Responsiveness to light of the circadian clock controlling eclosion in the blowfly, Lucilia cuprina

ABSTRACT. Eclosion in Lucilia cuprina (Wiedemann) occurs near dawn. The rhythm of eclosion persists in both darkness and constant light of high intensity (490μW cm^-2) with a period close to 24h. The sensitivity to light of the circadian clock controlling eclosion varies greatly according to the stage of the life cycle. During larval life the free running rhythm in darkness can be phase shifted by light pulses of 100μW cm^-2 intensity, with the transition from a Type 1 phase response curve to a Type 0, occurring with pulses of between 1 and 8h. Extending the last light period of LD to 24 h followed by constant darkness resets the phase of the rhythm by 12h, a transition from constant light to constant darkness initiates rhythmicity in flies made arrhythmic by being reared from eggs collected from adults maintained in constant light. After pupariation, the rhythm is relatively insensitive to light. Rhythmicity is sometimes induced by a transition from constant light to constant darkness, but the phase of the rhythm is not shifted by extending the last light period of LD before entering constant darkness. Repeated LD cycles applied after pupariation initiate and entrain the rhythm.     

Circadian control of spontaneous flight activity in the blowfly, Lucilia cuprina

ABSTRACT. Under laboratory light: dark cycles, the flight activity of adult Lucilia cuprina (Wied.) was low during darkness and uniformity high during light. This pattern persisted as a rhythm both in constant darkness and in constant light of intensity up to 1lx, with a period of approximately 22 h in each. Light pulses of 15 min at l00lx applied to the free-running rhythm in constant darkness generated phase shifts of up to 60°, 12-h light pulses of the same intensity generated maximal (180°) phase shifts. The phase response curves had shapes similar to those of a number of other insect rhythms. When exposed to light periods (70 lx) of greater than 12 h followed by constant darkness, the rhythm reinitiated at the light-dark transition from a constant phase equivalent to that at the time of the light-dark transition in the LD 12:12 cycle.     

The responses of Lucilia cuprina to odours from sheep, offal and bacterial cultures

Abstract. The responses of gravid female Lucilia cuprina to odours from sheep urine, faeces and gut mucus, and to odours from liver/sodium sulphide mixtures was tested using a bioassay which measured the movement and probing response of walking flies. The same bioassay was used to test the response to odours from cultures of bacteria isolated from liver/sodium sulphide and liver/water mixtures. A significant movement towards odours from faeces, gut mucus and urine was observed. Odours from cultures of the bacteria Proteus mirabilis, Dermatophilus congolensis and Serratia marcescens also elicited significant movement. A probing response was elicited by odours from gut mucus, fresh urine, liver/sodium sulphide mixtures and cultures of P.mirabilis, D.congolensis and gram-positive species. Odours from cultures of Pseudomonas aeruginosa, Entero-bacter aerogenes and Citrobacterfreundii did not elicit significant movement or probing. The movement and probing responses are discussed with reference to the possible uses of the substances tested as a bait for attracting L.cuprina.     

楸螟行为观察及性信息素粗提物生物活性测定

本文报道了楸螟Omphisa plagialis Wileman的羽化昼夜规律和（25±1）℃、光周期L∶D=14∶10条件下的雌蛾求偶节律,用Y形管法测定了雄蛾对雌蛾性信息素粗提物的行为反应。结果表明：楸螟的羽化发生在10：00到23：00之间;雌蛾在羽化当天即开始求偶,求偶行为集中在暗周期的23：30到01：30之间。采用正己烷提取的雌蛾性信息素粗提物存在性信息素成分,对雄蛾具有一定的引诱活性。     

The patterning of compensatory sugar feeding in the Australian sheep blowfly

Abstract. The pattern of feeding is described for males of the Australian sheep blowfly, Lucilia cuprina , with ad libitum access to either 0.1 M or 1.0 M glucose solution. Flies given the 0.1 M solution ingested nearly 3 times the volume taken by flies given the 1.0 M solution by eating meals of, on average, twice the size about 1.5 times as frequently. Flies were usually relatively inactive following a meal, with the extent of this post-prandial quiescence being a function both of meal size and concentration of sugar. Quiescence lasted only about 20% of the average intermeal interval, however, and there was no correlation between meal size and time to the next meal. The crop emptied more slowly when it contained 1.0 M rather than 0.1 M glucose solution and the crop was, on average, fuller at the beginning of a meal on the higher concentration. The volume of solution imbibed during a meal was positively correlated with time since the end of the preceding meal. The average crop volume at the end of a meal was similar in flies feeding on 0.1 M and 1.0 M solutions. The results are considered in relation to published information on control of feeding and compensation in the blowfly Phormia regina.     

