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.     

Effect of temperature and photoperiod on diapause development in a Douglas fir seed chalcid, Megastigmus spermotrophus

Douglas fir seeds infested by diapausing larvae of a chalcid, Megastigmus spermotrophus, were transferred under different temperature and photoperiod regimes at various dates during autumn and winter. Both winter diapause and prolonged diapause were compared to the diapause patterns observed in control lots kept under natural conditions. The results showed that exposure to low temperatures in autumn and winter is required for the completion of diapause development. Median adult emergence dates and the date of transfer of larvae to 20°C were negatively correlated. The frequency of prolonged diapause of larvae transferred to 20°C decreased significantly after November. When larvae were submitted to different constant temperatures, the longer the daylength, the higher and faster the reactivation. These results suggest that chalcid larvae can perceive daylength through the seed coat. This phenomenon is probably related to the fact that most of the infested seeds falling in autumn are usually covered by a layer of leaf litter during the winter. Received: 14 June 1996 / Accepted: 24 February 1997     

Effects of photoperiod and temperature on the termination of diapause in the univoltine seed wasp Eurytoma plotnikovi

Abstract Mummified pistachios containing fully grown diapause larvae of Eurytoma plotnikovi Nikol'skaya (Hym., Eurytomidae) were collected in early August and late September in coastal northern Greece and subjected to various photoperiod and temperature treatments, then maintained at 19 or 26°C and a long-day (LD 16:8 h), a changing, or a short-day (LD 10:14 h) photoperiod until pupation. In larvae of early August (beginning of diapause) subjected for 20 weeks to 19°C under a long, a changing, or a short photophase, followed by 19°C and a long photophase, 50% of the larvae pupated after 24, 18 and 13 weeks respectively. After exposure for 20 or even 12 weeks to a short photophase and low temperatures (10 or 4°C), pupation occurred after only 7–8 weeks and was more synchronous. The ranges of temperature for diapause development and post-diapause morphogenesis overlap. After exposure for 12 weeks to short days and low temperature, larvae of late September pupated much sooner under long days than under short days and sooner at 26° than at 19°C. E.plotnikovi depends on both temperature and photoperiod for diapause development, low temperature having a strong favourable effect on the earlier part and long day on the later part of diapause. In a few larvae of another pistachio seed wasp, Megastigmus pistaciae Walker, after a long enough period of low temperatures, diapause was terminated normally at 26°C and long days, or at 19°C and long or short days.     

Photoperiodic control of larval development in the semivoltine cockroachPeriplaneta japonica (Blattidae: Dictyoptera)

Periplaneta japonica is semivoltine, entering early diapause in any (except the first) larval instar before the last, and late diapause in the last instar. Early diapause was induced under a short day of 13 h or less at 28°C, and under both short and long daylength (12–16 h) at 20°C. The shorter the daylength and the lower the temperature, the younger the instar was entering early diapause. Early diapause was terminated by a long day (16 h) or a high temperature (28°C), after which larvae grew faster in short days than in long days until the last instar, when they again entered diapause, always in short days and frequently in long days. This late diapause was terminated also by an increase in daylength and was always followed by adult emergence. In this case, 13 and 14 h daylengths after exposure to 12 h daylength were as effective as 16 h daylength. Ourdoor samples collected in late autumn, winter and early spring at Hirosaki (40.5°N) comprised two distinct size groups, corresponding with the early and late diapause instars. Based on these results, the seasonal development strategy and intriguing aspects of the photoperiodic response in this cockroach are discussed.     

Effects of temperature on growth, development and diapause in the yellow dung fly – against all the rules?

The effects of rearing temperature (and photoperiod) on growth, development, body size, and diapause induction and termination in the yellow dung fly, Scathophaga stercoraria, were investigated by allowing replicate families of larvae to develop in the field along a time sequence approaching the onset of winter. This was supplemented with extensive laboratory rearing. At constant laboratory temperatures, growth rates were maximal between 15°C and 20°C and decreased at higher (25°C) and lower (10°C) temperatures, while the development rate was maximal at 25°C. Perhaps related to this, yellow dung flies reached a given size faster at naturally variable, as opposed to constant, temperatures. In the field, lower temperatures towards the end of the season resulted in larger individuals that grew faster. Adult body size increased as development time, expressed in calendar days, increased, a positive relationship commonly taken for granted in life history theory, but decreased as development time expressed in degree-days increased. The effect of temperature on growth, development and body size can thus change or even reverse if individuals can alter their growth rate independently of development time, and if the physiological effects of temperature are factored out by converting development time into degree-days above a lower development threshold. Therefore, supposedly well-established trends possibly need to be re-examined along these lines. Pupal winter diapause towards the end of the season was highly reversible by temperature. Pre- and post-winter emergence patterns together suggest that the minimum time for yellow dung flies to successfully complete development, at any time of the year, is about 230–250 degree-days. Received: 2 September 1996 / Accepted: 26 February 1997     

