The effect of relative humidity on the behaviour and development of Triatoma brasiliensis

Abstract The preference for relative humidity (RH) and suitability of different levels of this environmental parameter were investigated in the haematophagous bug Triatoma brasiliensis Neiva, 1911 (Hemiptera, Reduviidae). The hygropreference of T. brasiliensis was studied using a RH gradient and the effect of different RHs on the egg hatching, nymph mortality and moulting success was also analysed. The results show that egg hatching in first-instar nymphs of T. brasiliensis was lower at extreme RHs and, particularly, it was lowest at 9.3% RH. The survival of starved nymphs was not affected by RH, but the percentage of engorged nymphs and the ecdysis success of these nymphs once fed was diminished strongly by high humidity. Fourth-instar nymphs preferred to stay at the lowest RH during the first 5 days after feeding and during ecdysis. This preference changed markedly during starvation. Fifteen days after ecdysis, the bugs moved towards intermediate humidities, and 30 days after ecdysis they even preferred the most humid sectors of the gradient. Females preferred to lay eggs in dry environments, suggesting that they may not have a particular hygropreference for oviposition, but that they simply lay their eggs at the RHs where they prefer to stay.     

Regulation of 20-hydroxyecdysone on the larval pigmentation and the expression of melanin synthesis enzymes and yellow gene of the swallowtail butterfly, Papilio xuthus

The swallowtail butterfly, Papilio xuthus, changes its larval body pattern dramatically during the fourth ecdysis. Cuticular pigmentation occurs with precise timing just before ecdysis. We previously found that the cuticular pigmentation was regulated by three melanin synthesis genes, tyrosine hydroxylase (TH), dopa decarboxylase (DDC), and ebony. We discovered that yellow is strongly expressed in the presumptive black markings earlier than TH and DDC. Because the ecdysis is triggered by 20-hydroxyecdysone (20E), the effects of 20E on the pigmentation and expression of the melanin synthesis genes were examined. Here, we established a method for the topical application of 20E to molting specimens, so that 20E has only a partial effect, resulting in successful ecdysis. When we applied 20E during the mid-phase of the molting period, when the 20E titer is declining, cuticular pigmentation was completely inhibited. The cessation of hormonal treatments caused delayed pigmentation. yellow expression was promoted by a high titer of 20E, whereas the expression of TH, DDC, and ebony was suppressed, suggesting that a decline in the 20E concentration is necessary for the induction of the expression of the latter three genes. These results indicate that cuticular pigmentation is controlled by the exposure to 20E and its removal.     

Quantitative changes and synthesis of cyanoprotein in whole body and tissues during development of the bean bug,Riptortus clavatus

Changes in biliverdin-binding cyanoprotein content in whole body and tissue extracts during development of nymphal and adult (non-diapause) bean bugs, Riptortus clavatus were analyzed by rocket immunoelectrophoresis (RIE). RIE using anti-CPegg serum can be used to determine the content of CP-A (Cp-1, 2 and 3) and CP-B (CP-4) separately. During the nymphal stage CP content of whole body changes cyclically in each instar. In the first nymphal instar, CPegg is the main CP which disappears during the first-second instar ecdysis. In nymphal bugs from the 2nd to 4th instars only CP-B (CP-4) is detected, and at the beginning of each instar the CP content is very low but increases toward the next ecdysis, after which CP decreases and disappears very rapidly. In the 5th nymphal instar, CP-B is the major CP but CP-A (CP-1, 2 and 3) is also detected. These changes in whole body CP content of 5th instar nymphs are observed in both females and males. The content of total CPs in the 5th instar nymph reaches about 1000 μg in the whole insect. During nymphal-adult ecdysis, nymphal CPs decrease and disappear at day 2 after emergence. In female adults CP-A (CP-1 only) increases rapidly after day 4 of adult emergence, while no CP is detected in male adults. In females CPs were detected only in the fat body, hemolymph and ovary. In the mid-5th-instar nymphs, CPs (CP-A and B) are mainly distributed in the hemolymph. CPs in the Hemolymph decrease during nymphal-adult ecdysis, whereas they increase in the fat body. CPs disappear from both the hemolymph and fat body by 2 days after ecdysis. Subsequently in the adult stage only CP-A increases again in the fat body and ovary. By tracer experiments using [³⁵S]-methionine, the fat body was shown to be the site of CP synthesis. CP-A and B synthetic activity was detected in nymphal females whereas, only CP-A synthesis was observed in adult females, while no CP synthesis was seen in adult males.     

