桃蚜、萝卜蚜发育速率在恒温和变温下的变化规律研究

本文报道桃蚜(Myzus persicae)萝卜蚜(Lipaphis erysimi)在一系列恒温、变温下的发育速率,结果表明:(1)恒温下发育速率与温度关系遵循有下上限的logistic曲线;(2)除了在恒温下随温度升高死亡率急剧增加、发育速率迅速下降的高温区(桃蚜:>28℃,萝卜蚜:>30℃)外,温度波动不改变发育速率与温度的函数关系;(3)变温下,在上述高温区内的发育速率仍基本按经典的logistic曲线随温度升高而上升,但在一温度下的发育速度又随停留时间延长而逐渐下降;在恒温下只能完成部分虫期发育的低温区,变温下发育速率亦接近经典的logistic曲线。文中根据上述结果提出了一个昆虫发育率在恒温和变温下变化规律的初步模型,并发现文献中有大量的基本符合这一模型例证的。     

昆虫发育过程中的速率累加效应对其日均发育率的影响

昆虫发育速率V与温度T之间呈S型曲线关系。在确定适合昆虫发育的变温范围的基础上,利用萝卜蚜的试验数据,通过计算机模拟,探讨了“速率累加”过程通过V与T之间的曲线关系在各种变温条件下对昆虫日均发育速率所产生的影响。结果表明,在排除温度波动本身可改变瞬时发育速率的前提下,这种速率累加效应导致在低温区内变温下的发育比在恒温下快,在高温区内则相反,且温度变幅越广差异就越大。文中指出,由于日均发育速率会依温度的变化方式和幅度不同而发生改变,而依据恒温速率曲线可计算出各种变温下的发育进度,故对于预测昆虫在适温区发育进度而言,恒温试验结果比变温试验结果具有更广泛的适用性。     

昼夜变温幅度对小菜蛾不同发育阶段生活史性状的影响

【目的】昼夜变温幅度对昆虫的发育、存活、寿命、繁殖等核心生命活动有非常重要的影响。以往研究主要以恒温为主,温度设置不符合自然界中昼夜温度波动变化,无法明确温度波动幅度与恒温之间的生物效应差别。【方法】本研究采用了二步变温,模拟了不同的昼夜温度波动幅度(25±2℃,25±4℃,25±6℃,25±8℃,25±10℃和25±12℃)与相应恒温25℃,研究了不同变温幅度对十字花科世界性害虫小菜蛾Plutella xylostella不同生活史阶段中发育、存活、寿命与繁殖的影响。【结果】结果表明,变温幅度对小菜蛾不同阶段的发育、存活、寿命与繁殖影响存在显著差异。25±2℃,25±4℃和25±6℃对小菜蛾生活史性状的影响与恒温(25℃)相似,但25±10℃和25±12℃却产生了显著的负面影响。【结论】我们发现,较大的昼夜变温幅度显著影响小菜蛾不同阶段的发育、存活、寿命与繁殖,而适宜夜低温在一定程度上修复了日高温胁迫对小菜蛾的不利影响;并且认为昼夜变温幅度作为影响昆虫核心生命活动一种重要决定因素,必需纳入到昆虫种群数量预测模型中,才能真实地反映自然界中复杂变温模式对昆虫生态学效应的影响,才能提高昆虫田间发生预测预报的准确性。     

恒温和变温对小菜蛾发育速率的影响

研究了小菜蛾的发育速率在恒温和自然变温下的变化规律。恒温下小菜蛾在 8～ 32℃内能完成整个幼期的发育 ,在 30～ 32℃下发育最快。幼虫能完成发育的温度范围宽于卵和蛹。在模拟恒温下发育速率和温度关系时 ,王 -兰 -丁模型效果较好 ,而 Logistic模型能较好地模拟适温区和低温区的发育速率 ,直线模型只能用于适温区内发育速率的模拟。恒温下的存活率和温度符合二次曲线关系。不同恒温下发育历期的分布符合“同形性质”。变温下 ,小菜蛾能够发育的温度范围比恒温下的广。在适温区 ,Logistic模型、直线模型和王 -兰 -丁模型均能较好地模拟变温下小菜蛾的羽化进度 ,但在低温区 ,Logistic模型和王 -兰 -丁模型模拟的效果优于直线模型。     