Selection for an optimal monovoltine life cycle in an unpredictable environment. Studies on the beetleCatops nigricans Spence (Col., Catopidae)

Summary Catops nigricans reproduces in the autumn. Pre-imaginal development is temperature-dependent and takes place during the winter, followed by aestivation in the early adult stage. This summer diapause is obligatory and temperature independent. It synchronizes the monovoltine life cycle with the annual cycle. In three populations collected near Kiel (54°22′ N, 10°6′ E), K?ln (50°54′ N, 7°6′ E), and Paris (49°25′ N, 2°20′ E), pre-imaginal development slowed and the duration of summer diapause decreased with increasing latitude. Synchronization of the critical breeding interval with the appropriate environmental conditions was achieved through temperature- and photoperiod-dependent sensitivity of ovipositing adults, through different thermal thresholds in eggs, larvae, and pupae, and through sensitivity to photoperiod in third-instars larvae.C. nigricans copes with the unpredictability of climatic conditions in different ways. The local populations have evolved a mean diapause length which probably adjusts the life cycle in most years to the optimal date for reproduction. The mean diapause length was 77 days for Kiel, 98 days for K?ln and 138 days for Paris at 10°C, short-day (=SD).C. nigricans also spreads the risk by varying diapause length. Amongthe progeny of single females the range of diapause duration covered about 70% of the total range of the whole population. The oviposition rate of females confined to subterranean life was the same as females confined to subterranean life was the same as in those living under the influence of a varying photoperiod.C. nigricans should therefore be able to live both in the litter layer of forests and also in the nests and galleries of small mammals.     

Control of diapause and supercooling by the retrocerebral complex inPyrrhocoris apterus

Effects of external (photoperiod, temperature) and internal (retrocerebral complex, diapause condition) factors on supercooling were studied inPyrrhocoris apterus (L.) (Heteroptera: Pyrrhocoridae) adults. An increase in supercooling capacity is associated with the induction of diapause by short-day photoperiod or cardiacallatectomy of long-day non-diapause insects in spite of a high temperature of 26°C. The induction of diapause is a prerequisite for a further increase in supercooling capacity by cold acclimation. Post-diapause adults show low values of the supercooling point also in late January or early February, although their developmental potential is fully restored. Evidently the ability to supercool associated with diapause induction is maintained by a low ambient temperature in spite of diapause termination. The supercooling point increases rapidly when these adults are transferred to a high temperature of 26°C and cold re-acclimation is then no longer possible. The inhibition of morphogenesis (maturation of gonads) by cardiacallatectomy does not prevent the supercooling point from increasing in post-diapause adults at the high temperature.     

Predicting spring emergence of blackcurrant leaf midge (Dasineura tetensi) from air temperatures

The mean duration of post-diapause development of overwintered Dasineura tetensi larvae (in cocoons) was 72.8 (SD=11.4), 45.9 (SD=8.6), 28.7 (SD=6.0), 15.9 (SD=4.3), 10.4 (SD=1.9) and 10.2 (SD=1.8) days at constant temperatures of respectively 10, 12.5, 15, 17.5, 20 and 25 °C in the laboratory. No perceptible development occurred at 5 or 7.5 °C and complete mortality occurred when larvae were held at 30 °C for prolonged periods. The relationship between development rate (r days^–1) and temperature (T °C) was sigmoidal between 10 and 25 °C, the logistic equation r=0.0158+0.085/(1+exp(–0.696(T–17.0))) accounting for 98% of the variation. Larvae entered the winter in diapause. Populations of cocoons were greatest in the surface soil in the centre of bushes adjacent to the crown, 69, 15, 9 and 6% of cocoons occurring in the top 0–1, 1–2, 2–3 and 3–4 cm of the soil, respectively. The time of termination of diapause in the field varied greatly between individuals and from season to season but a significant proportion (>40%) had broken diapause by the end of January in each of the three seasons studied. Diapause was not terminated in the laboratory by chilling over-wintered larvae in cocoons at –2.5, 2.5 or 10 °C for up to 28 days nor when held in a L16:D8 photoperiod. A computer-based phenological forecasting model was constructed using the development rate values (using the INSIM software developed at The Agricultural University, Wageningen, The Netherlands). The model accumulated daily development amounts calculated from daily maximum and minimum air temperatures from 1 February, the end of the coldest period of the year on average and before significant post-diapause development occurred. The model uses boxcar trains to simulate dispersion. The model predicted the time of first emergence of D. tetensi adults in spring at HRI-East Malling generally to within 6 days of the observed time of emergence, and to within 11 days at worst. There was poorer agreement between observed and predicted times of emergence when daily maximum and minimum soil temperatures (depth ca. 3 cm) were used. The use of the model to time insecticidal sprays in relation to the flowering time of blackcurrant is discussed.     

