensis was indicated. Three conclusions emerged when comparing annual data: first, the flight period of both bee species studied overlapped with the flowering period of their corresponding host plants. Second, earlier flowering of Knautia arvensis corresponded with the earlier flight of Andrena hattorfiana. Third, the flight period duration was unaffected by the flowering period duration. For Andrena hattorfiana/Knautia arvensis, climate change may shift the start of flight and flowering periods to earlier dates in the year. A similar response would be expected for Andrena marginata/Knautia arvensis, but not for Andrena marginata/Succisa pratensis where there instead might be an increasing mismatch between the flight and flowering periods.

Temperature affects the distribution and success of Apis mellifera subspecies. To survive high temperatures in their natural habitats, unique adaptive traits have been evolved by various A. mellifera subspecies. A. mellifera jemenitica is a sub-tropical subspecies that is native to the Arabian Peninsula. It is one of the most thermotolerant A. mellifera subspecies and the only subspecies that can successfully survive long summers with daily temperatures exceeding 45°C in the Arabian Peninsula. In hot, dry conditions and short seasons, A. m. jemenitica can successfully establish its colonies. In this article, the different morphological, behavioural and physiological aspects of the thermal adaptation of A. m. jemenitica, which are its size, pigmentation, brood cell size, seasonal cycle, foraging behaviour, heat shock proteins and life genes are discussed. These aspects account for how A. m. jemenitica can withstand and survive the high summer temperatures on the Arabian Peninsula.

Fragmentation and destruction of natural habitats threaten essential plant-pollinator interactions. Despite their importance for biodiversity they remain understudied in the context of ecosystem functioning in Morocco. This study examines the influence of forest and agricultural landscapes in Northwestern Morocco on plant-pollinator interactions by analysing the structure and dynamics of their networks. Data were collected between mid-March and mid-July 2023 at eleven sites in different landscapes. The results show significantly higher richness and abundance of pollinators (Hymenoptera, Diptera and Coleoptera) in the cork oak forest of Larache compared to the Gharb plain. High plant diversity in forest landscapes promotes plant-pollinator interactions, enhancing network stability and resilience and the vulnerability of forest.

The success of animal species is shaped by a combination of ecological conditions and behavioural plasticity, with the latter being particularly crucial for the spread of invasive species. Megachile sculpturalis (Apoidea: Megachilidae), an East-Asian solitary bee introduced to France and subsequently spreading across Europe and North America, provides a case study. While its distribution is well-documented, the behavioural traits driving its success remain poorly understood. Our study aimed to explore behavioural patterns associated with its nesting cycle and potential expansion. In 2020, we conducted focal observations of individually marked females nesting in an artificial bee hotel. Daily recordings, based on ethograms, tracked females' activity at the site. We identified key behavioural units related to nesting goals and analysed the frequency and abundance of actions associated with each marked nest. Our results highlighted the significant effort females devote to nest-related actions, with 50-68% of all behaviours focused on nest building, suggesting any strategy of dispersion should be investigated in this context. While a typical nesting sequence was identified, individual variability indicated plastic nesting responses. Notably, females demonstrated a strong tendency to quickly shift their efforts to new nests following closure or abandonment, even provisioning multiple nests simultaneously. This ability to manage several nests at once may be crucial for establishing populations in invaded areas by rapidly expanding nesting efforts across multiple new sites during a single reproductive season. Our findings emphasize the contribution of behavioural studies in understanding reproductive strategies that influence a species' ability to settle in new environments and expand its range.

The plant-biotic pollinator interaction is crucial for the survival of both organisms. Insects are recognised as effective biotic pollinators. As there are few specific studies on the pollination of angiosperms, the emphasis of this review is on understanding the pollination process by reviewing the knowledge of the ginger-insect pollinator interaction in Asia. Currently the plant-pollinator interaction of only 5% of Asian species of Zingiberaceae is evaluated. Previous studies indicate that bees, such as, halictid and blue-banded bees are, among the many floral vistors, the most important pollinators of ginger plants in Asia. Knowledge of non-bee pollinators is still scarce. In order to obtain a more detailed understanding of the interrelationship of the pollinators of ginger plants with the morphology of their flowers, floral scent and geographical factors, further research is needed.

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.

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.

