Decrease in tolerance to fenvalerate, in resistantHelicoverpa armigera after pupal diapause

Pyrethroid resistant and susceptible adults ofHelicoverpa armigera (Lepidoptera: Noctuidae) were screened for tolerance to pyrethroids after 6 wk or 12 wk pupal diapuse. Resistant larvae and F₂ larvae from a cross between resistant and susceptible parents (two replicates), were reared under conditions to induce pupal diapause. After eclosion, adults were tested in glass vials coated with the pyrethroid fenvalerate, at a dose (DD) that is known to discriminate between susceptible and heterozygous resistant individuals. In all diapause experiments, the frequency of resistance was lower in the test groups that had experienced diapause compared with the non-diapausing control group. The underlying cause of the decline is not certain but selective mortality of resistant versus susceptible individuals could not account for all the difference in two of the three experiments — tolerance to the pyrethroid, fenvalerate, is most likely to have declined either as a consequence of diapause or from the extended time of development associated with diapause. These results indicate that monitoring programs could underestimate pyrethroid resistance frequencies when usingH. armigera adults emerging from diapause.     

Effects of putrescine on diapause induction and intensity,and post‐diapause development of Helicoverpa armigera

Effects of putrescine on diapause induction and intensity, and post‐diapause development in Helicoverpa armigera (Hübner) (Lepidoptera: Noctuidae) from Wuhan, Hubei, China were studied in the laboratory at different temperatures and photoperiod conditions. The results showed a generally higher incidence of diapause in putrescine‐feeding groups. Putrescine feeding distinctly restricted the development of non‐diapause‐destined and diapause‐destined larvae, except at 0.01% putrescine concentration, which accelerated the development of larvae at 21 °C. Putrescine had no significant effect on the duration of diapause, although it inhibited the post‐diapause development of pupae. Photoperiod played a different role in diapause induction and post‐diapause development between 21 and 23 °C. Putrescine played a definite role in diapause induction and intensity, and post‐diapause development in H. armigera, and a significant interaction between putrescine, photophase, and temperature is to be expected.     

Mode of inheritance of face fly diapause and its correlation with other developmental traits

Abstract.

• 1 Adult face flies, Musca autumnalis De Geer, respond to short photoperiods by entering diapause. Diapause responses to different photoperiods at a mean temperature of 17°C varied among seven laboratory face fly strains. Old strains lost much of their diapause responses.
• 2 To analyse the nature of diapause inheritance, hybrids and their back-crosses were made between two strains that showed the greatest difference in diapause introduction at 10:14 h(L:D), and 17°C.
• 3 Responses of hybrids to the short photoperiod were intermediate to those of their parents. Joint scaling tests showed that diapause did not fit an additive model and the lack of fit was attributed to incomplete dominance. No cytoplasmic effect was detected, but diapause was partially sex linked.
• 4 Diapause heritabilities were 47% and 30% in the broad and narrow senses, respectively.
• 5 Estimates of the minimum number of diapause genes suggested a small number.
• 6 Developmental rates of egg to adult, ovarian follicle growth, and pterin accumulation were inversely correlated with diapause propensities, suggesting pleiotropy or linkage.

     

Pupal overwintering,diapause and development in two species of Spilosoma

• 1 Pupae of Spilosoma lubricipeda (L.) and S. lutea (Hufn.) were studied in order to develop a method for estimating the date of emergence of the moths from temperature data. Diapausing pupae stored at 4–5°C for 157 and 171 days showed the fastest development on subsequent incubation at 20°C indicating that diapause had been completed in cold storage.
• 2 Pupae formed in August and October completed diapause in a ventilated insec-tary in March and early April respectively. A 4-month spread in pupation dates was compressed by diapause and low winter temperatures into a 7-day spread in mean emergence dates for S. lubricipeda and a 17-day spread for S. lutea.
• 3 In the insectary, estimated mean emergence dates differed from observed dates by an average of 3.7 days for S. lubricipeda and 2.4 days for S. lutea. Pupae were over-wintered outdoors in S. England and in Scotland. Observed mean dates of moth emergence varied with altitude and latitude, and differed from estimated dates for S.lubricipeda by an average of 5.5 days.
• 4 Mortality did not exceed 30% except in two years in batches kept in wet boxes outdoors at Achnagoichan which is probably beyond the breeding range of both species in Britain. In the laboratory some pupae survived exposure to — 16°C for 192 h suggesting that winter mortality alone does not control the survival of these species at Achnagoichan.