Methods of short-term storage of cultures of the blowfly <Emphasis Type="Italic">Calliphora Vicina</Emphasis> R.-D. (Diptera,Calliphoridae)

Three methods of short-term storage of the blowfly Calliphora vicina strains are considered based on the experimental study of 21 strains originating from different parts of the species range. The colony can be preserved as diapausing adults at 6° and darkness for 2–3 months or more, depending on the geographical origin of the population. During the first five days of adult life the flies should be kept at 12° and short day on a sugar diet, after which they should be transferred into a refrigerator. During artificial hibernation the flies also require periodic sugar feeding every 20 days (3–4 h at 20°C) to maintain their vital functions. The combination of temperatures of 20–23°C and a protein diet terminates reproductive diapause, and oviposition starts in 10–17 days. The fly strain may be preserved as reproductive females at 6°C and darkness with sugar feeding. Flies also require periodic sugar feeding at 20°C (3–4 hours). In this case the flies start laying eggs 2–3 days after being transferred to 20–23°C. The preservation of diapausing larvae is a more reliable method of prolonged strain storage. In this case the flies of maternal generation are maintained at 20–23°C on sugar and protein diet. The egg rafts laid during 5–6 hours are then transferred into 12°C and short day until hatchment. The hatched larvae should be immediately placed into a refrigerator (2–3 or 5–6°C), where they feed during 1–1.5 months and enter diapause. For strain restoration, the diapausing larvae should be transferred into 20–25°C, where they pupariate in 3–5 days and the flies emerge in nearly 10 days.     

Diapause induction in the thrips predatorAmblyseius cucumeris [Acarina: phytoseiidae] under greenhouse conditions

The predatory miteAmblyseius cucumeris (Oudemans) is an important biological control agent for thrips in commercial greenhouses, but its effectiveness in fall and winter is limited by reproductive diapause induced under short day conditions. Influence of photoperiod and temperature on diapause induction was investigated to provide information for successful management of the predator. Under 8∶16 (L∶D) photoperiods and 22°C photophase temperatures, diapause incidence was inversely related to scotophase temperature, decreasing from 100% diapause at 15°C to no diapause at 21°C. In continuous darkness, diapause was induced by thermoperiods of 20∶10 and 22∶17 and 22∶17 but not 25∶15°C (T∶C) (8h thermophase). Critical daylength for inducing diapause under 22∶17°C (T∶C) was 12.45 h, which was consistent with the trend in diapause incidence in mites collected from an established greenhouse population September to November. MostA. cucumeris diapaused only when exposed to diapause inducing conditions throughout their juvenile development and none stopped laying eggs when transferred from nondiapause to diapause inducing conditions as adults. After 14 generations of genetic selection for a nondiapause strain, diapause incidence was 33.3%.      