Postembryonic changes in the response properties of wind-sensitive giant interneurons in cricket

The intensity-response (I-R) relations for four wind-sensitive giant interneurons (GIs 8-1, 9-1, 9-2 and 9-3) in the fourth-, sixth- and last-instar nymphs of the cricket, Gryllus bimaculatus, were investigated using a unidirectional air current stimulus in order to explore the functional changes of GIs during postembryonic development. Contrary to our expectations, the response properties of GIs in nymphs were largely different from those in adults. The response magnitude of GI 8-1 in an intact cricket decreased during development, i.e. the GI in younger insects showed a larger response magnitude. Although the response magnitudes of GIs 9-1 and 9-2 were almost identical during the nymphal period, a significant decrease was observed after the imaginal ecdysis. During the nymphal period, the response magnitude of GI 9-3 increased according to the developmental stage. However, it decreased significantly after the imaginal ecdysis. We also investigated the response magnitudes of the GIs in nymphs after unilateral cercal ablation. From the results of ablation experiments, the changes in excitatory and/or inhibitory connections between filiform hairs and each GI during postembryonic development were revealed.     

Effects of a juvenile hormone analogue on the duration of the fifth instar in the milkweed bug Oncopeltus fasciatus

Topical application of JHA to fifth instar nymphs of Oncopeltus fasciatus, immediately following ecdysis from the fourth instar, decreases the duration of the fifth instar by approximately 36 hr in addition to inducing a supernumerary larval moult. JHA appears to accelerate the time of subsequent ecdysis in two ways: first, the onset of ecdysone secretion is accelerated, and is accompanied by a similarly premature initiation of mitotic activity in epidermal cells. This is the classical prothoracicotropic action of JH. Second, the period between the onset of mitotic activity and the time of ecdysis itself is shortened. That is, once cellular activities associated with the moulting cycle are triggered by ecdysone, such activities are completed more rapidly in the presence of JHA. It appears that the larval-larval moult induced by JHA requires intrinsically less time to accomplish than a normal metamorphic moult.     

The effect of temperature on the behaviour and development of Triatoma brasiliensis

Abstract. The effects of temperature on the development of early stages and the thermopreference of nymphs and adults were analysed in the haematophagous bug Triatoma brasiliensis Neiva, 1911 (Hemiptera, Reduviidae). Egg hatching, mortality of nymphs, feeding and moulting success of the early stages of T. brasiliensis were all affected by temperature. While high rates of egg hatching were observed between 25 and 27 °C, no hatching occurred at 12, 19 and 38 °C. The mortality of first‐instar nymphs was highest at 38 °C, at which no insects survived after 10 days of exposure. Feeding success was only affected at the lowest temperature (12 °C). No ecdysis was observed in the groups exposed to 12, 19 and 21 °C. Recently fed fourth‐instar nymphs preferred to stay at a temperature of approximately 30 °C. The preferred temperature began to decline gradually to approximately 27 °C during ecdysis, reaching 26 °C at 30 days after ecdysis. After a second blood meal, the insects' preferred temperature was again approximately 30 °C. The thermopreference pattern of females was similar to that of nymphs. Nymphs and females showed a daily fluctuation in their preferred temperature, moving towards higher values at the beginning of the dark phase, and choosing lower ones after this time interval, at which they remained until the end of the light phase. The females laid their eggs in all sectors of the arena, although the largest numbers of eggs were found between 28 and 32 °C.     

Catecholamines and related o-diphenols in the hemolymph and cuticle of the cockroach Leucophaea maderae (F.) during sclerotization and pigmentation

