Analysis of Cry1Ah Toxin-Binding Reliability to Midgut Membrane Proteins of the Asian Corn Borer.

Evolution of insect resistance to Bt toxins challenges the use of Cry toxins to control agricultural pests. In lepidopterans, Cry toxin affinity towards multiple midgut epithelial receptors has become a matter of dispute. Cry1Ah toxin-binding proteins were identified in the larval midgut of susceptible (ACB-BtS) and resistant (ACB-AhR) strains of the Asian corn borer (ACB). A pull-down assay was performed using biotinylated Cry1Ah toxin, and the binding proteins were identified by employing liquid chromatography-tandem mass spectrometry (LC-MS/MS). This study aimed to find the binding consistency of the midgut epithelial protein to the Cry1Ah toxin. The binding proteins from different fractions of SDS-PAGE showed a different pattern. We observed an isoform of prophenoloxidase PPO1b (UniProt Acc No. A0A1Q1MKI0), which was found only in the ACB-AhR fractions. Prophenoloxidase (proPO) is an extraordinary defense molecule activated in insect species during pathogen invasion and the wound healing process. Importantly, this prophenoloxidase might have direct/indirect interaction with the Cry1Ah toxin. Our data also suggest that factors like techniques, enrichment of binding proteins in the sample and the reversible and irreversible nature of the brush border membrane vesicles (BBMVs) to Cry toxins could cause the inconsistency in the protein-protein interactions. Moreover, inside the larva midgut, the influence of the Cry toxins under physiological conditions might be different from the laboratory procedures.

Cloning of Wing-Development-Related Genes and mRNA Expression Under Heat Stress in Chlorpyrifos-Resistant and -Susceptible Plutella xylostella.

Chlorpyrifos-resistant (Rc) Plutella xylostella (DBM) shows higher wing-vein injury than chlorpyrifos-susceptible (Sm) DBM under heat stress in our previous study. To investigate the toxicological mechanisms of the differences in injury of wing vein between Rc- and Sm-DBM collected from Fuzhou, China, total ten cDNA sequences of wing-development-related genes were isolated and characterized in DBM, including seven open reading frame (ORF) (ash1, ah2, ash3, ase, dpp, srf and dll encoded 187 amino acids, 231 aa, 223aa, 397aa, 423aa, 229aa and 299aa, respectively), and three partly sequences (salm, ser and wnt-1 encoded 614aa, 369aa and 388aa, respectively). The mRNA expression of the genes was inhibited in Rc- and Sm-DBM under heat stress, as compared with that an average temperature (25 °C). And, in general, significantly higher down-regulated expressions of the mRNA expression of the wing development-related genes were found in Rc-DBM as compared to those in Sm-DBM under heat stress. The results indicated that Sm-DBM displayed higher adaptability at high temperature because of significantly lower inhibition the mRNA expressions of wing-development-related genes. We suggest that significantly higher injury of wing vein showed in Rc-DBM under heat stress might be associated with the strong down-regulation of wing-development-related genes.

Evaluation of some potential target genes and methods for RNAi-mediated pest control of the corn earworm Helicoverpa zea.

In this study, we explored the efficacy of knockdown four genes required for proper nervous system function by RNAi, in the corn earworm Helicoverpa zea (Boddie). Three of these genes encode components of validated insecticide target sites. We synthesized cDNA sequences orthologous to the Drosophila melanogaster genes Para (paralyticts), TipE (temperature-induced paralysis locus E), GluCl (glutamate-gated chloride channel), and Notch, and used these fragments to synthesize double-stranded RNAs (dsRNAs). We then performed experiments in an attempt to induce RNAi-mediated effects on gene expression and viability using three modes of delivery of the dsRNAs: microinjection of eggs, soaking of eggs and feeding of larvae. Microinjection of dsRNAs into eggs induced reduced hatch rates and knockdown of target gene expression for GluCl, para and TipE, but not for Notch. However, neither feeding nor soaking eggs in dsRNA solutions resulted in discernable RNAi effects. These results demonstrated the susceptibility to RNAi effects of the expression of H. zea genes encoding insecticide target sites, which suggests future avenues of research toward practical applications.

