Rapid acclimatization to low temperature in the Queensland fruit fly, Dacus tryoni

Dacus tryoni, which overwinters in conditions of wide diurnal fluctuations in temperature, is capable of rapid acclimatization with respect to thresholds for torpor and flight but ability for metabolic compensation is apparently lacking. The rate of reacclimatization on abrupt transfer to lower temperatures is quicker the less the temperature drops and extrapolation of this relationship suggests a time of the order of 1 min for a drop as small as 1°C. This explains why continuous reacclimatization appears to take place during gradual cooling, even when this is as fast as 1°C/min. The insect can rapidly produce its maximum response to extensive drops of temperature as long as the latter falls gradually at a rate no faster than 1°C/min. Acclimatization in nature is therefore ‘immediate’. Reacclimatization to higher temperatures (deacclimatization to cold) depends upon the temperature that the insects are raised to and thus is slower the smaller the rise and understandably is not accomplished more rapidly by a gradual transition.     

Developmental and long-term acclimation to cold by the Queensland fruit-fly (Dacus tryoni) at constant and fluctuating temperatures

Dacus tryoni has exceptional powers of acclimation for an insect. Thresholds for cold-torpor change up to a maximum of 0.5°C per 1°C change of acclimation temperature—an order of adaptation approaching the best in vertebrate poikilotherms. Developmental acclimation can take place quickly; the critical period for this process corresponds to the last sixth of development in the puparium. Post-teneral flies have a constant torpor threshold if maintained in the temperature regime of their developmental period. If changed to another regime their threshold changes at a logarithmically declining rate towards the value that would be caused by developmental acclimation in that regime. The rate of post-teneral acclimation depends upon both the current threshold and on the prevailing temperature but there is a maximum limit to the rate of cold-acclimation that can be induced. Post-teneral acclimation to cold can therefore be slow but this is no handicap in the field as it is induced at maximal rates by temperatures up to 13°C above the lowest attainable threshold. Acclimatization for winter conditions therefore starts 2 to 3 months before they occur. Changes in threshold and maintenance of constant thresholds in both constant and fluctuating conditions can be predicted by the same acclimation model, provided a modification is made to account for the fact that cold-acclimation at certain temperatures is faster when these are experienced intermittently than when they are experienced constantly.     

Factors limiting the response of females of the Queensland fruit fly, Dacus tryoni, to the sex pheromone of the male

Factors limiting the responsiveness of female Dacus tryoni to the male sex pheromone were determined in laboratory bioassays. Maximum response occurred in bioassays carried out at the normal time of dusk under a light intensity of 0·8 ln/ft². The responsiveness of females decreased at light intensities above or below this value. Responsiveness was also influenced by an internal rhythm, the peak of which was synchronized with the start of dusk. The majority of females did not become responsive until their ovaries had matured and they all became unresponsive again for a period after mating. Four weeks after the first mating some females had regained their responsiveness.     

Absence of metabolic cold adaptation and compensatory acclimation in the Antarctic fly, Belgica antarctica

The respiratory metabolism in larvae of the Antarctic fly, Belgica antarctica Jacobs (Diptera: Chironomidae) was investigated at Palmer Station, Anvers Island (64°46′S, 64°03′W). Oxygen consumption was linearly related to temperature from 0 to 20°C, respectively, 49 and 338 nl/mg live wt/hr. Maintenance at 0 and 10°C for 8 days had no differential effect on the metabolic rate, suggesting that larvae lack the ability for compensatory acclimation. A comparison of standard metabolism for polar and temperate chironomids revealed no elevation of metabolic rate in polar forms. However, polar species exhibited lower activation energies than temperate forms indicating that the respiratory metabolism of polar chironomids is relatively temperature independent.     

Acclimation of different strains of the olive fly, Dacus oleae, to low temperatures

Male and female D. oleae have similar powers of acclimation when exposed to low temperatures. Their torpor thresholds depend upon the temperature to which they have been acclimatised. During slow cooling (i.e. less than 1°C per min) they are capable of some rapid acclimation which enables them to lower their torpor threshold by almost 1°C degree, as compared with when they are chilled quickly. After abrupt transfer from 25°C to a different temperature, acclimation takes some time to be accomplished. At 15°C and above it occurs within 10 days but at temperatures below this, progressive acclimation lowers the torpor thresholds to the very low levels typical of flies overwintering under natural conditions. During this long term acclimation torpor thresholds may change by almost 0.5°C per 1°C change of acclimation temperature.No differences were observed in the ability of either flies from northern and southern Greece, or normal and γ-irradiated laboratory reared flies to acclimate to winter conditions in the field. In all cases, torpor thresholds were progressively lowered in advance of the decline in weekly minimum temperatures.     

