Photoperiod- and temperature-dependent regulation of pupal beige/black polymorphism in the small copper butterfly, Lycaena phlaeas daimio Seitz

The small copper butterfly, Lycaena phlaeas daimio, has pupal beige/black polymorphism, the development of which is found to be controlled in an apparent association with the development of adult seasonal polymorphism (spring and summer morphs) by photoperiod and temperature in the larval stages. That is, the pupae of beige and black types developed under long-day and short-day conditions tend to develop into brown-winged and red-winged adults, respectively. In addition, a large proportion of long-day pharate pupae chilled at 4 degrees C for 5 days were observed to develop into pupae whose head-thoracic complexes and abdomens were judged to be of the black and intermediate types, respectively. They developed into adults with redder wings as compared to those obtained from unchilled pupae. The results indicate that the physiological mechanism underlying the photoperiodic control of the development of adult seasonal polymorphism may also play a significant role in the determination of pupal beige/black polymorphism in L. phlaeas daimio. Furthermore, cuticle melanization was found to be induced in the head-thoracic complexes of pupae by chilling of the pharate pupae. Melanization of pupal cuticle seems to occur in a close association with the development of reddish-winged adults.     

Effects of chilling stress on allatal growth and juvenile hormone synthesis in the cockroach, Diploptera punctata

During the ovarian cycle of the cockroach, Diploptera punctata, a mitotic wave occurs in the corpora allata before an increase in gland volume and juvenile hormone (JH) synthesis. Previous studies have demonstrated that the brain inhibits mitosis and JH synthesis in corpus allatum (CA) cells until adult females have mated. Herein, we report that chilling stress effectively suppresses mating induced proliferation of CA cells. In mated females, chilling on melting ice for 0.5-3 hours caused a strong, dose-dependent decrease in mitotic activity. In insects chilled for 3 hours, although the mitotic wave in the CA was practically abolished, CA volume and JH synthesis finally reached peak levels typical of unchilled insects, despite a 2-day delay. Consequently, oocyte maturation and oviposition were also delayed by 2 days, yet in both chilled and unchilled insects, peak values of basal oocyte length were the same. By allowing virgin females to mate on different days after chilling, we found that the chilling effect could be retained in the insect body for at least 2 days. During this period, signals from mating could not effectively remove inhibition of CA cell proliferation. Unilaterally disconnecting the CA from the brain revealed that chilling stress mediated CA cell proliferation via the brain, and did not directly affect the CA.     

Delayed metamorphosis in Galleria mellonella: Interaction of chilling and space deprivation

A 2 × 2 factorial experiment was performed with each of 18 age classes within the last instar of Galleria mellonella. The two experimental factors applied to each age class were chilling and space deprivation; combinations of each factor were tested at two levels (present or absent). The 3-parameter Weibull function was used to calculate the proportion of animals undergoing larval-pupal ecdysis. Significant differences among time-trend statistics were related to interaction between chilling and space deprivation, as well as to age class. In general, chilling without space deprivation produced a small delay relative to the unchilled, not space-deprived condition. With space deprivation, however, chilling accelerated pupation compared to space deprivation alone. The order in which the chilled, space-deprived and space-deprived groups pupated expresses the essence of the interaction. Contrary to an additive effect, delayed development resulting from space deprivation appeared to be mitigated by chilling. Salivary gland stiffening was observed in chilled, space-deprived animals. With space deprivation, stiffening was associated with faster development compared to that of unchilled animals. These observations are discussed in the context of extant hypotheses of endocrine mechanisms responsible for the separate effects of chilling and space deprivation.     