     

Temperature‐dependent development of the great European spruce bark beetle Dendroctonus micans (Kug.) (Coleoptera: Curculionidae: Scolytinae) and its predator Rhizophagus grandis Gyll. (Coleoptera: Monotomidae: Rhizophaginae)

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Intra‐population genetic variation in diapause incidence of adult‐diapausing Tetranychus pueraricola (Acari: Tetranychidae)

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The effect of cold temperature exposure and long-day photoperiod on the termination of the reproductive diapause of newly emerged female Pissodes strobi (Coleoptera: Curculionidae)

Abstract

• 1 There is confusion in the literature concerning a possible reproductive diapause in the adult white pine weevil Pissodes strobi.
• 2 We evaluated the effects of temperature, photoperiod, feeding substrate and mating status on the sexual maturation and oviposition of female white pine weevils.
• 3 Less than 30% of female P. strobi became sexually mature and laid eggs without experiencing dormancy under a temperature regime of 2 °C for 4 weeks.
• 4 Among the females that experienced a cold temperature treatment after emergence, 80% laid eggs after dormancy when exposed to a long‐day (LD 16 : 8 h) photoperiod and 17.6% laid eggs when exposed to a short‐day (LD 8 : 16 h) photoperiod.
• 5 Significantly more eggs were laid by all the females (with and without a cold treatment) when subjected to a long‐day photoperiod compared with a short‐day photoperiod.
• 6 A period of cold temperature followed by exposure to a long‐day photoperiod with warmer temperatures is required to break reproductive diapause and to obtain a good oviposition response in female P. strobi.
• 7 This study reveals the existence of much intraspecific variation in the response of the white pine weevil to temperature and photoperiod with respect to the induction and termination of reproductive diapause.

     

Isolation and in vitro identification of proteinase inhibitors from soybean seeds inhibiting helicoverpa gut proteases

Helicoverpa armigera is a polyphagous pest damaging vast numbers of different crops leading to decrease in total production. Use of Bt transgenic to control H. armigera has worked well but has increased resistance against Bt in H. armigera and controversies about the Bt transgenic making it imperative to find another strategy to control attack. Soybean is a nonhost plant for H. armigera; reason could be laid in the defense system of the soybean. Proteinase Inhibitor (PIs) have been extensively studied for development of resistance against insect pest. Two cultivars developed by our university were investigated for the presence of proteinase inhibitors namely, MAUS-158 and MAUS-61. Partially purified inhibitors were showed inhibition of total protease activity of gut extract by 91.34±1.49 and 89.95±0.96% by MAUS-158 and MAUS-61, respectively. While inhibition of trypsin like proteases were found between 65 and 71% and inhibition of chymotrypsin like proteases ranges between 40 and 42%. The partial purification study shows stability of PIs up to 60°C. Soybean PIs are also showing more prominent inhibition pattern against trypsin than chymotrypsin.     

Seasonal variation in generation time, diapause and cold hardiness in a central Ohio population of the flesh fly, Sarcophaga bullata

Abstract.