Effect of age and mating on pheromone production in the female olive fruit fly, Dacus oleae (Gmel.)

Virgin female olive fruit flies began producing sex pheromone on the third day after emergence. Production of sex pheromone appears to be cyclical with peaks of production recurring at about 10-day intervals, each peak lasting 2–3 days. As the female ages, the quantity of sex pheromone produced during the period of high pheromone production decreases, but it is always higher than the quantity present in the pheromone gland during the rest of female life.Mated females produced less sex pheromone the first 10 days after mating which then increased to near the same level of that in virgin females.     

Survival of step and ramp changes of temperature by the Queensland fruit fly, Dacus tryoni

ABSTRACT. Survival time at subzero temperatures is related to both long-term thermal history and the rate at which the insects are cooled. Insects cooled at one degree per hour survive for up to 3 times as long at a given test temperature than do insects cooled at 1C/min. Survival times are significantly shorter than times taken to freeze. Survival time at an extreme high temperature is related to long-term thermal history but the rate of heating makes no difference.     

The effects of thermal acclimation on immature mortality in the Queensland fruit fly Bactrocera tryoni and the light brown apple moth Epiphyas postvittana at a lethal temperature

Mortality data for non-acclimated and acclimated 3rd instar larvae and mid-term eggs of Bactrocera tryoni (Froggatt) (Diptera: Tephritidae) were obtained after immersing in hot water at 46 °C. Acclimation consisted of holding the larvae and eggs at 35 °C for 20 and 11 h respectively just prior to heat-treatment. The median lethal time (LT50) for acclimated larvae was found to be 6.9 min compared to 2.5 min for non-acclimated larvae. LT99.999 for acclimated larvae was 20.9 min compared to 8.7 min for non-acclimated larvae. LT50 for acclimated eggs was 5.0 min compared to 2.4 min for non-acclimated eggs. LT99.999 for acclimated eggs was 26.0 min compared to 6.6 min for non-acclimated eggs. For 3rd instar larvae, most acclimation effect on mortality had occurred by 8 h. A notable residual response was present 20 h after acclimation had occurred, reducing mortality at 46 °C for 4.5 min by roughly 25%. Mortality data at 46 °C were also obtained for non-acclimated and acclimated late instar larvae of Epiphyas postvittana (Walker) (Lepidoptera: Tortricidae). With this species, LT50 for acclimated larvae was 2.5 min compared to 1.1 min for non-acclimated larvae. LT99.999 for acclimated larvae was 9.5 min compared to 4.6 min for non-acclimated larvae.     

Attractants for the gravid Queensland fruit fly Dacus tryoni

The vapours of certain pure chemicals, typical of ripe fruits, elicited characteristic components of ovipositional behaviour from gravid Dacus tryoni (Froggat) in an olfactometer: the flies walked and flew upwind to the source of the vapour and then probed with their ovipositors. A range of alcohols, acids, ketones and esters having 2–6 carbon atoms were effective (1 and 10% of iso-butyric acid, n-butyric acid, methyl butyrate, ethyl butyrate, 2-butanone, ethyl lactate and ethyl acetate; and 10% concentrations of ethanol and 2-propanone). The most effective were 4–6 carbon acids, esters and ketones. Behavioural threshold for n-butyric acid vapour at 26°C was obtained from a 5×10^–3% dilution in paraffin oil; maximum fly response occurred at about 200 times this concentration. Low concentrations of the 15-carbon sesquiterpene, -farnesene, were also very effective, despite its lower volatility. These results suggest that at least three different types of alfactory sensory neurones are involved in the identification of fruit attractants by gravid D. tryoni.     

Effects of acclimation temperature on thermal tolerance and membrane phospholipid composition in the fruit fly Drosophila melanogaster

Adaptative responses of ectothermic organisms to thermal variation typically involve the reorganization of membrane glycerophospholipids (GPLs) to maintain membrane function. We investigated how acclimation at 15, 20 and 25 degrees C during preimaginal development influences the thermal tolerance and the composition of membrane GPLs in adult Drosophila melanogaster. Long-term cold survival was significantly improved by low acclimation temperature. After 60 h at 0 degrees C, more than 80% of the 15 degrees C-acclimated flies survived while none of the 25 degrees C-acclimated flies survived. Cold shock tolerance (1h at subzero temperatures) was also slightly better in the cold acclimated flies. LT50 shifted down by ca 1.5 degrees C in 15 degrees C-acclimated flies in comparison to those acclimated at 25 degrees C. In contrast, heat tolerance was not influenced by acclimation temperature. Low temperature acclimation was associated with the increase in proportion of ethanolamine (from 52.7% to 58.5% in 25 degrees C-acclimated versus 15 degrees C-acclimated flies, respectively) at the expense of choline in GPLs. Relatively small, but statistically significant changes in lipid molecular composition were observed with decreasing acclimation temperature. In particular, the proportions of glycerophosphoethanolamines with linoleic acid (18:2) at the sn-2 position increased. No overall change in the degree of fatty acid unsaturation was observed. Thus, cold tolerance but not heat tolerance was influenced by preimaginal acclimation temperature and correlated with the changes in GPL composition in membranes of adult D. melanogaster.     