Developmental profiles of catecholamines and related o-diphenols in the hemolymph and cuticle of Leucophaea maderae were determined during sclerotization and pigmentation of last instar nymphs and adults. N-Acetyldopamine (NADA) and dopamine (DA) were the major o-diphenols in hemolymph, whereas 3,4-dihydroxyphenylketoethanol (DOPKET), N-β-alanyldopamine (NBAD), norepinephrine, 3,4-dihydroxyphenylethanol, 3,4-dihydroxyphenylacetic acid, and 3,4-dihydroxyphenylalanine were detected at lower concentrations. The o-diphenols occurred primarily as acid-labile conjugates in hemolymph. Dopamine, conjugated as the 3-O-sulfate ester, and a NADA conjugate(s) were equal in concentration (0.06 mM) in nymphs shortly before adult apolysis. However, NADA increased after adult ecdysis to a peak at 6 h (0.18 mM), while its precursor DA decreased, suggesting N-acetylation of the latter or its metabolism to melanin pigments in the cuticle. In cuticle, NADA, N-acetylnorepinephrine (NANE), DOPKET, and N-β-alanylnorepinephrine (NBANE) accumulated during the early period of adult cuticle sclerotization. DOPKET and NADA (0.4 μmol g⁻¹ each), and NANE (0.2 μmole g⁻¹) occurred at the highest concentrations in tanned adult cuticle. Large amounts of DOPKET conjugates extracted by cold 1.2 M HCl from tanned cuticle which released DOPKET upon hydrolysis at 100°C for 10 min. DA and NBANE (0.2 μmole g⁻¹ each) predominated in tanned nymphal cuticle. Therefore, sclerotization of nymphal cuticle may require more of the N-β-alanyl catecholamines, whereas the adult cuticle contains larger quantities of the N-acetyl derivatives and ketocatechol (DOPKET) metabolites. Black pigmentation of nymphal and adult cuticle occurs during the first few hours after ecdysis, which correlates with relatively high levels of dopamine.     

Hormonal control of body-color polymorphism in Locusta migratoria: interaction between

The effects of injection of [His(7)]-corazonin and juvenile hormone (JH) III on the body color in L. migratoria were investigated using albino and normal (pigmented) nymphs. Most albino nymphs turned green in the fourth instar if injected with JH III during the last 2 days of the previous instar. When albino third instar nymphs injected with 10 pmol of [His(7)]-corazonin on different days were treated with 100 μg of JH III on day 3.5, they developed various body colors in the following nymphal instar: those injected with [His(7)]-corazonin during the first 2 days developed very dark green or black color, whereas some of those injected after this period turned green and their legs and ventral side of the body were variously pigmented, the coloration being similar to green solitary individuals often found in the field. Field-collected brown solitary nymphs injected with 1 nmol of [His(7)]-corazonin and kept individually, turned reddish without any black spots in the following nymphal instar when the ecdysis occurred within 1 day after injection. Injection of [His(7)]-corazonin 2 days before the following ecdysis induced black patterns on an orange background color, the coloration characteristic of gregarious forms. Similar injections into field-collected green solitary nymphs also induced black patterns but the rest of their body remained green. These results may indicate that the temporal changes in the hemolymph titers of [His(7)]-corazonin and JH play an important role in the control of body-color polymorphism in this locust.     

GENERAL ACCOUNTS ON THE OÖCYTE GROWTH AND THE IDENTIFICATION OF VITELLOGENIN BY MEANS OF IMMUNOSPECIFICITY IN THE COCKROACH, BLATTELLA GERMANICA (L.)

The female Blattella germanica pushes out an oötheca 11 days after adult ecdysis and carries it for about 25 days until nymphs hatch out. The terminal oöcyte begins to accumulate yolk abruptly 4 or 5 days after adult ecdysis and grows fully on day 10 when its volume reaches 180 times as compared to that at adult ecdysis.
Vitellogenin, the vitellogenic female-specific protein, was identified by immunoelectrophoresis and Ouchterlony's test. Fluctuation of vitellogenin in the blood, ovary and embryo at various stages was analyzed. Vitellogenin appears in the female blood 3 or 4 days after adult ecdysis and disappears soon after terminal oöcytes have been released to an oötheca. In the ovary, it appears 4 or 5 days after adult ecdysis and disappears when terminal oöcytes leave the ovary. It remains in embryos until shortly before hatching, but is absent in newly hatched nymphs.     