Effects of Embryonic Development Stage and Cryoprotective Agents on Galleria Mellonella Embryo Cryopreservation.

BACKGROUND: The increased research use of the honeycomb pest Galleria mellonella has created the need for cryopreservation. The diverse characteristics of G. mellonella embryos at different stages may affect embryo survival upon cryopreservation due to differential dehydration, cold resistance, cryoprotectant toxicity and permeability. OBJECTIVE: The study aimed to determine the ability of G. mellonella to survive cryogenic condition in the early and late embryonic developmental stages (24h and 75h post-oviposition, PO). MATERIALS AND METHODS: A modified protocol was used to select the proper embryonic stage by comparing the early and late embryonic stages under two procedures of dechorionation-permeabilization (D/P) dilutions. The embryos at the early stage were used for testing the toxicity and viscosity effects of various cryoprotective agents. Various cryoprotectant treatments for improving the hatch rate were studied. RESULTS: The survival rates of embryos at the early stages (24h PO) were 51.5% and 69.5% respectively after cryoprotectant loading in 12% ethylene glycol (EG) for 30 min and dehydration in vitrification solution for for 10min. These survival rates of embryos at the late stages (75h PO), however, decreased to 22.9% and 34.0%, respectively. D/P treatment with Tween 20 and Tween 80 (2:6) slightly improved the survival of embryos at the 24h PO stage after immersion in liquid nitrogen (LN) from 0.1% to 0.6%. The increased exposure time in dehydration treatment from 14 to 30min in two vitrification solutions, EG and methanol (MeOH), slightly increased the survival rate of cryopreserved embryos from 0% and 0.3% to 1.1% and 1.4%, respectively, while the vitrification solution containing dimethyl sulfoxide (Me2SO or DMSO) slightly decreased the hatch rate from 1% to 0.6%. CONCLUSION: The survival rate of G. mellonella embryos after cryopreservation was affected by the oviposition period, eggshell permeability to cryoprotectant, cryoprotectant type, as well as their concentration and exposure times.

Comparative embryogenesis of Mecoptera and Lepidoptera with special reference to the abdominal prolegs.

The eruciform larvae of holometabolous insects are primarily characterized by bearing a varying number of abdominal prolegs in addition to three pairs of thoracic legs. However, whether the prolegs are evolutionarily homologous among different insect orders is still a disputable issue. We examined the embryonic features and histological structure of the prolegs of the scorpionfly Panorpa byersi Hua and Huang (Mecoptera: Panorpidae) and the Oriental armyworm Mythimna separata (Walker) (Lepidoptera: Noctuidae) to investigate whether the prolegs are homologous between these two holometabolous insect orders. In the scorpionfly, paired lateral process primordia arise on abdominal segments I-VIII (A1-A8) in line with the thoracic legs in early embryonic stages, but degenerate into triangular protuberances in later stages, and paired medial processes appear along the midventral line before dorsal closure and eventually develop into unjointed, cone-shaped prolegs. Histological observation showed that the lumina of the prolegs are not continuous with the hemocoel, differing distinctly from that of the basic appendicular plan of thoracic legs. These results suggest that the prolegs are likely secondary outgrowths in Mecoptera. In the armyworm, lateral process primordia appear on A1-A10 in alignment with the thoracic legs in the early embryonic stages, although only the rudiments on A3-A6 and A10 develop into segmented prolegs with the lumina continuous with the hemocoel and others degenerate eventually, suggesting that the prolegs are true segmental appendages serially homologous with the thoracic legs in Lepidoptera. Therefore, we conclude that the larval prolegs are likely not evolutionarily homologous between Mecoptera and Lepidoptera.