铜绿蝇蜕皮激素受体在杆状病毒载体系统中的表达

The baculovirus expression vector, Trichoplusia ni nucleopolyhedrovirus, with the advantage of polyhedral inclusion body formation in recombinant viruses, was used to express the ecdysteroid receptor of the Australian sheep blowfly Lucilia cuprina(LcEcR). pSXIVVI +X3/2 baculovirus transfer vector was chosen for a 2.8kb LcEcR cDNA subcloning since pSXIVVI +X3/2 contains an efficient translational initiation signal (ATG) and it allows the LcEcR cDNA fusion to N-terminal codons in the correct reading frame. The resulting transfer plasmid pSXIVVI +X3-LcEcR was cotransfected into BT1-Tn-5B1-4 cells with the parental virus TnNPV-SVI -G minus polyhedral inclusion body, which expresses β-galactosidase gene. After 3～4 runs of plaque purification, three TnNPV-LcEcR clones were obtained with the LcEcR gene under the dual control of synthetic and XIV promoters. These three TnNPV-LcEcR clones all showed white phenotype when stained with X-gal. Western blot analysis showed 2～3 specific polypeptides with molecular weight ranging from 70～90kD. Three TnNPV-LcEcR clones expressed different level of LcEcR polypeptides in BT1-Tn-5B1-4 cells. The TnNPV-LcEcR-1 clone expressed the highest level of LcEcR polypeptides in BT1-Tn-5B1-4 cells 48～72h post infection.     

Proteases released by Lucilia cuprina during egg hatch

Products released by Luclia cuprina (sheep blowfly) during egg hatch and early larval development were found to contain a variable number of proteases, probably reflecting their different functions during these developmental phases. Moreover, a number of the developmentally regulated proteases produced only during egg hatch appeared to be strongly egg shell associated, indicating the egg shell proteins to be their specific substrates. Several proteases were tested for their ability to enhance the rate of egg hatch. The commercial proteases chymotrypsin and trypsin were able to significantly enhance (p≤0.01) egg hatch by 36% and 44%, respectively, when compared to an untreated control. Interestingly, fluids containing the egg shell associated proteases were able to significantly (p≤0.001) enhance L. cuprina egg hatch by up to 70%. This hatch enhancement activity could be significantly (p≤0.001) reversed by the addition of Phenylmethylsulphonyl fluoride (PMSF). Fractionation of the egg-associated proteases by gelatin affinity chromatography suggested that gelatin-binding molecules were responsible for the majority of the egg hatch enhancement activity in this preparation.     

The genetic bases of high-level resistance to diflubenzuron and low-level resistance to cyromazine in a field strain of the Australian sheep blowfly, Lucilia cuprina (Wiedemann) (Diptera: Calliphoridae)

Abstract  Several genes on chromosomes IV and VI have a significant influence on high-level resistance to diflubenzuron in a strain of the Australian sheep blowfly from Tara, Queensland. Low-level resistance to cyromazine in the same strain is due to genes on these chromosomes with a gene (gene complex) in the sv marker region of chromosome IV being particularly important. For both insecticides, genetic background influences resistance status. If the results of the Tara strain prove typical for those of other populations, resistance to diflubenzuron in the Australian sheep blowfly has potentially significant consequences for woolgrowers.     

Monitoring and selection of resistance to pyrethroids in the Australian sheep blowfly, Lucilia cuprina

Field and laboratory populations of the Australian sheep blowfly, Lucilia cuprina (Wiedemann) (Calliphoridae), were surveyed by bioassay for possible resistance to the synthetic pyrethroids, a group of insecticides under development for blowfly control. A normal distribution of LC50 values was found using deltamethrin, the test pyrethroid, with no indication of specific resistance despite widespread use of deltamethrin on sheep to control the sheep body louse, Damalinia ovis (Schrank) (Trichodectidae). There was no cross-resistance to deltamethrin from existing organophosphate (OP) resistance nor from previous use of DDT. Selection with deltamethrin on a combined field strain, CSF85, increased the LC50 gradually over the first twenty generations until it stabilized at approximately 25x that of the unselected CSF85. This laboratory-induced resistance extended to other pyrethroids, cypermethrin (16x), cyhalothrin (25x) and cycloprothrin (10x), and increased the existing resistance of CFS85 to the OP diazinon (11x) and the carbamate, butacarb (83x).     