• 1 Generation time, diapause phenology and cold tolerance of the flesh fly, Sarcophaga bullata, were examined under confined natural conditions in central Ohio. In this locality, the fly can complete a maximum of four generations annually.
• 2 Very few pupae entered diapause in the first and second generations (May to July in 1988). In the third generation (August) 37% of the pupae entered an overwintering diapause, as did all pupae from the fourth generation (September).
• 3 The adult eclosion date in the spring and annual generation time can be predicted accurately from degree day data.
• 4 Cold tolerance of the field-overwintering portion of the population was high. After 30 days under field conditions, diapausing pupae readily survived a 7-day exposure to — 17°C. Glycerol appears to be the major cryoprotectant in S.bullata, and glycerol concentrations in the field population (95–142 mm ) remained high throughout the winter.
• 5 In contrast, diapausing flies reared under laboratory conditions (20°C, 12:12 LD) were less cold tolerant, and glycerol concentrations were lower (6.9–21.2 mm ). Field conditions thus promote the acquisition of high levels of cold tolerance, presumably as a consequence of the accumulation of higher concentrations of glycerol.
• 6 In spite of differences in the cold tolerance of laboratory and field flies, the supercooling points of the two groups of flies were nearly the same, thus implying that the supercooling point is not a good indicator of cold tolerance.

     

Activity enhancement of Zygogramma bicolorata,a biocontrol agent of Parthenium hysterophorus,by temperature regulated diapause aversion

Diapause is a unique strategy of dormancy in insects to avoid unfavourable conditions. The exotic beetle Zygogramma bicolorata, is an effective biological control agent of Parthenium hysterophorus in India, Adults diapause in soil during December to May. As a result, there is delay in its effectiveness on the plant that reaches to flowering and seed production by the time the beetle is able to build up its population after emerging from diapause. Therefore, a study was conducted to explore possibilities of diapause aversion by temperature regulation. Results indicated that exposure of newly emerged adults to heat treatment of 35°C and to low temperature of 10°C could reduce diapause in Z. bicolorata. The low temperature can also be used as a medium for the storage of the mass reared beetles for a long time without having negative effect on their longevity and fecundity.     

Effects of photoperiod and temperature on diapause induction and termination in the swallowtail,Sericinus montelus

Abstract Sericinus montelus overwinters as diapausing pupae. In the present study, the effects of photoperiod and temperature on diapause induction and termination of diapause are investigated. The results obtained demonstrate that high temperature can reverse the effect of short day‐lengths on diapause induction. Under an LD 12 : 12 h photoperiod, all pupae enter diapause at 15, 20 and 25 °C, whereas all pupae develop without diapause at 35 °C. No pupae enter diapause under an LD 14 : 10 h photoperiod when the temperature is above 20 °C. Photoperiodic response curves obtained at 25 and 30 °C indicate that S. montelus is a long‐day species and the critical day‐length is approximately 13 h at 25 °C. At 25 °C, the duration of diapause is shortest when the diapausing pupae are maintained under an LD 16 : 8 h photoperiod and increases under LD 14 : 10 h and LD 12 : 12 h photoperiods. Under an LD 16 : 8 h photoperiod, the duration of diapause is shortest when the diapausing pupae are maintained at 25 °C, followed by 20 and 30 °C, and then at 15 °C. These results suggest that a moderate temperature favours diapause development under a diapause‐averting photoperiod in this species. The duration of diapause induced by an LD 12 : 12 h photoperiod is significantly longer at 25 °C than those at 15, 20 and 30 °C, and is shortest at 15 °C. At 25 °C, the duration of diapause induced by LD 6 : 18, LD 12 : 12 and LD 13 : 11 h photoperiods is similar and longer than 90 days. Thus, the diapause‐inducing conditions may affect diapause intensity and a photoperiod close to the critical day‐length has significant influence on diapause intensity in S. montelus.     

Is the Iberian lacewing Chrysopa regalis a semivoltine species?

ABSTRACT.