A virulence factor encoded by a polydnavirus confers tolerance to transgenic tobacco plants against lepidopteran larvae, by impairing nutrient absorption.

The biological control of insect pests is based on the use of natural enemies. However, the growing information on the molecular mechanisms underpinning the interactions between insects and their natural antagonists can be exploited to develop "bio-inspired" pest control strategies, mimicking suppression mechanisms shaped by long co-evolutionary processes. Here we focus on a virulence factor encoded by the polydnavirus associated with the braconid wasp Toxoneuron nigriceps (TnBV), an endophagous parasitoid of noctuid moth larvae. This virulence factor (TnBVANK1) is a member of the viral ankyrin (ANK) protein family, and appears to be involved both in immunosuppression and endocrine alterations of the host. Transgenic tobacco plants expressing TnBVANK1 showed insecticide activity and caused developmental delay in Spodoptera littoralis larvae feeding on them. This effect was more evident in a transgenic line showing a higher number of transcripts of the viral gene. However, this effect was not associated with evidence of translocation into the haemocoel of the entire protein, where the receptors of TnBVANK1 are putatively located. Indeed, immunolocalization experiments evidenced the accumulation of this viral protein in the midgut, where it formed a thick layer coating the brush border of epithelial cells. In vitro transport experiments demonstrated that the presence of recombinant TnBVANK1 exerted a dose-dependent negative impact on amino acid transport. These results open new perspectives for insect control and stimulate additional research efforts to pursue the development of novel bioinsecticides, encoded by parasitoid-derived genes. However, future work will have to carefully evaluate any effect that these molecules may have on beneficial insects and on non-target organisms.

Embryogenesis of Heliconius erato (Lepidoptera, Nymphalidae): a contribution to the anatomical development of an evo-devo model organism.

This study reports on the embryogenesis of Heliconius erato phyllis between blastoderm formation and the prehatching larval stage. Syncytial blastoderm formation occurred approximately 2 h after egg laying (AEL) and at about 4 h, the cellular blastoderm was formed. The germ band arose from the entire length of the blastoderm, and rapidly became compacted occupying approximately two-thirds of the egg length. At about 7 h AEL, protocephalon and protocorm differentiation occurred. Continued proliferation of the germ band was followed by penetration into the yolk mass, forming a C-shaped embryo at about 10 h. Approximately 12 h AEL, the gnathal, thoracic and abdominal segments became visible. The primordium of the mouthparts and thoracic legs formed as paired evaginations, while the prolegs formed as paired lobes. At about 30 h, the embryo reversed dorsoventrally. Approximately 32 h AEL, the protocephalon and gnathal segments fused, shifting the relative position of the rudimentary appendages in this region. At about 52 h, the embryo was U-shaped in lateral view and at approximately 56 h, the bristles began evagination from the larval cuticle. Larvae hatched at about 72 h. We found that H. erato phyllis followed an embryonic pattern consistent with long-germ embryogenesis. Thus, we believe that H. erato phyllis should be classified as a long-germ lepidopteran. The study of H. erato phyllis embryogenesis provided a structural glimpse into the morphogenetic events that occur in the Heliconius egg period. This study could help future molecular approaches to understanding the evolution of Heliconius development.

Diapause: delaying the developmental clock in response to a changing environment.

Seasonal changes can induce organisms to modify their developmental growth. Many holometabolous insects, especially Lepidoptera, trigger diapause, an "actively induced" dormancy, for overwintering. Diapause is an alternative developmental pathway that reversibly blocks developmental growth during specific transitions and enhances the hibernating potential of the organism. Changes in environmental cues, such as light and temperature, trigger modifications in the levels, or in the timing, of developmental hormones. These in turn switch the developmental trajectory (diapause or direct development), strongly altering larval/pupal growth and inducing the appearance of diapause-bound seasonal morphs (polyphenism). We also discuss an example of vertebrate diapause using the killifish embryo as an example where diapause is an environmentally determined developmental switch analogous to that observed in lepidopteran dormancy. Based on the examples discussed here, we propose that the complex physiological responses leading to diapause might evolve quickly by relatively limited genetic changes in the regulation of hormonal signals that program normal developmental transitions.