European field collections and Canadian releases ofCeranthia samarensis (Dipt.: Tachinidae), a parasitoid of the gypsy moth

A programme to collect, import and release into Canada the gypsy moth parasitoid,Ceranthia samarensis (Diptera: Tachinidae) is described. The parasitoid's potential for biological control in Canada is also discussed. The parasitoid was collected in Europe by exposing experimental gypsy moth larvae in areas where local gypsy moth populations were at low densities. Following field exposure, the host larvae were returned to the laboratory and parasitoids reared from them. This technique has shown thatC. samarensis is the suffers 7–16% hyperparasitism. From 83–90% of theC. samarensis typically enter diapause as pharate adults within the puparia. Laboratory tests of post-exposure host rearing conditions indicate that constant temperatures disrupt the normal parasitoid diapause and that this effect can not be offset by use of either static long or short photoperiods or natural daylengths. Shipping and cold-storage procedures for puparia are described. Post-storage time to emergence of adultC. samarensis decreased with longer cold storage periods and with higher post-storage incubation temperatures. Emergence requires 112 degree-days above a threshold of 8°C after a period of at least 8 months cold storage. Releases of adultC. samarensis into field cages at four locations in southern Ontario are documented. While dissection of host larvae from the field cages has failed so far to demonstrate evidence of parasitism, we remain hopeful that some establishment of the parasitoid has occurred.      

Enzymatic capacity for accumulation of polyol cryoprotectants changes during diapause development in the adult red firebug, Pyrrhocoris apterus

Abstract. Diapausing adults of the red firebug, Pyrrhocoris apterus, were maintained in the laboratory at constant conditions of 20 °C and short days (LD 12 : 12 h) for 5 months. Spontaneous termination of diapause is seen in 0.4% of adults. At different times of diapause development, groups of adults were exposed to an 8‐week gradual cold treatment ending at 0 °C. Ribitol and sorbitol contents remain very low at constant 20 °C and their rapid accumulation only occurrs at temperatures below 5 °C. The capacity to accumulate ribitol in response to low temperature stimulus remains relatively stable but the capacity to accumulate sorbitol decreases to zero during the 5 months of diapause development. Glycogen (whole‐body and fat‐body reserves) accumulates relatively rapidly during the early phase (up to 1–2 months) and slowly depletes during the late phase of diapause development under constant conditions. Upon cold treatment, part of the glycogen reserve was depleted. The activities of most enzymes involved in polyol metabolism (namely glycogen phosphorylase, glucose‐6‐P dehydrogenase, phosphofructokinase, aldose reductase, polyol dehydrogenase and ketose reductase) increase relatively rapidly during the early phase of diapause development and, in the late phase, they either become stable or slowly decrease. Cold treatment has either no effect or results in a moderate increase in activity when applied in the early phase of diapause development but results in a more or less obvious decrease of enzymatic activity when applied in the late phase.     

Maternal thermal effect on diapause in Trichogramma species (Hymenoptera: Trichogrammatidae)

Both direct thermal and maternal photoperiodic effects on diapause induction have been thoroughly investigated in many insect species, while maternal thermal effects have been infrequently studied. We studied the effect of temperature during development of maternal generation on the proportion of diapausing progeny in four species of the genus Trichogramma Westw., minute egg parasitoids, widely used for biological control of lepidopteran pests. The maternal generations were reared at day lengths of 12 and 18 h and temperatures of 17, 20, 25 and 30°C, and their progeny developed under day length of 12 h and temperatures of 13 and 14°C. In T. evanescens and T. piceum, the proportion of diapausing progeny decreased with increasing temperature under all tested photoperiods and thermal regimes of progeny development; the high temperature of 30°C totally averted diapause of progeny. In T. buesi and T. principium, low temperatures of 17 and 20°C resulted in relatively high proportion of diapausing progeny only when the maternal generation developed under short‐day conditions. The threshold of the maternal thermal response varied from 17–18 to 22–23°C. Under field conditions, Trichogramma females are exposed to such high temperatures only during summer, when diapause in their progeny is in any case prevented by the maternal photoperiodic response and by the thermal response of the larvae. We conclude that the maternal thermal effect on diapause induction, although to a different extent, is inherent to Trichogramma species but, at least as suggested by laboratory experiments, it does not play any role in the regulation of seasonal development under natural conditions. However, during mass rearing of Trichogramma wasps, it should be taken into account that high temperature, even when combined with short photoperiod, can avert diapause in the next generation.     