• 1 Adults of the lacewing Chrysopa regalis Navás were caught in north Spain, Huesca province, Aragon.
• 2 Their progeny reared in the laboratory under short- and long-day light conditions at 20°C, entered a long diapause as prepupae within the cocoon.
• 3 Transferred outdoors after spinning up, only a few (12%) became active again in the following spring, whereas the rest remained in diapause for one more year and waited for the end of the second spring to resume their morphogenetic development. Thus most of the studied strain exhibited a 2–year life cycle. This semivoltine strategy is new to chrysopid biology.
• 4 The predaceous larval phase did not exceed 3% of the total individual lifespan, though the duration of the free-living larval instars averaged 19.9±1.1 (SD) days.
• 5 During the extended diapause, weight loss was very small, no more than 6.6% of the initial weight, 16.9±2.7 (SD) mg, at the end of diapause, and 8.8% at the time of pupal ecdysis.

     

Emergence of flies from overwintering populations of cabbage root fly pupae

ABSTRACT.

• 1 Once pupal diapause had been terminated, over-wintering cabbage root fly (Delia radicum (L.)) pupae from Wellesbourne required a further 14 days at 20°C for most of the flies to emerge.
• 2 There were considerable variations in the rates of fly emergence from thirteen populations of cabbage root fly pupae collected between latitudes 50° 42′ and 54° 59′ in England and Wales. These thirteen populations could be grouped into early-, intermediate- and late-emerging types. In the early-emerging type, flies emerged within 14 days at 20°C whereas in the late-emerging type emergence was protracted and was completed only after 100 days at 20°C in one population from Halsall, Lancashire. In the intermediateemerging type, approximately two-thirds of the flies emerged within 14 days at 20° C, the remainder taking considerably longer.
• 3 The intermediate-emerging types could be just mixtures of the early- and late-emerging types.
• 4 Subjecting pupae to diapause-breaking temperatures (4°C) for up to 1 year failed to shorten the time to subsequent fly emergence in any of the populations.
• 5 Populations of early, intermediate- and late-emerging fies could be selected from a parental population, heterogeneous with respect to emergence, within one generation.
• 6 The type of emergence that occurred in a locality was not correlated with latitude.
• 7 Any models developed for forecasting the most appropriate time to apply insecticide in a locality will have to include information about the emergence pattern of the fly population in that locality.

     

Ecology and genetics of insecticide resistance inHelicoverpa armigera: Interactions between selection and gene flow

Pyrethroid resistance inHelicoverpa armigera provides a model system in which to study evolution in natural populations. Resistance is seen to evolve as a consequence of selection pressure that varies within and between life-stages and gene flow. Although three different mechanisms are involved, present day fluctuations in phenotype frequency can be explained by variation in only one of these, metabolic resistance, that is inherited as a single, incompletely dominant gene,mfo. Selective mortality of phenotypes occurs in both larvae and adults in the presence of the pyrethroid insecticides. Although most individuals of all three genotypes are killed in young larvae, selection in this age-class contributes significantly to evolution of resistance. While there is some evidence of reduced fitness of resistant pupae during winter diapause, most of the decline in resistance frequencies each spring occurs as a result of immigration of susceptible individuals into insecticide-treated populations.     

Resurgence of the cotton bollworm Helicoverpa armigera in northern Greece associated with insecticide resistance

Helicoverpa armigera has been controlled effectively with chemical insecticides in the major cotton crop production areas of northern Greece for many years. However, a resurgence of the pest was observed in 2010, which significantly affected crop production. During a 4‐year survey (2007 – 2010), we examined the insecticide resistance status of H. armigera populations from two major and representative cotton production areas in northern Greece against seven insecticides (chlorpyrifos, diazinon, methomyl, alpha‐cypermethrin, cypermethrin, gamma‐cyhalothrin and endosulfan). Full dose‐response bioassays on third instar larvae were performed by topical application. Lethal doses at 50% were estimated by probit analysis and resistance factors (RF) were calculated, compared to a susceptible laboratory reference strain. Resistance levels were relatively moderate until 2009, with resistance ratios below 10‐fold for organophosphates and carbamates and up to 16‐fold for the pyrethroid alpha‐cypermethrin. However, resistance rose to 46‐ and 81‐fold for chlorpyrifos and alpha‐cypermethrin, respectively in 2010, when the resurgence of the pest was observed. None of the known pyrethroid resistance mutations were found in the pyrethroid‐resistant insects. The possible association between resistance and H. armigera resurgence in Greece is discussed.     