The ladybird, Serangium japonicum (Coleoptera: Coccinellidae), is one of the most important predators of whiteflies in China, however, the suitability of different kinds of prey and nutritional requirements of this predator are poorly studied. The objectives of the present study were to investigate the pre-imaginal development, percentage survival of immatures, adult longevity and fecundity of S. japonicum when reared on two different species of prey, mixed ages of the cotton whitefly Bemisia tabaci Gennadius (Hemiptera: Aleyrodidae) biotype-B (i.e., eggs and nymphs) and green peach aphid Myzus persicae (Sulzer) (Hemiptera: Aphididae) in order to quantify their relative suitability as prey under laboratory conditions of 25 ± 1°C, 50 ± 10% RH and a photoperiod of 16L : 8D. The results of this study indicate that the total developmental period (from egg to adult) was shorter when they were fed on B. tabaci (18.29 ± 0.13 days) than on M. persicae (19.85 ± 0.22 days). The percentage survival of the immatures, growth index, development rate, adult fresh weight, fecundity and percentage of eggs hatching were higher and the pre-oviposition period was significantly shorter when S. japonicum were fed on B. tabaci than on M. persicae. In contrast, there was no significant difference in their longevity and oviposition period when fed on B. tabaci and M. persicae. The results indicate that as a diet for S. japonicum M. persicae is inferior to B. tabaci. This is the first record of S. japonicum being able to complete its development feeding exclusively on M. persicae. Since B. tabaci and M. persicae often simultaneously occur in vegetable fields, these results indicate that it is likely that S. japonicum could be utilized to control mixed populations of aphids and whiteflies, and furthers our understanding of ladybird population dynamics in the field in relation to the availability of different species of prey.

The Oriental latrine fly, Chrysomya megacephala (Fabricius) (Diptera: Calliphoridae), is a rapidly expanding species, likely to become one of the most widely used species in forensic entomology in the near future, as it is currently recorded on every continent except Antarctica. In Europe, it has been confirmed only from a few Mediterranean countries (Portugal, Spain and Malta), together with the closely related and also expanding Chrysomya albiceps. Our study confirms that Chrysomya megacephala has arrived in Eastern Europe, with adult individuals of both sexes recorded during surveys and trapping in a nature reserve along the Black Sea coast in Romania. We present initial data on the overall complex assemblage of native and non-native sarcosaprophagous Diptera at this site and highlight important knowledge gaps. Given its forensic relevance and potential health risks, further investigations into its distribution, ecology, and invasion pathways in Europe are required, particularly as climate change may support its continued expansion into Central Europe.

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 first successful Eucalyptus stands were planted in Israel in 1884. This tree genus, particularly E. camaldulensis, now covers approximately 11,000 ha and constitutes nearly 4% of all planted ornamental trees. Here we review and discuss the information available about indigenous and invasive species of insects that develop on Eucalyptus trees in Israel and the natural enemies of specific exotic insects of this tree. Sixty-two phytophagous species are recorded on this tree of which approximately 60% are indigenous. The largest group are the sap feeders, including both indigenous and invasive species, which are mostly found on irrigated trees, or in wetlands. The second largest group are wood feeders, polyphagous Coleoptera that form the dominant native group, developing in dying or dead wood. Most of the seventeen parasitoids associated with the ten invasive Eucalyptus-specific species were introduced as biocontrol agents in classical biological control projects. None of the polyphagous species recorded on Eucalyptus pose any threat to this tree. The most noxious invasive specific pests, the gall wasps (Eulophidae) and bronze bug (Thaumastocoris peregrinus), are well controlled by introduced parasitoids. Potential entomological hazards of Eucalyptus in Israel are most likely to originate from the Australian insect fauna.

Plants defend themselves by producing various volatile organic compounds (VOCs) that have direct and indirect effects on insect herbivores. Their production is often specific to the plant and herbivore species involved, with some herbivores being able to manipulate their production. Here, we used passive volatile sampling using polydimethysiloxane (PDMS) tubing to compare VOCs produced by control, mined and galled oak leaves in the field. Leaves mined by a microlepidopteran leaf-miner (Phyllonorycter harrisella) produced a lower amount of two sesquiterpenes and an increased amount of eucalyptol. In contrast, leaves galled by the gall wasp (Neuroterus quercusbaccarum) did not produce a lower amount of any of the VOC measured when compared to the control. They produced a higher amount of farnesene, β-bourbonene and eucalyptol. Some of these VOC are known for their anti-herbivore function. In a second experiment, we treated the experimental leaves with the phytohormone methyl jasmonate (MeJA) to determine if leaf-miners or gallers reduced the overall inducibility of infested leaves. MeJA induced a sixteen-fold increase in VOC production. However, there was no difference in VOC production of control, mined and galled leaves treated with MeJA. Our results show that up- and down-regulation of VOCs can vary among leaves infested by different herbivores. More experiments are needed to determine if this is due to manipulation by the herbivores themselves or due to a defensive response of the plant.