Role of photoperiod and temperature in the induction of overwintering pupal diapause in the spotted tentiform leafminer,Phyllonorycter blancardella

The role of photoperiod and temperature in the induction of overwintering diapause inPhyllonorycter blancardella (F.) (Lepidoptera: Gracillariidae) was examined in the laboratory and field using leafminers from commercial apple orchards in Ontario, Canada.P. blancardella exhibited a long-day response to photoperiod: long daylengths resulted in uninterrupted development whereas short daylengths induced diapause. The estimated critical photoperiod for diapause induction was L14.25∶D9.75. The larvae of leafminers destined to enter diapause took ca. 3× longer to complete development than the larvae of non-diapausing leafminers. The development prolonging effect of photoperiod decreased with decreasing daylength. Temperature modified the diapause inducing effect of photoperiod. At L14.25∶D9.75, diapause incidence was similar at 15 and 20°C but was lower at 25°C. Photoperiod also altered the normal relationship between development rate and temperature. At L14.25∶D9.75, the duration of larval development of diapausing leafminers was similar at 15, 20 and 25°C. Temperature alone is unlikely to have a role in the induction of diapause because leafminers exposed to natural late summer and fall temperature regimes and L16∶D8 did not enter diapause.     

Induction of adult diapause and of low and high reproductive states in a parasitoid wasp,Ooencyrtus nezarae, by photoperiod and temperature

Ooencyrtus nezarae Ishii (Hymenoptera: Encyrtidae) was reared on eggs ofRiptortus clavatus (Thunberg) (Heteroptera: Alydidae) at various temperatures under long-day (L16:D8) or short-day (L10:D14) conditions. There was no diapause during egg, larval or pupal stages under any set of conditions examined. However, at 15°C under short-day conditions, vitellogenesis was arrested in all adult females and they entered diapause. At 15°C under long-day conditions, or at 20°C under short-day conditions, some adult females entered diapause. Under the latter set of conditions, the adult females laid eggs but they laid fewer eggs than under long-day conditions, Even at 25°C, under short-day conditions, adult females laid fewer eggs than under long-day conditions, and this low rate of oviposition was attributed to the retarded development of ovaries. Diapause adults reared at 15°C were more resistant to low temperature than nondiapause adults reared at 25°C.     

Completion of diapause in field populations of the cabbage root fly (Delia radicum)

The various diapause and post-diapause stages entered by cabbage root fly pupae during the overwintering period are shown schematically. Although diapause induction started in mid-Aug., the early-pupating insects did not develop further but were maintained in diapause by the warm autumn temperatures. Therefore, diapause development was simultaneous in all Wellesbourne pupae, whether of second or third generation origin. Diapause development started only in mid-Oct., when mean soil temperatures fell below 10°. In the field, 90% of the overwintering population of cabbage root fly pupae had completed pleted diapause by 5 March 1980, 17 Feb. 1981 and 18 Feb. 1982. This was equivalent to a duration of 19 weeks from mid-Oct. onwards, during the winters of 1979–80, 1980–81 and 1981–82 respectively. A further break between the completion of diapause and the warm conditions required to start post-diapause development also helps to condense the emergence of flies in the spring. Hence, an accurate forecast of the time of spring attack by populations of flies similar to those at Wellesbourne should be possible.This study was financed partly by the Commission of the European Communities as CEC Contract No. 0771.     

Physiology of diapause in the adult bark beetle, Ips acuminatus Gyll., studied in relation to cold hardiness

The ovarioles of the bark beetle, Ips acuminatus are telotrophic. Ovarian development is suppressed at an immature stage with primary germ cells present in the germaria. Lower oxygen consumption is found in beetles during autumn and early winter, and a substantial rise in mean respiration rates occurs in the beginning of January paralleled by a resumption of pre-vitellogenesis in all females maintained either at 3°C or out of doors after return to 21°C for 2 weeks. It is concluded that I. acuminatus enters faculative diapause soon after enclosure to the adult, and that diapause is terminated by mid-winter in beetles kept for 18 weeks at either 3°C or out of doors. The specimens remain thereafter in reproductive quiescence until ovarian development can proceed.Photic cues are neither involved in the elevation of mean respiration rates, nor needed to abolish the inhibition of ovarian maturation in beetles kept at 3°C or in those returned to 21°C. However, follicle formation in ovarioles is only seen in positive phototactic females reared during “long-day” conditions, suggesting a photoperiodic regulation of the later stages of vitellogenesis.Detectable amounts of ethylene glycol are found at the beginning of November in freezing-susceptible I. acuminatus hibernating in its galleries underneath bark of Scots pine (Pinus silvestris) at 3°C. The gradual catabolism of the cryoprotective solute at 3°C through December occurred at a time when individuals achieved the competence to resume ovarian maturation during 2 weeks at 21°C, but prior to the substantial rise in their mean respiration rates. However, resumption of ovarian development in spring had no effect on the capability of outdoor beetles to enhance their supercooling capacity when subjected to sub-zero temperatures. Since the ability to respond to temperature changes occurred in post-diapause I. acuminatus as well, the maintenance of prolonged cold hardiness in specimens could not be related to diapause itself. Apparently, the ability of beetles to resynthesize ethylene glycol when a detectable level is present in the organism remains unaltered during overwintering.     