Activity of NAD-sorbitol dehydrogenase is caused by biosynthesis of enzyme protein in diapause and non-diapause eggs of the silkworm,Bombyx mori

• 1.1. Using SDS-PAGE and immunoblotting analyses with anti-sorbitol dehydeogenase (EC 1.1.1.14, SDH) serum, changes in amount of SDH protein were examined in diapause and non-diapause eggs of the silkworm, Bombyx mori.
• 2.2. When diapause eggs were exposed to 5°C from 2 days after oviposition to break the diapause gradually, SDH protein appeared after 50-day chilling, and then the amount increased along with chilling period. This changing pattern paralleled that in SDH activity.
• 3.3. In diapause eggs treated with HCl after chilling at 5°C for 30 days to break the diapause quickly, and non-diapause eggs, changing patterns in amount of SDH protein also paralleled those in SDH activity.
• 4.4. These results showed that SDH activity was caused by biosynthesis of SDH protein, independent of diapause or non-diapause eggs.
• 5.5. Occurrence of SDH correlates with the three developmental phases: diapause termination, embryonic growth, and larval differentiation. In larva, SDH was mainly localized in the fat-body.

     

Effect of latitude and acclimation on the lethal temperatures of the peach‐potato aphid Myzus persicae

• 1 Aphids, similar to all insects, are ectothermic and, consequently, are greatly affected by environmental conditions. The peach potato aphid Myzus persicae (Sulzer) has a global distribution, although it is not known whether populations display regional adaptations to distinct climatic zones along its distribution and vary in their ability to withstand and acclimate to temperature extremes. In the present study, lethal temperatures were measured in nine anholocyclic clones of M. persicae collected along a latitudinal cline of its European distribution from Sweden to Spain. The effects of collection origin and intra‐ and intergenerational acclimation on cold and heat tolerance, as determined by upper and lower lethal temperatures (ULT₅₀ and LLT₅₀, respectively), were investigated.
• 2 Lethal temperatures of M. persicae were shown to be plastic and could be altered after acclimation over just one generation. Lower lethal temperatures were significantly depressed in eight of nine clones after acclimation for one generation at 10°C (range: ?13.3 to ?16.2°C) and raised after acclimation at 25°C (range: ?10.7 to ?11.6°C) compared with constant 20°C (range: ?11.9 to ?12.9°C). Upper lethal temperatures were less plastic, although significantly increased after one generation at 25°C (range: 41.8–42.4°C) and in five of nine clones after acclimation at 10°C. There was no evidence of intergenerational acclimation over three generations.
• 3 Thermal tolerance ranges were expanded after acclimation at 10 and 25°C compared with constant 20°C, resulting in aphids reared at 10°C surviving over a temperature range that was approximately 2–6°C greater than those reared at 25°C.
• 4 There was no clear relationship between lethal temperatures and latitude. Large scale mixing of clones may occur across Europe, thus limiting local adaption in thermal tolerance. Clonal type, as identified by microsatellite analysis, did show a relationship with thermal tolerance, notably with Type O clones being the most thermal tolerant. Clonal types may respond independently to climate change, affecting the relative proportions of clones within populations, with consequent implications for biodiversity and agriculture.