Influence of gamma irradiation on productivity indices of the edible Emperor moth caterpillar, Cirina forda (Lepidoptera: Saturniidae).

This study was aimed at generating baseline information for sustainable genetic improvement of Cirana forda larvae for entomophagy, through the use of gamma irradiation. Eggs of C. forda were irradiated with increasing doses of gamma rays from 0 to 200 Gy and raised through larval instal stages under laboratory conditions. The Body Weight (BW) and Head Capsule Width (HCW) of the larval instar stages were monitored as indices of productivity. Successful larval emergence was recorded for all irradiation doses tested and BW of the 1st and 2nd instar larvae were not significantly (p > 0.05) different between the control and treated groups (range = 0.021 +/- 0.003 g/larva in the 200 Gy treatment to 0.028 +/- 0.003 g/larva in the control group and 0.105 +/- 0.003 g/larva in 20 Gy treatment to 0.172 +/- 0.009 g/larva in the control group, respectively). On the other hand, BW during the 3rd and 4th larval instars were significantly (p < 0.05) lower among the irradiated treatments than control. Pattern of distribution of HCW was different from that of BW; as HCW increased with irradiation dose from 10-50 Gy during the 3rd and 4th larval instars. Also, HCW during the 5th instar larvae among the irradiated treatments (range = 5.256 +/- 0.012 to 5.662 +/- 0.026 mm) were not higher than that of the 6th instar in the control group (6.065 +/- 0.010 mm). These results suggest promising potentials of the use of gamma irradiation in sustainably improving the productivity of C. forda larvae for entomophagy.

[Antijuvenile influence of the precocene on the development of adult antennae in the apple surface eating tortricid Archips podana Scop. (Lepidoptera: Tortricidae)].

The influence ofprecocene II, an antijuvenile agent, on the development of adult antennae in the apple surface eating tortricid A. podana Scop was demonstrated. Treatment of the fifth instar larvae and prepupae with different doses of precocene proved to cause different sensitivity of the specimens to the juvenile hormone deficit. Treatment with 450 and 600 microg precocene per specimen during the first days after ecdysis to the fifth instar caused the death of larvae. Treatment with 300, 450, and 600 microg per specimen on the third day of the fifth instar larvae and prepupae caused a delay in the development of adult antennae. The results are discussed with respect to the role of the juvenile hormone in the development of imaginal structures during metamorphosis.

Cold tolerance of field-collected and laboratory reared larvae of Sesamia nonagrioides (Lepidoptera: Noctuidae).

Sesamia nonagrioides Lefébvre (Lepidoptera: Noctuidae) is considered one of the most destructive pests of corn in the Mediterranean region. The purpose of the present study was to investigate some aspects of the cold tolerance of non-diapausing and diapausing laboratory reared larvae of S. nonagrioides, as well as of field-collected larvae, taking into consideration various parameters, such as supercooling ability, mean lethal temperature and accumulation of cryoprotectant substances, in relation to diapause. Our results provide evidence that S. nonagrioides has limited cold tolerance as it displays a low ability of supercooling. This is strongly supported by the fact that mortality of the individuals occurred after extended exposure to subzero temperatures, equivalent or slightly lower to their mean supercooling point. However, lethal temperatures of diapausing larvae were significantly lower in relation to that of non-diapausing larvae, indicating the existence of a direct link between diapause and cold tolerance. Regarding the role of cryoprotectant substances, accumulation of glycerol seems to be closely related to diapause, in contrast to accumulation of trehalose, which is more related to exposure to low temperatures slightly higher than 0 degree C. Finally, non-diapausing larvae of different instars displayed a similar ability of supercooling and tolerance to low temperatures as well as accumulation of cryoprotectant substances. The ecological significance of our findings on cold tolerance of this species is being discussed with particular reference to the microclimate observed in northern Greece.