Insights on the development, kinetics, and variation of photoinhibition using chlorophyll fluorescence imaging of a chilled, variegated leaf

The effect of chilling on photosystem II (PSII) efficiency was studied in the variegated leaves of Calathea makoyana, in order to gain insight into the causes of chilling-induced photoinhibition. Additionally, a relationship was revealed between (chilling) stress and variation in photosynthesis. Chilling treatments (5 degrees C and 10 degrees C) were performed for different durations (1-7 d) under a moderate irradiance (120 micromol m-2 s-1). The individual leaves were divided into a shaded zone and two illuminated, chilled zones. The leaf tip and sometimes the leaf base were not chilled. Measurements of the dark-adapted Fv/Fm were made on the different leaf zones at the end of the chilling treatment, and then for several days thereafter to monitor recovery. Chilling up to 7 d in the dark did not affect PSII efficiency and visual appearance, whereas chilling in the light caused severe photoinhibition, sometimes followed by leaf necrosis. Photoinhibition increased with the duration of the chilling period, whereas, remarkably, chilling temperature had no effect. In the unchilled leaf tip, photoinhibition also occurred, whereas in the unchilled leaf base it did not. Whatever the leaf zone, photoinhibition became permanent if the mean value dropped below 0.4, although chlorosis and necrosis were associated solely with chilled illuminated tissue. Starch accumulated in the unchilled leaf tip, in contrast to the adjacent chilled irradiated zone. This suggests that photoinhibition was due to a secondary effect in the unchilled leaf tip (sink limitation), whereas it was a direct effect of chilling and irradiance in the chilled illuminated zones. The PSII efficiency and its coefficient of variation showed a unique negative linearity across all leaf zones and different tissue types. The slope of this curve was steeper for chilled leaves than it was for healthy, non-stressed leaves, suggesting that the coefficient of variation may be an important tool for assessing stress in leaves.     

Induction of supernumerary moults in Galleria mellonella: Evidence for an allatotropic function of the brain

Implantation of brains from chilled Galleria larvae into first-day last-instar host larvae results in a higher incidence of extra-larval moults than in control animals receiving unchilled brains. The ability of the implanted brains to induce an extra-larval moult depends on the number of implanted brains, age of larvae at chilling and the time interval between cooling and removal of the brain. The implanted brains must be present in the host larva for at least 2 days in order to induce an extra-larval moult. The brain taken from a chilled larva has no effect on the activity of the host brain. Application of fluoromevalonate (FMev) to insects which received the brains taken from chilled larvae suppresses the extra-larval moult responses, while implantation of brains from chilled larvae treated with FMev has no effect on the incidence of extra-larval moults produced by the recipients. The possibility that the chilled brain of Galleria larvae produces a hormonal factor that regulates corpora allata activity (allatotropin) is discussed.     

Optimal Low Temperature and Chilling Period for Both Summer and Winter Diapause Development in Pieris melete: Based on a Similar Mechanism

The cabbage butterfly, Pieris melete hibernates and aestivates as a diapausing pupa. We present evidence that the optimum of low temperature and optimal chilling periods for both summer and winter diapause development are based on a similar mechanism. Summer or winter diapausing pupae were exposed to different low temperatures of 1, 5, 10 or 15°C for different chilling periods (ranging from 30 to 120 d) or chilling treatments started at different stages of diapause, and were then transferred to 20°C, LD12.5∶11.5 to terminate diapause. Chilling temperature and duration had a significant effect on the development of aestivating and hibernating pupae. The durations of diapause for both aestivating and hibernating pupae were significantly shorter when they were exposed to low temperatures of 1, 5 or 10°C for 50 or 60 days, suggesting that the optimum chilling temperatures for diapause development were between 1 and 10°C and the required optimal chilling period was about 50–60 days. Eighty days of chilling was efficient for the completion of both summer and winter diapause. When chilling periods were ≥90 days, the durations of summer and winter diapause were significantly lengthened; however, the adult emergence was more synchronous. The adaptive significance of a similar mechanism on summer and winter diapause development is discussed.     

Diapause Induction and Termination in Hyphantria cunea (Drury) (Lepidoptera: Arctiinae)