Critical periods as fundamental events in life

Development is not a continuous phenomenon. Rather, phenophases are interspaced with short critical periods. This phenomenon reflects an alternance between stabilization (during a phenophase) and dismantling (during a critical period) of a network of between-organ relationships generating the organism. Networks of relationships may be compared to dissipative systems in physics. In this context, a critical period represents a transient phase of isolation of the systems enabling its evolution towards equilibrium. As suggested here, this transition from dissipative to isolated system represents the source of newly emerging dissipative structures in which environmental or developmental perturbations are adaptively integrated. In contrast to non-living systems, an endogenous control of the transition towards critical period seems to exist during development. By extension to other scales of biological organization, it is suggested that the capacity to self-define its status (dissipative or close-to-equilibrium) represents the key property of living systems. This asks for a reconsideration of some basic notions about life, such as the role of genes in normal development, in physiological adaptation, and even in the emergence of evolutionary novelty.     

Upwind anemotaxis in response to cue-lure by the Queensland fruit fly, Bactrocera tryoni

Movements of mature male Bactrocera tryoni (Froggatt) (Diptera: Tephritidae) were observed individually in a wind tunnel under conditions of ‘cue-lure with wind’, ‘cue-lure with no wind’, ‘wind only’ and ‘no wind or cue-lure’. Further observations were made using a dense foliage array in the wind tunnel and a structured plume of cue-lure. Patterns of walking or flying were essentially the same in all of the first four treatments except that in the ‘cue-lure with wind’ treatment, over half of the flies moved in a consistent track upwind for at least 400 mm at some time during the first 5 min of observation. With clean wind, only 10% of the flies did this. The result was that mean net upwind displacement after 5 min in the ‘cue-lure with wind’ treatment significantly exceeded that in the other three treatments, the results of which did not differ significantly from each other. The upwind tracks were accomplished by either walking or flying (with or without stops) or by a combination of both. When the wind tunnel was filled with a dense foliage array, the results with cue-lure laden wind were similar to those obtained with the equivalent treatment without foliage, except that upwind tracks were predominantly in short stages. When flies were exposed to a structured plume of cue-lure odour (without foliage present), they did not apparently alter their behaviour on leaving or entering the plume, but some did make consistent upwind tracks while they were in the plume.     

Complexity of the cold acclimation response in Drosophila melanogaster

Insects can increase their resistance to cold stress when they are exposed to non-lethal conditions prior to the stress; these plastic responses are normally described only in terms of immediate effects on mortality. Here we examine in Drosophila melanogaster the short- and longer-term effects of different conditions on several measures of cold resistance, but particularly chill coma recovery. Short-term exposure to sublethal temperature (cold hardening) did not decrease chill coma recovery times even though it decreased mortality. Exposure to 12 degrees C for 2 days (acclimation) decreased chill coma recovery times for a range of stressful temperatures when flies were cultured at 25 degrees C, but did not usually affect recovery times when flies were cultured at 19 degrees C. In contrast, 2-day exposure to 12 degrees C decreased mortality regardless of rearing temperature. Rearing at 19 degrees C decreased mortality and chill coma recovery time relative to rearing at 25 degrees C. Acclimation increased the eclosion rate of eggs from stressed females, but did not affect development time or size of the offspring. These results indicate that plastic responses to cold in D. melanogaster are complex when resistance is scored in different ways, and that effects can extend across generations.     

The effect of acclimation on mating frequency and mating competitiveness in the Queensland fruit fly, Dacus tryoni, in optimal and cool mating regimes

Mating frequency in groups of Dacus tryoni which had been either warm-acclimated or cold-acclimated were compared in temperature regimes ranging from just above mating-threshold to optimal. Cold-acclimation appeared to suppress initial mating ability of mature insects of both sexes to an extent which depended upon the acclimation regime used. The most favourable cold-acclimation regime produced flies which in certain circumstances were able to mate at an initial frequency similar to that of warm-acclimated flies. In no mating regime was initial mating significantly more frequent in any cold-acclimated group than it was in any warm-acclimated group. In most cases warm-acclimated flies in a given regime mated at high frequency for 1–2 days, whereas the cold-acclimated flies mated at low frequency for a greater number of days. In all cases, cold-acclimated flies accumulated a similar or significantly lower total number of matings than warm-acclimated groups. In experiments in which both warm-acclimated and cold-acclimated males competed for cold-acclimated females, the warm-acclimated males always out-competed the cold-acclimated males in two mild (near optimal) regimes. In a relatively harsh (near torpor threshold) regime, there was no significant difference in the competitive abilities of cold-acclimated and warm-acclimated males. The relevance of these results to possible acclimation procedures used in control campaigns involving release of sterile males is discussed.     