Biological study of Plutella xylostella (L.) (Lep: Plutellidae) and it's solitary endoparasitoid, Cotesia vestalis (Haliday) (Hym. Braconidae) under laboratory conditions.

Plutella xylostella (L.) (Lep: Plutellidae), is a destructive pest of brassicaceous crops in the world. Cotesia vestalis (Haliday) is one of most important biological control agents of P. xylostella in the world and Iran. Both of P. xylostella and C. vestalis biology were carried out in laboratory condition. Results showed that development time of immature stages of P. xylostella including egg, Instar I, Instar II, Instar III, Instar IV, prepupa, pupa were 2.39 +/- 0.17, 2.18 +/- 0.17, 2.06 +/- 0.28, 2.14 +/- 0.14, 2.54 +/- 0.12, 0.40 +/- 0.12 and 4.23 +/- 0.23 days, respectively. Longevity of female and male were 28.26 +/- 0.05 and 30.22 +/- 0.05 days. By dissecting the parasitized larvae, the egg incubation period of C. vestalis was recorded 1.73 +/- 0.06 days. In long-term oviposition trials, females laid eggs on P. xylostella larvae for up to 10 days. Larval development of the parasitoid in host only required 6.47 days: the first instar larva required 3.25 +/- 0.047 days; the second instar larva needed 2.78 +/- 0.1 days and the third instar larvae exited the host and pupated in, 0.4 +/- 0.07 days. Prepupal and pupal period of wasp were 1.9 +/- 0.06 and 2.13 +/- 0.09 day, respectively. Unmated female and male longevity of wasp were 16.83 +/- 0.37, 16.25 +/- 0.17 and sex ratio is male-biased. When a mixed group and isolated of instars were presented for parasitoid, the 2nd and 3rd instar larvae were so preferred and the 4th instar was less attractive for selection. In choice experiment, the percentage parasitism of 2nd, 3rd and 4th instars was 78.58, 69.94 and 4.36%, respectively. The rapid oviposition rate, short life duration and high percentage parasitism increases parasitoid potential for suppression of host population. Present results suggest that C. vestalis has considerable potential as a biological control agent for P. xylostella.

The effect of Tween 80 on eggshell permeabilization in Galleria mellonella (L.) (Lepidoptera, Pyralidae).

The development of a species-specific protocol for dechorionation and permeabilization of insect eggs is a necessary prerequisite to cryopreserve the embryos. Here we tested different procedures based on heptane or the surfactant Tween 80 as an alternative to alkane, evaluating their efficacy and toxicity on the early (24 h post-oviposition) and late (75 h post-oviposition) stage embryos. Heptane efficiently permeabilized the eggs of G. mellonella but the hatching rate ranged from 0.1 to 4.2 percent in the early stage and from 4.3 to 11.2 percent in the late stage. The embryos treated with 1.25 percent NaOCl + 0.08 percent Tween 80 for 2 min showed the same shrinkage and reswelling percentages as eggs exposed to heptane for 10 sec, with a significantly higher hatching percentage in the early (68.2 +/- 1.5 percent) and late stages (22.4 +/- 3.7 percent). Thus, 0.08 percent Tween 80 allows sufficient permeabilization of G. mellonella embryos without the high toxicity of alkane.