Infestation by invasive horse-chestnut leaf miner, Cameraria ohridella Deschka & Dimić, permanently lowers the aesthetic and cultural value of horse-chestnut in Central Europe. In 2017-2018, in urban zones in the cities Parchovany and Strážske in the eastern part of Slovakia, we assessed the efficacy of systemic applications of TreeAzin^®, an azadirachtin-based product, in controlling Cameraria ohridella in trials in which it was microinjected into tree trunks. A total of 16 Aesculus hippocastanum trees were treated with 3 ml of TreeAzin^® per centimetre diameter at breast height [DBH] and another 17 were treated with 5 ml of the same product per centimetre at DBH, at two study plots. In total, 18 trees were left untreated as controls. In this field experiment, we confirmed significantly higher efficacy in the year of application and the following season. Statistically significant differences were found in the average leaf damage caused by C. ohridella, between treated (4.2-24.5% avg. leaf damage) and untreated trees (75.5-94.3% avg. leaf damage). At the end of the first growing season, 81.2-95.0% of the untreated control tree crowns were defoliated while defoliation of the treated trees was 19.2-31.6%. Both the 3 and 5 ml/cm doses were equally effective in terms of crown and leaf damage; no statistical differences were found in average leaf and crown damage between trees treated with doses of 3 ml/cm and 5 ml/cm. Similar results were also obtained the following year. Leaf damage of treated trees was 40.4-16.8% and of untreated trees 67.9%. Crown damage of treated trees was 49.7-59.8% and of untreated trees 78.8%. During the period of this study, the crowns of all the treated trees were statistically and visually healthier and fuller than those of untreated trees. Thus, the efficacy of this systemic insecticide in controlling C. ohridella in Europe is very promising and provides a suitable treatment for reducing the incidence of this invasive pest.

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.

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.

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.

Annual crops are generally assumed to host simplified arthropod communities that depend on immigration from the surrounding landscape. Perennial, low-input crops such as olive groves are likely to depend less on immigration from other habitats, however, studies on the landscape ecology of perennial crops are scarce. This paper studies the assemblages of arboreal spiders in three types of habitats adjoining olive groves: woods, garigue and other cultivated olive groves in a traditional olive producing landscape. Spiders were sampled during summer and the three types of habitats were compared in terms of species, families and functional groups in order to determine differences in diversity and the potential for spider spillover. As is often reported for annual crops, olive groves had a lower alpha and beta diversity than more natural habitats in terms of species, with a strong dominance of a single species, Frontinellina frutetorum (C.L. Koch, 1834). Differences in diversity between olive groves and natural habitats were not significant at family or functional group levels. With the possible exception of orb weavers, this study indicates that the spiders that were common in olive groves did not occur at higher densities in habitats that were more natural. This indicates there is limited spillover between perennial crops and other late-successional habitats. The enhancement of spiders in olive orchards for pest control may thus depend more on local management than on the presence of semi-natural habitats as a source of immigration.

In the field of biodiversity research, tree-related microhabitats in the temperate zone have received substantial interest in the last decade, but one particular microhabitat type, crown microsoils in tree crotches, has largely escaped the attention of scientists. We present a study from Central Europe that focused on the meso- and macrofauna in this microhabitat type. In twelve crotches we found more than 3000 individual animals out of 14 orders, encompassing all major elements of the terrestrial soil decomposer food web. Collembola accounted for more than 50% of the total. As expected, taxon richness correlated with habitat size. We conclude that this is an ideal natural system to study fundamental ecological questions of faunal community assembly.

Parasitoids of different species frequently develop in the same host, a phenomenon referred to as "multiparasitism". Although the outcomes of multiparasitism have been well-documented in the literature, the underlying mechanisms, particularly the substances injected by a female parasitoid along with her egg(s) into a host during parasitism, remain relatively unexplored. Previous work on parasitoids associated with the cabbage white butterfly, Pieris brassicae (Lepidoptera: Pieridae) has shown that the larva of the solitary parasitoid Hyposoter ebeninus (Hymenoptera: Ichneumonidae) has a higher survival but a longer development time when competing with the gregarious parasitoid Cotesia glomerata (Hymenoptera: Braconidae). In this study, we hypothesize that the maternal factors injected by C. glomerata are responsible for the effect on the performance of H. ebeninus larvae. This hypothesis was tested using P. brassicae caterpillars first parasitized with H. ebeninus and then injected with C. glomerata maternal factors, or parasitized by both parasitoids. Our results suggest that C. glomerata maternal factors are at least partially responsible for the reduction in H. ebeninus developmental mortality (likely through effects on the immune response of the host caterpillar), but does not seem to affect its development time. We discuss these results and the current knowledge of maternal-factor-mediated parasitoid interactions.