Hormonal control of larval coloration in the armyworm, Leucania separata

Leucania separata larvae show various degrees of darkening depending on the population density. A ligature applied behind the thorax of crowded or yellow solitary larvae caused black or reddish brown pigmentation in the anterior part after the larval ecdysis. Extirpation of the brain, the corpus cardiacumcorpus allatum complexes, or the suboesophageal ganglion reduced the degree of melanization in the crowded larvae, lack of the suboesophageal ganglion having a particularly striking effect. Transplantation of 3 complexes of brain-corpora cardiaca-corpora allata-suboesophageal ganglion induced intense black pigmentation in the isolated abdomens of crowded larvae and reddish brown pigmentation with some melanization in the isolated abdomens of yellow solitary larvae, though the melanization in the latter was weaker than in the former. Implantation of these organs or of the suboesophageal ganglia into yellow solitary larvae caused black and reddish brown pigmentation after a larval ecdysis. In the pieces of integument implanted into the body cavity of crowded larvae, melanization occurred after ecdysis, whereas it did not occur in most of the fragments implanted in yellow solitary larvae. Transplantation of corpora allata and other organs from solitary larvae or injection of juvenile hormone into crowded larvae did not inhibit melanization.     

Catecholamines in the cuticles of four strains of the german cockroach Blattella germanica (L.) during sclerotization and melanization

Catecholamines were extracted from the cuticles of four strains of the cockroach Blattella germanica at different times 48 h after adult ecdysis and analyzed by reverse phase HPLC with electrochemical detection. The wild (VPl), black (Bl), orange (or), and yellow (y) phenotypes differ in cuticular pigmentation, particularly in the extent of melanization. N-β-Alanyldopamine (NBAD) and N-β-alanylnorepinephrine (NBANE) were major o-diphenolic compounds in extracts from cuticle of all strains during the main period of sclerotization. N-Acetyldopamine (NADA) and N-acetylnorepinephrine (NANE) were minor the first day after ecdysis, but accumulated to higher levels thereafter. Dopamine (DA) concentrations were higher in the darker pigmented cuticles of strains Bl and or than in the lighter-colored cuticles of strains VPl and y. Extractable DA rapidly increased in VPl, Bl, and or cuticles shortly after ecdysis, reached peak levels 6–24 h later, and then decreased after melanization. Only small amounts of DA were detected in strain y cuticle, whereas NBANE concentrations were very high. Therefore, high DA levels in cuticle are correlated with melanization that occurs during the first few hours after adult ecdysis, whereas sclerotization is correlated with high levels of the N-β-alanylcatecholamines. Sclerotization appears to be delayed in strain Bl, since only low concentrations of the N-acylated catecholamines accumulate until after melanization is completed.     

Development of specific responses in antennal taste hairs after ecdysis. An electrophysiological investigation of the cockroach,Periplaneta brunnea

Spike generation in cockroach antennal taste hairs of nymphs appears to follow the same rules as in adults analysed previously. After ecdysis, taste hairs on the proximal segments responded earlier than those on distal ones. Shorter hairs became active before longer ones. The mechanoreceptor responded before the chemoreceptors. During a transient period, 3-5 hours after ecdysis, all four chemoreceptors and also the mechanoreceptor were sensitive to 150mM KCl. Spikes elicited by 75 mM KCl were generated predominantly in the outer dendritic segments. They did not differ in shape and frequency when 60mM sucrose was added. The earliest sign of a specific reaction to sucrose was observed approximately 4-5 hours after ecdysis, when the mixture of sucrose and KCl elicited more spikes than KCl alone.     

The life cycle of Ixodes rubicundus (Acari: Ixodidae) and its adaptation to a hot,dry environment

The life cycle of Ixodes rubicundus, the Karoo paralysis tick, was studied under field conditions in the south-western Orange Free State, South Africa, by placing freshly engorged ticks in small containers. The life cycle extends over 2 years. The two regulating phases in the life cycle, which undergo a morphogenetic diapause during the hot and dry summer months, are the egg and engorged nymph. Possible behavioural diapause in adults which suppresses questing activity before the end of March. can also serve as a third regulating phase. Temperature affects the duration of the pre-oviposition period of engorged females and the period between detachment of engorged larvae from hosts and ecdysis. Commencement of larval hatch is reasonably synchronized, irrespective of the month during which oviposition occurred. Peak activity periods of larvae (April or May) occur during a period of high rainfall and decreasing daily maximum temperatures. The period between detachment of engorged nymphs from hosts and ecdysis is highly variable (8–36 weeks). All developmental stages of the tick occur mainly during autumn and winter and no ticks are active during the hot summer months of December to February. Larvae, nymphs and adults each survive for only one season.     