Efeito da idade do parasitoide e do hospedeiro na reprodução de Trichogramma pretiosum Riley (Hymenoptera: Trichogrammatidae) em ovos de Bonagota salubricola (Meyrick) (Lepidoptera: Tortricidae) / Effect of the parasitoid and host age on the reproduction of Trichogramma pretiosum Riley (Hymenoptera: Trichogrammatidae) in eggs of Bonagota salubricola (Meyrick) (Lepidoptera: Tortricidae)

Foram avaliadas características biológicas de fêmeas de Trichogramma pretiosum Riley (Hymenoptera: Trichogrammatidae) linhagem bonagota com três idades sobre ovos deBonagota salubricola (Meyrick) (Lepidoptera: Tortricidae) com cinco períodos de desenvolvimento embrionário. Ovos de B. salubricola com 0-24, 24-48, 48-72, 72-96, 96-120 horas de desenvolvimento embrionário foram oferecidos ao parasitismo por fêmeas de T. pretiosum com 0-24, 24-48 e 48-72 horas de idade, por 24 horas à 25 ± 1º C, 70 ± 10% de umidade relativa e 14 horas de fotofase. Fêmeas do parasitoide com 0-24 horas de vida apresentaram melhores taxas de parasitismo em ovos do hospedeiro com 24-48 horas de desenvolvimento embrionário. Fêmeas com 24-48 e 48-72 horas de vida apresentaram preferência por ovos com 0-24 horas de desenvolvimento embrionário. O percentual de emergência variou entre 20,0 e 60,0%, a razão sexual entre 0,56 e 0,85 e o número de parasitoides/ovo foi superior a um, sem diferença significativa. O ideal para programas de controle biológico de B. salubricola é utilizar o parasitoide na idade de 0-24 horas.

Biological characteristics ofTrichogramma pretiosumRiley (Hymenoptera: Trichogrammatidae) strain bonagota with three ages on eggs of Bonagota salubricola (Meyrick) (Lepidoptera: Tortricidae) at five embryonic developmental stages was studied under laboratory conditions (25 ± 1º C, 70 ± 10% of relative humidity and 14 hours of photophase). B. salubricola eggs with 0­24, 24­48, 48­72, 72­96, 96­120 hours of embryonic developmental stages were offered to T. pretiosum during 24 hours using parasitoid females with 0­24, 24­48 and 48­72 life hours. Parasitoid females with age of 0­ 24 hours showed a higher parasitism rate in eggs of B. salubricola with 24­48 hours of embryonic development. Females with age of 24­48 and 48­72 hours, showed a preference for eggs with 0­ 24 hours of embryonic development. Adult emergence and sex ratio ranged from 20.0 to 60.0% and from 0.56 to 0.85 respectively. The number of parasitoids/egg was always more than one, ranging from 1.03 to 1.14. The ideal for a biological control program of B. salubricola using T. pretiosum strain bonagota is to use parasitoids with a maximum of 24 hours of age.

Two new cell lines originated from the embryos of Clostera anachoreta (Lepidoptera: Notodontidae): characterization and susceptibility to baculoviruses.

Two cell lines designated CAF-Clan I and CAF-Clan II have been established from embryos of Clostera anachoreta (Lepidoptera: Notodontidae) in TNM-FH medium containing 10% inactivated fetal bovine serum. CAF-Clan I consists of a mixture of three cell types: spherical cells, spindle-shaped cells, and giant cells. Most of the cultured cells formed a suspension in the medium and were subcultured more than 60 passages. CAF-Clan II mainly consists of spindle-shaped and spherical cells which attached to the culture surface and have undergone more than 40 passages. The cell population doubling time at 27 degrees C of CAF-Clan I at passage 22 and CAF-Clan II at passage 24 was about 68.5 and 38.2 h, respectively. The chromosome number of both cell lines at passage 15 varied from 62 to 100 in the majority of cells, though a few cells exceeded 260 (n = 30). DNA amplification fingerprinting-polymerase chain reaction analysis confirmed that the origination of the two cell lines was C. anachoreta. The susceptibility of the cell lines to baculoviruses was tested. The results showed that CAF-Clan II was susceptible to infection of Autographa californica nucleopolyhedrovirus (AcMNPV) and Ecotropis oblique nucleopolyhedrovirus (EoNPV). Occlusion bodies (OBs) production was 129 +/- 4 OBs/cell and 124 +/- 15 OBs/cell for AcMNPV and EoNPV, respectively. CAF-Clan I was less susceptible to AcMNPV compared with CAF-Clan II, while non-permissive to EoNPV.