The fall webworm, Hyphantria cunea (Drury), enters facultative diapause as a pupa in response to short-day conditions during autumn. Photoperiodic response curves showed that the critical day length for diapause induction was 14 h 30 min, 14 h 25 min and 13 h 30 min at 22, 25 and 28°C, respectively. The photoperiodic responses under non-24 h light–dark cycles demonstrated that night length played an essential role in the determination of diapause. Experiments using a short day length interrupted by a 1-h light pulse exhibited two troughs of diapause inhibition and the effect of diapause inhibition was greater in the early scotophase than in the late scotophase. The diapause-inducing short day lengths of 8, 10 and 12 h evoked greater intensities of diapause than did 13 and 14 h. Diapause can be terminated without exposure to chilling, but chilling at 5°C for 90 and 120 d significantly accelerated diapause development, reduced mortality, and synchronized adult emergence. Additionally, the potential for H. cunea from the temperate region (Qingdao) to emerge and overwinter under field conditions in subtropical regions (Nanchang) of China was evaluated. Pupae that were transferred to Nanchang in early July showed a 60% survival rate and extremely dispersed pupal period (from 12 to 82 days), suggesting that some pupae may undergo summer diapause. Diapausing temperate region pupae that were moved out-of-doors in Nanchang during October showed approximately 20% overwintering survival; moreover, those pupae that overwintered successfully emerged the next spring during a period when their host plants would be available. The results indicate that this moth has the potential to expand its range into subtropical regions of China.     

The in vitro biosynthesis and secretion of glycerol by larval fat bodies of chilled Ostrinia nubilalis

Fat bodies from diapausing fifth-instar larvae of Ostrinia nubilalis were incubated in vitro at 5 or 23°C in Grace's medium and the glycerol contents of the organ and incubation medium determined. Fat bodies from diapausing larvae chilled 3 weeks at 5°C secreted glycerol into the medium at 5°C at a net rate of approx. 0.75 nmol/mg fat body dry wt/h for at least 96 h while the tissue levels remained essentially constant. Depending upon the experiment, from 6 to 15 times more glycerol was produced in 24 h at 5°C by these fat bodies than by those taken from diapausing unchilled larvae and incubated at either 5 or 23°C. A minimal chilling period of 10–12 days was recognized as necessary for chilled larval fat bodies to demonstrate rates of glycerol synthesis greater than those of unchilled larvae and the lag showed a temporal correlation with changes in haemolymph glycerol concentrations. These results suggest that this response to chilling by O. nubilalis is relatively slow. While incubation, at 23°C, of fat bodies from previously chilled larvae did not result in cessation of glycerol secretion, the rate of its appearance in the culture medium decreased during the 24-h incubation period. Although the ability of chilled fifth-instar larvae to accumulate glycerol is not dependent upon the diapause state results show that clearance of glycerol from the haemolymph by rewarmed O. nubilalis is related to diapause intensity.     

Supernumerary instars produced by chilled wax moth larvae: Endocrine mechanisms

Young last instar larvae of Galleria mellonella underwent supernumerary ecdyses within 3 to 6 days after being chilled at 0 to 1°C for 30 min. The frequency diminished from 89 ± 9.4% for the survivors of those that were chilled <16 hr after their last ecdysis, to 25 ± 11.2% for those 46 to 88 hr old, and was no longer evident beyond 123 hr.Irrespective of their ages, the larvae never became “superlarvae” unless they had fed after they had been chilled. This was unlike the requirement for metamorphosis, when a feeding period of 40 to 48 hr immediately following ecdysis allowed half the larvae that were subsequently chilled and starved to pupate. The propensity to become superlarvae could be extended by starvation. Chilling signaled the occurrence of the larval moulting program, but its expression was held in abeyance until the larvae had fed.Brains from chilled or unchilled donors were equally effective initiators of supernumerary larval apolyses. The capacity to respond to chilling was abolished following bilateral extirpation of the corpora cardiaca and corpora allata, but not after the corpus cardiacum and corpus allatum of one side were removed. This effect of bilateral cardiacectomy and allatectomy could be remedied by applying Altosid, a juvenile hormone analog. Potentiation of the larval-larval apolysis by chilling and by JH may involve separate mechanisms, for the analog was less effective on unchilled larvae than on those that had been chilled. The results are discussed with reference to the hypothesis that the brains of young larvae produce an “allatotropic hormone”.     