Cuticular strength and pigmentation of rust-red and black strains of Tribolium castaneum: Correlation with catecholamine and β-alanine content

Rust-red wild and black mutant strains of the red flour beetle, Tribolium castaneum, were used to investigate temporal patterns of catecholamine and β-alanine content during sclerotization and pigmentation of adult cuticle and to relate these patterns to corresponding changes in cuticle resistance to puncture. Rust-red elytral cuticle sclerotized more rapidly than black cuticle until 6 days after adult eclosion when both became equal in puncture resistance. The cuticular concentrations of $\text{N-β-}\text{alanyldopamine}$ (NBAD), β-alanine and 3,4-dihydroxyphenylacetic acid (DOPAC) increased more rapidly in the rust-red strain than in the black strain during the first 7 days following adult eclosion. Conversely, cuticular dopamine increased more rapidly in black than in the red strain. Thus the rust-red pigmentation and rapid sclerotization appear to be related to the availability of β-alanine, $\text{N-β-}\text{alanyldopamine}$ and DOPAC. Melanization was prevented and rust-red pigmentation induced by injections of β-alanine or NBAD into newly ecdysed black mutant beetles. Crosses of the two strains generally had intermediate levels of cuticular dopamine and β-alanine, but the NBAD levels were similar to those of the rust-red strain. Dopamine, NBAD and DOPAC levels became similar in both black and rust-red strains about 6 days after adult ecdysis as did resistance to puncture. Therefore, dopamine appears to be directed initially into the melanin pathway in black adults due to a temporary lack of $\text{N-}\text{acylation}$ with β-alanine. After the melanization phase, dopamine is metabolized to sclerotization precursors eventually resulting in normal physical properties of the exoskeleton.     

Life cycle and seasonal development of post-embryonic Argas reflexus (Acari: Argasidae) at two thermally different locations in Central Europe

Seasonal development was investigated in the pigeon tick, Argas reflexus (F.) over a 5-year period. The ticks were kept in desiccators at two deposition sites with different temperature conditions: a warmer attic and a cooler outdoor aviary. The life cycle of A. reflexus consists of the egg, larva, a variable number of two to four nymphal instars and the adult stage. In the cooler aviary, the ticks passed, on average, fewer nymphal instars than in the attic. At both locations, ecdysis of the nymphs and adults occurred only during the summer months, with peak numbers of ticks finishing the moult in August. This consistent pattern was evident irrespective of the feeding date of the preceding developmental stage or the year of observation. The results strongly suggest that nymphs II, nymphs I and larvae fed later than in mid-July, August or September, respectively, entered a state of diapause and, thus, overwintered in the engorged state. Argas reflexus nymphs II from a laboratory stock that were deposited inside the attic showed a remarkably different seasonal pattern of development, even more than 1 year after their deposition. This suggests that a circannual rhythm may be involved in the ticks' seasonal timing. Mortality of the engorged ticks (from repletion to ecdysis of the following stage/instar) was below 1.5% in most cases, irrespective of the season and the location. Unfed larvae survived for a maximum of one year inside the attic, whereas the median survival period of unfed nymphs was at least 3 years at the same location. Based on the present results, the generation time from (F1) egg deposition to oviposition in the F2 generation might be 3-11 years in Central European A. reflexus, depending on the course of development (two or three nymphal instars) and the number of gonotrophic cycles (probably up to six) of the F1. The life span of a single tick might take approximately 7-11 years or even longer.     

Absence of insect juvenile hormones in the American dog tick,Dermacentor variabilis (Say) (Acari:Ixodidae), and in Ornithodoros parkeri Cooley (Acari:Argasidae)