Regulation of heat shock proteins in the apple maggot Rhagoletis pomonella during hot summer days and overwintering diapause

Abstract Developing larvae of the apple maggot Rhagoletis pomonella are frequently exposed to summertime apple temperatures that exceed 40 °C and, during their overwintering diapause, pupae are exposed to sub‐zero soil temperatures for prolonged periods. To investigate the potential involvement of heat shock proteins (Hsps) in response to these environmental extremes, the genes encoding Hsp70 and Hsp90 in R. pomonella are cloned and expression monitored during larval feeding within the apple and during overwintering pupal diapause. Larvae reared in the laboratory at constant temperatures of 25, 28 or 35 °C express Hsp90 but very little Hsp70. Larvae do not survive rearing at 40 °C. The temperature cycles to which larvae were exposed inside apples in the field, ranging 16–46.9 °C over a 24‐h period, elicit strong Hsp70 and Hsp90 expression, which begins at mid‐day and reaches a peak in late afternoon, coinciding with peak air and apple temperatures. Heat shock proteins are also expressed strongly by pupae during their overwintering diapause. Hsp70 is not expressed in nondiapausing pupae but is highly expressed throughout diapause. Hsp90 is constitutively expressed in both diapausing and nondiapausing pupae. Rhagoletis pomonella thus strongly expresses its Hsps during pupal diapause, presumably as a protection against low temperature injury, and during larval development to cope with natural temperature cycles prevailing in late summer.     

Diapause survival and post-diapause performance in bumblebee queens (Bombus terrestris)

Diapause survival and post-diapause performance (i.e., if a queen starts to lay eggs) of in total 2210 bumblebee queens (Bombus terrestris) were measured under different diapause regimes: 5 temperatures (–5, 0, 5, 10 and 15 °C) in combination with 5 durations of exposure (1, 2, 4, 6 and 8 months).The results show that weight at the start of diapause determines to a large extent whether a queen will be able to survive diapause. Queens with a wet weight below 0.6 g prior to diapause did not survive, but for those queens exceeding this threshold a higher pre- diapause weight did not increase their post-diapause performance.There was no effect of temperature on diapause survival; 76% of the variance in survival could be explained by the duration of the treatment. Neither temperature nor duration of exposure had an effect on post-diapause performance. The preoviposition period of the queens that laid eggs was also determined. The preoviposition period was affected by both temperature and duration of exposure: the preoviposition period decreased with decreasing temperature but also with increasing duration of the treatment.     

Effect of temperature on the termination of diapause in the univoltine almond seed wasp Eurytoma amygdali

Diapausing larvae of Eurytoma amygdali Enderlein (Hymenoptera, Eurytomidae) were collected in early August and late September. They were subjected to various photoperiod and temperature regimens for up to 20 weeks, then kept at L16:D8 and 19 °C for another 14 to 26 weeks for diapause to be terminated and pupation to take place. Photoperiod did not affect diapause completion. It was confirmed that the two morphologically distinct diapause stages have different temperature requirements for their completion. The first diapause stage was completed synchronously at temperatures between 16 and 19 °C. A higher temperature of 26 °C delayed diapause development. The second stage required lower temperatures between 4 and 10 °C. Spontaneous termination of diapause was observed at constant 19 °C. When applied to the first diapause stage for 20 weeks, low temperatures made the larvae refractory to subsequent intermediate temperatures. The first stage was thus maintained until a higher temperature of 26 °C made the larvae regain their ability to respond to the intermediate temperatures and complete this stage. Larvae grown in Retsou almonds had a higher diapause intensity than larvae grown in Truoito almonds. The results suggest that, in nature, the high temperatures of late summer and early autumn are likely to maintain the first diapause stage. Subsequently, the less warm temperatures of autumn allow the completion of the first stage by late autumn, and the low temperatures of late autumn and of winter allow the completion of the second diapause stage by mid winter.