Hormonal control of seasonal morph determination in the swallowtail butterfly, Papilio xuthus L. (Lepidoptera: Papilionidae)

Seasonal morphs (spring and sumer forms) of Papilio xuthus L. are determined coincidentally with diapause and non-diapause in pupae by larval exposure to short days and long days respectively. The neuroendocrine principle underlying seasonal-morph determination was studied using surgical operations in P. xuthus.When recipient 0-day old or chilled diapause pupae were joined to donor 0-day old non-diapause pupae, the recipients developed into summer or intermediate morphs. When the same kinds of recipients used above were joined to 0-day old or chilled diapause pupae, there were no significant effects on the adult morph. In contrast, recipient non-diapause pupae all developed into summer morphs, regardless of groups of the type of donors.Furthermore, when the brain of 5th-instar larvae, pharate pupae or pupae, predetermined to be diapause, was transplanted into the abdomen of 0-day old, 30-day old or chilled diapause pupae, the recipients developed into summer or intermediate morphs.The results indicate that the brain of non-diapause pupae secretes a humoral factor producing the summer morph. In non-diapause pupae, the factor may be secreted at about the stage of larval-pupal ecdysis coincidentally with that of prothoracicotropic hormone.     

Haemolymph ecdysone concentrations in Hyalophora cecropia pupae,dauer pupae and adults

Haemolymph ecdysone concentrations were determined by radioimmunoassay in diapausing pupae, pharate adults, adults, and chilled dauer pupae. The concentration in diapausing pupae after 6 months chilling (5.35 pg/μl) increased dramatically after 3 days at 27°C (>200 pg/μl) and then decreased to low levels in adult females (1.63 pg/μl). In adult males ecdysone was undetectable in all except one animal. Dauer pupae showed a decrease from 6.1 to 1.7 pg/μl 1 day after being transferred from 6 to 27°C. Over a 3-day period the value increased to 3.19 pg/μl and remained constant for more than a year. These results suggest that diapausing pupae with and without brain neurosecretory cells maintain a low concentration of ecdysone in the haemolymph.     

Comparison of the circadian eclosion rhythm between non-diapause and diapause pupae in the onion fly, Delia antiqua: the change of rhythmicity

When pupae of Delia antiqua were transferred to constant darkness (DD) from light-dark (LD) cycles or constant light (LL), the sensitivity to light of the circadian clock controlling eclosion increased with age. The daily rhythm of eclosion appeared in both non-diapause and diapause pupae only when this transfer was made during late pharate adult development. When transferred from LL to DD in the early pupal stage, the adult eclosion was weakly rhythmic in non-diapause pupae but arrhythmic in diapause pupae. However, the sensitivity of the circadian clock to temperature cycles or steps was higher in diapause pupae than in non-diapause pupae; in the transfer to a constant 20 degrees C from a thermoperiod of 25 degrees C (12 h)/20 degrees C (12 h) on day 10 after pupation or from chilling (7.5 degrees C) in DD, the adult eclosion from diapause pupae was rhythmic but that from non-diapause pupae arrhythmic. In a transfer to 20 degrees C from the thermoperiod after the initiation of eclosion, rhythmicity was observed in both types of pupae. The larval stage was insensitive to the effect of LD cycle initiating the eclosion rhythm. In D. antiqua pupae in the soil under natural conditions, therefore, the thermoperiod in the late pupal stage would be the most important 'Zeitgeber' for the determination of eclosion timing.     

Disturbance of Adult Eclosion by Fenoxycarb,a Juvenile Hormone Mimic,in the Beet Armyworm,Spodoptera exigua

Effect of exogenous juvenile hormones (JHs) on pupal development was assayed in the beet armyworm, Spodoptera exigua. Fenoxycarb, a potent JH mimic, was applied topically to different ages of the pupae, and showed significant inhibition of normal adult eclosion even at 0.1 μg dose when it was applied at the early pupal stage (day 0). As the pupal development underwent, the susceptibility of the pupae fenoxycarb decreased. RH5992, a potent ecdysteroid mimic, did not, however, any similar inhibitory effect on the pupae. Natural JH types (JH I, JH II, and JH III) were applied on day 0 pupae to compare their inhibitory effects on adult eclosion. Both JH I and JH II significantly inhibited adult eclosion at 1.0 μg dose, but JH III did not even at 10.0 μg dose. It was noted that fenoxycarb-treated pupae showed little rectum development. Fenoxycarb did not, however, show any negative effect on the development of compound eye and wing imaginal discs, and on the pupal hemolymph protein pattern. These results suggest that there should be a commitment period requiring an absence of JH for a normal adult metamorphosis during early pupal development and that the endogenous type of JH in S. exigua is JH I or JH II or both JHs like other lepidopteran species.     