     

Interactive effects of photoperiod and temperature on diapause induction and termination in the yellow-spotted longicorn beetle, Psacothea hilaris

Abstract. The interactive effects of temperature (20 °C or 25 °C) and photoperiod (LD 12 : 12 h or LD 15 : 9 h) on diapause induction and termination are investigated in the west‐Japan type yellow‐spotted longicorn beetle, Psacothea hilaris (Pascoe) (Coleoptera: Cerambycidae). Larval diapause of P. hilaris is induced under three diapause‐inducing conditions (20 °C–SD, 20 °C–LD and 25 °C–SD), and the diapause larvae are transferred to one of four conditions (20 °C–SD, 20 °C–LD, 25 °C–SD or 25 °C–LD) for observation of pupation, which indicates termination of diapause. The intensity of diapause induced under the three conditions increases in the order 20 °C–SD < 25 °C–SD < 20 °C–LD, when assessed by the time course of pupation after the transfer. On the other hand, the effectiveness of the temperature–photoperiod combinations to terminate diapause is in the order 25 °C–SD (ineffective) < < 20 °C–LD < 25 °C–LD < 20 °C–SD. Among the temperatures (5, 10, 15 and 20 °C) examined, 15 °C is the most effective in terminating diapause under the short day; diapause in most larvae appears to have been completed in 15 days.     

Effects of soil humidity on respiration and frost resistance during winter diapause in the pine beauty moth,Panolis flammea

1. Panolis flammea is an important pest whose populations intermittently outbreak in Europe. The species overwinters as pharate moths in the pupal stage in soil.
2. Details on the metabolic activity and cold hardiness of P. flammea during the overwintering period have not been published. Therefore, we assessed O₂ consumption and the supercooling point (SCP) of P. flammea in late November, mid-February, and mid-March and the influence of soil humidity under fluctuating temperatures and with brief exposures to two increased temperature regimes (10 and 20°C).
3. The respiration pattern indicated diapause termination in mid-February. A threshold of 0.169 μl O₂ h⁻¹ mg⁻¹ fresh weight indicated potentially activated pre-emerging moths. Drought increased respiration rates.
4. The SCP was lowest in mid-February (−22.2°C) and was negatively correlated with pupal mass. The frost tolerance tended to increase with low substrate humidity, especially at the end of the overwintering period.
5. Our results indicate that P. flammea requires more energy during dry and mild winters than in wet and cold winters. Winter diapause termination and post-diapause development may therefore be accelerated as environmental warming and drought increase.

     

Inhibition of Spermiogenesis of Eupyrene Spermatozoa by Elevated,Sublethal Temperatures During Pupal-Adult Development of the Bertha Armyworm,Mamestra con figurata Wlk. (Lepidoptera,Noctuidae)

Summary

Eupyrene spermiogenesis and spermatozoa production in Mamestra configurata Walker were inhibited by temperatures >24° C during a “critical period” of about 7 days during the first half of post-diapause pupal-adult development. The critical period coincided with the appearance of early-stage eupyrene spermatids. If temperatures >24° C occurred during the critical period, eupyrene spermatozoa production was reduced, the result of irreversible autolysis of the early- and mid-stage eupyrene spermatids. Each day of exposure to 25 or 27.5° C during the critical period reduced the number of eupyrene cysts with spermatozoa on average by 12 to 14%. There were no observable effects on eupyrene spermiogenesis and spermatozoa production of exposing post-diapausing pupae to 25 or 27.5° C before or after the critical period. Apyrene spermatogenesis was not affected by 25 or 27.5° C.

Exposure of pupae to 25°or 27.5° C during diapause had no apparent effect on eupyrene spermiogenesis and spermatozoa production. Meiosis usually was not detected among the eupyrene cysts with lalje primary spermatocytes until after diapause, indicating that meiosis is suppressed during diapause. By providing a meiotic block, diapause governs the time of onset of the temperature-sensitive critical period of spermiogenesis. In nature, male pupae of M. configurata in diapause are protected from sterilizing temperatures in the soil during August and post-diapause developing pupae pass through the critical period of spermiogenesis in spring (April to June) when soil temperatures throughout the range of M. configurata in Canada are well below 25° C. The distribution of M. configurata in the northern region of the temperate zone may in part be attributable to the sensitivity of spermatogenesis to relatively mild temperatures.