Conserved developmental processes and the formation of evolutionary novelties: examples from butterfly wings.

The origin and diversification of evolutionary novelties-lineage-specific traits of new adaptive value-is one of the key issues in evolutionary developmental biology. However, comparative analysis of the genetic and developmental bases of such traits can be difficult when they have no obvious homologue in model organisms. The finding that the evolution of morphological novelties often involves the recruitment of pre-existing genes and/or gene networks offers the potential to overcome this challenge. Knowledge about shared developmental processes obtained from extensive studies in model organisms can then be used to understand the origin and diversification of lineage-specific structures. Here, we illustrate this approach in relation to eyespots on the wings of Bicyclus anynana butterflies. A number of spontaneous mutations isolated in the laboratory affect eyespots, lepidopteran-specific features, and also processes that are shared by most insects. We discuss how eyespot mutants with disturbed embryonic development may help elucidate the genetic pathways involved in eyespot formation, and how venation mutants with altered eyespot patterns might shed light on mechanisms of eyespot development.

Molecular cloning and characterization of Hearm caspase-1 from Helicoverpa armigera.

Members of the caspase family play a central and evolutionary role in programmed cell death (PCD), which removes unwanted, damaged and dangerous cells during development to maintain homeostasis. In this paper, we describe the cloning and characterization of a caspase from the cotton bollworm, Helicoverpa armigera, named Hearm caspase-1. The 1,350 bp full-length cDNA contains an 885 bp open reading frame (ORF) that encodes a Hearm caspase-1 proenzyme of 294 amino acids. The deduced protein is highly homologous to Spodoptera frugiperda Sf caspase-1 and Drosophila melanogaster ICE and has the highly conserved pentapeptide QACQG, the recognized catalytic site of caspases, suggesting that it is an effector caspase of the cotton bollworm. Northern blot and RT-PCR analyses demonstrate that Hearm caspase-1 is expressed in embryos and the fat body, midgut and haemocytes of feeding and wandering larvae. Expression of Hearm caspase-1 in the haemocytes appears to be correlated with the pulse of ecdysone, and it is up-regulated by ecdysone agonist RH-2485, implying that Hearm caspase-1 activation is regulated by ecdysone.

[Influence of precocene II on the sensory system of antennae and mouthparts in larvae of the fruit tree tortricid Archips podana Scop. (Lepidoptera: Tortricidae)].

The influence of precocene II, an antijuvenile agent, on morphological characters of the chemoreceptor apparatus of antennae and mouthparts was studied in fifth instar A. podana larvae. Treatment with different doses of precocene was performed at the egg stage. It proved to cause changes in the form and number of basiconic sensilla on the maxillary palps and galea and in the size of basiconic sensilla on the second and third antennal segments. The results are discussed with respect to the influence of precocenes on the insect sensory system and the role of the juvenile hormone in regulation of its development.

Habitat and year-to-year variation in haemoglobin concentration in nestling blue tits Cyanistes caeruleus.

Nutrition during the time spent at the nest is critical for the development of the body condition in altricial birds, including nestling blue tits (Cyanistes caeruleus). Trophic conditions tend to be variable in time and space, which should influence the physiological condition of growing birds. In this paper, we consider haemoglobin concentration as a general indicator of chick physiological condition. Its variation is both consistent within broods and indicative/prognostic of survival from the moment of hatching to fledging. We show that haemoglobin concentration of nestling blue tits is on average higher in years and habitats characterised by rich abundance of caterpillars than under poor caterpillar availability. Haemoglobin seems to quite exactly reflect even relatively subtle differences in trophic conditions.