Relations between ecdysteroid levels and pupal development in the ecd-1 temperature-sensitive mutant of Drosophila melanogaster

Relations between ecdysteroid levels and pupal development were studied in the temperature-sensitive mutant ecd-1, shifted from 20°C to 29°C at different stages. Ecdysteroid titration, using radioimmunoassays, revealed that the mid-pupal peak of ecdysteroids was not affected when the shift was performed at pupariation although, in this condition, pupae died at emergence. A qualitative study of ecdysteroid content using HPLC failed to show the lack of any specific product. If the shift was performed 24 hr before pupariation, the ecdysteroid level decreased significantly while animals died before emergence but after a mid-pupal peak (around 75% of pupal life). However, double-shift experi-experiments showed that, even though a partial rescue of pupal development occurred (7% emergence), a normal mid-pupal peak was not restored. Furthermore, the temperature-sensitive periods for the decrease in the ecdysteroid mid-pupal peak and for the lack of emergence were not the same. Altogether, these results suggest that a decrease in ecdysteroids might not be the primary effect of the ecd-1 mutation, as the developmental anomalies observed at the end of pupariation seemed independent of the ecdysteroid levels.     

Comparative studies of oxidative enzyme systems in epidermis and fat body of diapausing and non-diapausing silkmoths

The activities of four oxidative enzyme systems, including NADH oxidase, succinate-cytochrome c reductase, NADH-cytochrome c reductase, and cytochrome c oxidase, were compared in mitochondrial-microsomal preparations from wing epidermis and fat body of diapausing Samia cynthia pupae, presumptively non-diapausing S. cynthia ricini pupae which were caused to diapause by removal of the brain, and non-diapausing S. cynthia ricini during the pupal and pharate adult period. In diapausing pupae the activities of all enzyme systems were low and presented a profile similar to that previously reported for the Cecropia silkmoth. By contrast, in non-diapausing individuals the activities showed substantially higher levels, and an essentially unchanging pattern from just after the larval-pupal ecdysis through most of adult development. These events are functionally correlated with the patterns of biosynthetic activity in diapausing and non-diapausing silkmoths and are discussed in relation to the endocrine control of diapause and development.     

Brain cyclic AMP levels and the initiation of adult development in the Cecropia silkmoth.

A six-fold increase in the level of brain cyclic AMP is observed in chilled Cecropia pharate adults within 24 hr of transfer from the cold to room temperature. This increase is not observed in pupae chilled for a period insufficient to allow initiation of adult development, nor after injury to diapausing pupae. Other tissues show a variable and minor response during initiation. Injected dibutyryl cAMP will cause initiation in insufficiently chilled pupae, but not in dauer pupae. The possible relationship of this rise in cAMP to the process of initiation is discussed.     