Synganglia, salivary gland, midgut, ovary, fat body and muscle alone and in combination from the ixodid tick, Dermacentor variabilis (Say), or the argasid tick, Ornithodoros parkeri Cooley, were incubated in vitro in separate experiments with L-[methyl-(3)H]methionine and farnesoic acid or with [1-(14)C]acetate. Life stages examined in D. variabilis were 3 and 72 h old (after ecdysis) unfed nymphs, partially fed nymphs (18 and 72 h after attachment to the host), fully engorged nymphs (2 d after detachment from host), 3 and 72 h old (after eclosion) unfed females, partially fed unmated females (12-168 h after attachment to host) and mated replete females (2 d after detachment from the host). Those from O. parkeri were third and fourth stadium nymphs and female O. parkeri, 1-2 d after detachment. Corpora allata from Diploptera punctata, Periplaneta americana and Gromphadorina portentosa were used as positive controls in these experiments. No farnesol, methyl farnesoate, JH I, JH II, JH III, or JHIII bisepoxide was detected by radio HPLC from any tick analysis while JH III, methyl farnesoate, and farnesol were detected in the positive controls. To examine further for the presence of a tick, insect-juvenilizing agent, Galleria pupal-cuticle bioassays were conducted on lipid extracts from 10 and 15 d old eggs, unfed larvae (1-5 d after ecdysis), unfed nymphs (1-7 d after ecdysis), and partially fed, unmated female adults (completed slow feeding phase) of D. variabilis. Whole body extracts of fourth stadium D. punctata and JH III standard were used as positive controls. No juvenilizing activity in any of the tick extracts could be detected. Electron impact, gas chromatography-mass spectrometry of hemolymph extracts from fed, virgin (forcibly detached 7 d after attachment) and mated, replete (allowed to drop naturally) D. variabilis and fully engorged (1-2 d after detachment) O. parkeri females also failed to identify the common insect juvenile hormones. The same procedures were successful in the identification of JH III in hemolymph of fourth stadium D. punctata. Last stadium nymphal (female) O. parkeri implanted with synganglia from second nymphal instars underwent normal eclosion to the adult. The above studies in toto suggest that D. variabilis and O. parkeri do not have the ability to make the common insect juvenile hormones, and these juvenile hormones do not regulate tick metamorphosis or reproduction as hypothesized in the literature.     

Effects of azadirachtin on ecdysis of Rhodnius prolixus

The effects of azadirachtin on the development of 4th-instar nymphs of Rhodnius prolixus were studied. Given through a blood meal, a dose-response relationship of azadirachtin was established using antifeedant effect and ecdysis inhibition as effective parameters. The effective dose (ED₅₀) was 25.0 μg/ml and 4 × 10⁻⁴ μg/ml of blood, respectively, for antifeedant and ecdysis inhibition effects. Feeding inhibition is an indirect effect due to an interference of azadirachtin with the endocrine system rather than through the inhibition of chemoreceptors. Ecdysone given orally (5.0 μg/ml) and juvenile hormone analogue (70 μg/insect) counteracted the ecdysis inhibition as induced by azadirachtin.     

Qualitative and quantitative analyses of juvenile hormone and ecdysteroids from the egg to the pupal molt in Trichoplusia ni

A method was developed to determine in the same extract juvenile hormone and various types of ecdysteroids in precisely staged eggs and larvae of Trichoplusia ni. Ecdysteroids were tentatively identified on the basis of their retention time in ion suppression reversed-phase HPLC and their cross-reactivity with two relatively non-specific, complimentary antibodies, whereas juvenile hormone was identified using reversed-phase HPLC combined with Galleria bioassay. Freshly laid eggs contained low levels of immunoreactive ecdysteroids. Mid-polar ecdysteroids increased in the phase of segmentation (14-18 h) and 1st larval cuticle formation (36-44 h), when 20-hydroxyecdysone and 20,26-dihydroxyecdysone were found to be predominant. Only traces of ecdysone and 26-hydroxyecdysone were seen. Toward hatching ecdysteroids decreased and represented mainly compounds more polar than 20,26-dihydroxyecdysone. In larval development ecdysteroids were low at the beginning of the feeding phases, increased toward cessation of feeding, and reached highest levels 12-15 h before ecdysis. In feeding stages ecdysone and 20-hydroxyecdysone were predominant, whereas in molting stages they were seen together with 20,26-dihydroxyecdysone and 20-hydroxyecdysonoic acid. The juvenile hormone titer was very low in freshly laid eggs and was high (approximately 25 ng/g) in embryos at the stage of 1st larval cuticle formation and eye pigmentation. In eggs we tentatively identified juvenile hormones I and II, whereas in larval stages juvenile hormone II appeared to be the predominant or exclusive juvenile hormone. Its titer fluctuated rapidly and was high in early 1st-instar larvae and again before the molts into the 3rd, 4th, and 5th instar. Highest titers were reached concomitant with the peak in 20-hydroxyecdysone 12-15 h before ecdysis.