榆木蠹蛾生殖行为及性信息素产生与释放节律

通过室内饲养与野外观察榆木蠹蛾Holcocerus vicarius (Walker)成虫的羽化、交尾、产卵行为,触角电位反应测定处女雌蛾性信息素产生与释放节律,旨在为榆木蠹蛾性信息素的鉴定和合成奠定基础。结果表明：榆木蠹蛾羽化行为全天可见,主要集中在15:00－19:00。成虫羽化当日即可交尾,21:30－0:30进行婚飞和交尾,交尾高峰出现在晚23:00左右,光期未见交尾。随着日龄的增加,召唤时间前移并且延长,2～3日龄处女雌蛾召唤时间早于1日龄雌蛾,交尾时间较短;雌蛾在羽化1 d后达到性成熟,2日龄雌蛾交尾百分率最高,达41.8%。雌蛾将产卵器伸出寻找缝隙处产卵,分多处产卵,雌虫最高产卵量达720粒,最低产卵量为105粒,卵期为12～22 d不等,孵化率为72%～88%。羽化当晚的雌蛾体内性信息素含量较低,第2天最高,以后逐日下降;2日龄榆木蠹蛾处女雌蛾性信息素的产生量从晚17:00起逐渐增加, 21:30－22:00时最高, 22:00后逐渐减小。雄蛾触角电位反应在22:30最强。21:30－23:00是雌蛾产生和释放性信息素的高峰期。榆木蠹蛾的羽化、交尾存在一定的时辰节律,通过处女雌蛾的野外诱集试验证实了性信息素释放与交配行为在时辰节律上的一致性。     

Circadian rhythm of the locomotor activity in Drosophila melanogaster and its mutants 'sine oculis' and 'small optic lobes'

ABSTRACT. The locomotor activity patterns of wildtype Drosophila melanogaster and the mutants so (sine oculis) and sol (small optic lobes) were investigated. In all strains the proportions showing circadian rhythmicity, arrhythmicity and more complex patterns which could not be thus classified were similar. The occurrence of abnormal activity patterns is thus not a property of the mutation as previously claimed (Mack & Engelmann, 1981). In flies with a distinct circadian rhythmicity, the period lengths (τ) varied between strains, τ for wildtype Italy and the mutant so was longer than for wildtype Berlin and the mutant sol. As different τ's have been reported by others, τ does not seem to be closely determined for Drosophila melanogaster. Many flies exhibited two rhythms simultaneously, one with τ shorter and one with τ longer than 24 h, apparently implying two-oscillator control of the locomotor activity. The eyeless so mutants were entrained by LD cycles, so the compound eyes are not necessary, and so must possess the relevant photoreceptor(s) elsewhere. This may therefore also be true for the wildtype. Histology of the so adults revealed no correlation between the degree of reduction in the medulla and the occurrence of abnormal activity patterns. Since the only structures common to the medulla of so and sol are known to be large tangential cells, it is concluded that either they are of importance for the rhythmic system, or the oscillator(s) controlling locomotor activity is (are) not located in the medulla.     

Description of the Photoperiodic Control of Larval Burrowing in the Blowfly Lucilia Cuprina: a Novel Index for Photoperiodic Research

The photoperiodic control of larval burrowing depth in the Australian sheep blowfly Lucilia cuprina (Wiedemann) (Diptera: Calliphoridae) was investigated by measuring burrowing depth under controlled laboratory photo-periods. The results demonstrated that larvae exposed to long photoperiods (LD 18:6) burrowed to deeper depths than those in shorter photoperiods (LD 12:12), and that this behavior was induced during the third instar stage. The ecological significance of this behavior is discussed, as are the ways in which daylength is measured and depth assessed. The use of burrowing depth could prove to be a novel index of a photoperiodic response and provide a far simpler approach to the study of photoperiodism in certain insect species. (Chronobiology International, 14(3), 247–252, 1997)