黄粉虫不同抗冻蛋白基因家族成员的低温应激表达

黄粉虫Tenebrio molitor L.抗冻蛋白基因家族有多个成员,其氨基酸数量和蛋白结构存在差异。尽管有报道发现冷驯化后这些抗冻蛋白的表达量会升高,但不同家族成员是否存在功能分化尚不清楚。本研究中,检测了冷驯化对低温死亡率的效应和对不同类型的抗冻蛋白家族成员基因表达量的影响。结果表明,冷驯化可以显著降低黄粉虫幼虫的低温死亡率和提高不同类型抗冻蛋白基因的表达量。其中,长的抗冻蛋白和低温死亡率的相关关系最为明显。说明不同的抗冻蛋白家族成员的功能有明显的分化,为进一步理解抗冻蛋白的活性和利用抗冻蛋白提供了新的认识。     

The role of adult learning in the acceptance of host fruit for egglaying by the Queensland fruit fly, Dacus tryoni

Evidence presented indicates that exposure of wild Queensland fruit files, Dacus tryoni (Froggatt), to a given host fruit type (e.g. pear) for 3 days causes females to attempt oviposition to a greater degree in that fruit type than in other fruit types (e.g. tomato, grape). The effects of exposure to a particular fruit type proved reversible, suggesting that D. tryoni females were capable of learning. Females exposed to pear for 3 days appeared to retain the effect of such exposure on acceptance of tomato for up to 4 days but appeared to retain the effect on acceptance of grape for less than 2 days. The possible significance of prior experience of females with a particular fruit type on future ability to discriminate among varying-quality specimens of that type is discussed.

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Résumé Les éléments apportés montrent que l'exposition de D. tryoni Froggat à un type de fruit déterminé (par exemple, la poire) pendant 3 jours, conduit la femelle à tenter de pondre à une plus haute fréquence dans ce type de fruit que dans d'autres (par example; tomate ou raisin). Les effects de l'exposition à un type particulier de fruit étant réversibles, ceci suggère que les femelles de D. tryoni sont capables d'apprentissage. Des femelles exposées à des poires pendant 3 jours ont conservé l'effet d'une telle exposition pendant 4 jours en présence de tomates, mais moins de 2 jours en présence de raisin. La discussion porte sur la signification possible de la connaissance antérieure d'un type particulier de fruit sur l'aptitude ultérieure des femelles à distinguer parmi des spécimens de ce type, mais de qualités différentes.

     

Changes in wheat leaf phenolome in response to cold acclimation

A study of wheat (Triticum aestivum L.) leaves phenolome was carried out during cold acclimation of the winter (Claire) and spring (Bounty) varieties using a combination of HPLC–ESI–MS techniques. A total of 40 phenolic and flavonoid compounds were identified, and consisted mainly of two coumarin derivatives, eight simple phenolic derivatives, 10 hydroxycinnamoyl amides and 20 flavonoid derivatives. Identification and quantification of individual compounds were performed using an HPLC system coupled with a photodiode array detector and two different ESI–MS systems, in combination with a multiple reaction monitoring (MRM) technique. The analyses indicated that, although there were no qualitative differences in their profiles, the winter variety exhibited a higher phenolic content compared to the spring variety when both were grown under non-acclimated (control) conditions. Cold acclimation, on the other hand, resulted in a significant differential accumulation of phenolic compounds in both varieties: mostly as luteolin C-glycosides and their O-methyl derivatives in the winter variety (Claire) and a derivative of hydroxycinnamoyl amide in the spring variety (Bounty). These compounds accumulated in relatively large amounts in the apoplastic compartment. The accumulation of the O-methylated derivatives was associated with a marked increase in O-methyltransferase (OMT) activity. In addition, the trimethylated flavone, 3′,4′,5′-trimethyltricetin was identified for the first time in the native extracts of both control and cold-acclimated wheat leaves. The accumulation of a mixture of beneficial flavonoids, such as iso-orientin, vitexin and tricin in cold acclimated wheat leaves, attests for its potential as an inexpensive source of a health-promoting supplement to the human diet.