梨小食心虫蛹重对成虫繁殖力和寿命及下一代幼虫发育的影响

【目的】本文旨在明确营养状况不同造成的梨小食心虫Grapholitha molesta(Busck)雌、雄蛹重量差异对其羽化的成虫产卵量、产卵期、寿命及下一代(F1)幼虫发育的影响。【方法】室内条件下,通过不同的饲养方法,获得个体重量不同的梨小食心虫雌、雄蛹,待其羽化交配后,记录其产卵量、产卵时间和成虫寿命;卵孵化前后,分别测量卵和初孵幼虫大小,计算卵孵化率,统计幼虫发育历期。【结果】雌蛹重量对梨小食心虫的成虫产卵量影响显著,其重量与产卵量呈正相关(y=15.505x-59.292);同一条件下,雌蛹与雄蛹重量也呈正相关(y=0.823x-0.538)。同时,雌蛹重量对成虫产卵期影响也较大,蛹重大的个体羽化的雌虫比蛹重小的个体羽化的雌虫产卵高峰期提前1 d;较重、中等和较轻蛹羽化出的雌虫个体每天产卵量高于10粒/雌的时间分别为9~10,7和5~6 d;产卵量高于5粒/雌的时间分别为12~13,9和6~7 d。而雄蛹重量对产卵量、雄成虫寿命影响没有明显影响。较轻的蛹羽化的雌成虫寿命比较重蛹羽化的雌成虫短2~3 d;而雄蛹重量对其羽化的雄成虫寿命影响没有明显规律。雌、雄蛹重量对其羽化成虫的卵孵化率、卵和初孵幼虫的大小影响均不显著,对F_1幼虫发育历期影响也不显著。【结论】梨小食心虫雌蛹重对羽化成虫的产卵量和产卵期等影响显著,田间防治时应注意在不同条件下完成发育的个体,尤其是雌虫,由于营养差异引起的个体大小对随后种群增长的影响。     

Diapause development in early and late emerging phenotypes of Delia floralis

The turnip fly, Delia floralis Fall6n （Diptera： Anthomyiidae） is an important insect pest of brassica vegetable crops in the holarctic region. Different populations have strongly varying temperature requirements for fly emergence, a challenge for accurate prediction of activity. This study focused on diapause development in one early and one late emerging phenotype. The physiological state after various treatments was deduced from emergence data. Our results showed a slow diapause progression at chilling conditions for both populations and diapause ended about 7 months after pupae were formed for the early population. For the late population held at 4℃ diapause did not end, no matter how long the duration of chilling. These pupae required a period with elevated temperatures above 6~C to continue development. At constant non-chilling conditions （18℃） from the time pupae were formed both populations completed diapause most rapidly. These results indicate that chilling delayed, rather than accelerated development and was not a prerequisite for diapause development. For post-diapause, results indicated a linear relationship between rate of development and temperature within the range of 6-18℃and a theoretical base temperature for development of about 2℃ for both populations. In conclusion, D. floralis pupae are in diapause throughout a long winter period, and delayed emergence of the late population appears to be caused by prolonged diapause regulated by a developmental temperature threshold. The study has added information on the biology of turnip fly populations, a prerequisite for improved pest control.     

High temperature induced diapause in the cotton bollworm shape Helicoverpa armigera

In laboratory studies, Helicoverpa armigera (Hübner) (Lep. Noctuidae) from Burkina Faso exhibited pupal dormancy induced by high temperatures. Exposure to 37 °C from the 3rd larval stage caused 94.7% of males to diapause but only 60.9% of females. No influence of daylength (12 and 16 h) was observed. Induction by high temperatures must begin during the larval stage to be effective. The pupal stage is not sensitive to induction. After storage at 37 °C for 60 days, 64.3% of dormant pupae survived and most of them resulted in adult emergence. After storage at 37 °C for 85 days, no dormant pupae survived. The development of dormant pupae is resumed after about 20 days at 21 °C whatever the duration of prior exposure to 37 °C (7, 14 or 30 days). There is no delay in non-dormant pupae kept at 21 °C. The possible role of this hot thermal diapause in the life history of H. armigera in Burkina Faso is discussed.     

Relationship between a metabolic rhythm and emergence rhythm in Drosophila melanogaster

Oxygen consumption and lactic acid dehydrogenase (LDH) activity were determined for Drosophila melanogaster pupae and pharate adults exposed to 12 : 12 or 1 : 23 light-dark (LD) regime. Bimodal circadian fluctuations of oxygen consumption were found in pupae and pharate adults exposed to either LD regime and organisms appeared to demonstrate an anticipatory change in oxygen consumption associated with change in illumination. The oxygen-consumption trend for the entire period spent in the puparium showed a high at the time of emergence, but the diurnal rhythm showed a low at the time of emergence suggesting that emergence occurs at a low in the diurnal cycle. Emergence maximum showed a 3 hr lead over the oxygen-consumption maximum. Changing the LD regime produced similar changes in the phasing of both oxygen consumption and emergence rhythms. LDH activity did not demonstrate a detectable circadian rhythm but did show a steady decrease during pupal and pharate adult development.