温度对黑襟毛瓢虫发育的影响

(1)Schoolfield等(1981)导出的建立在酶促反应机理上的温度与变愠动物发育速率关系的模型能很好的拟合黑襟毛瓢虫的发育速率与温度的相互关系,变温对其发育速率没有显著影响.(2)高温对黑襟毛瓢虫种群动态的主要影响是在其发育过程中的存活率而不是发育速率.(3)黑襟毛瓢虫在中温(26℃)下完成幼虫期发育所需蚜量最低.(4)不同温度下黑襟毛瓢虫的成虫寿命与产卵期均不同,但这对成虫的产卵量并无直接影响.(5)给出了实验室条件下,温度与黑襟毛瓢虫的净生殖率(R₀)、平均世代周期(T)及内禀增长率的关系.     

变温和恒温对沙葱萤叶甲发育速率的影响

沙葱萤叶甲为近年来在内蒙古草原猖獗成灾的新害虫,为明确温度对其发育速率的影响,分别设置5个变温组合(8/20℃,11/23℃,14/26℃,17/29℃和20/32℃)和6个恒温(13℃,17℃,21℃,25℃,29℃和33℃),比较了变温和恒温对沙葱萤叶甲幼虫和蛹发育速率的影响。结果表明,不同变温组合和恒温对沙葱萤叶甲幼虫和蛹的发育速率有显著的影响。发育历期随温度的升高而缩短,在变温条件下,1龄幼虫期、2龄幼虫期、3龄幼虫期、总幼虫期和蛹期分别从最低温度组合(8/20℃,平均15℃)的11.00,13.44,23.18,46.42和16.89 d,缩短至最高温度组合(20/32℃,平均27℃)的4.92,4.63,9.17,17.83和5.83 d;在恒温条件下,13℃下幼虫不能发育和存活,1龄幼虫期、2龄幼虫期、3龄幼虫期、总幼虫期和蛹期分别从17℃的14.50,10.75,20.63,45.50和11.00 d,缩短至33℃的6.10,5.47,10.60,22.17和5.33 d。在变温条件下,幼虫和蛹的发育起点温度分别为7.44℃和8.48℃,有效积温分别为344.82日度和113.52日度;在恒温条件下,幼虫和蛹的发育起点温度分别为0.64℃和5.11℃,有效积温分别为714.28日度和147.06日度。变温促进了沙葱萤叶甲幼虫和蛹的发育,本研究结果为沙葱萤叶甲的预测预报及综合防控提供了科学依据。     

昼夜温度波动对麦长管蚜生理生态表型影响及其相关性研究

昼夜温度波动变化是气候变暖的主要特征之一,昼夜变温幅度对生物的影响越来越受到科学家的关注。与恒温研究相比,变温幅度对昆虫生活史特征影响的研究还十分有限。因此,本研究模拟自然界24 h温度变化,并首次全面研究了相同平均温度(22℃)下不同变温幅度(±0℃、±6℃、±12℃)对麦长管蚜Sitobion avenae生理指标(温度耐受性、呼吸)与生态指标(发育、存活、寿命、繁殖、种群参数)的影响。结果表明,与变温幅度±0℃和±12℃相比,变温幅度±6℃显著提高了麦长管蚜整体存活、寿命、繁殖以及净增值率与世代周期。与其它处理相比,较大变温幅度±12℃显著阻碍了麦长管蚜若虫发育,抑制了整体存活,缩短了寿命,降低了繁殖量,且显著降低了种群内禀增长率、净增值率与世代周期。但是,较大变温幅度±12℃,显著提高了成蚜的耐热、耐寒性与CO₂呼吸速率。研究还发现,在不同变温幅度中,麦长管蚜成蚜耐寒性的提高是以寿命为代价的。由此可见,以往以恒温为基础的昆虫种群表型及数量动态预测模型均存在局限,昼夜变温幅度作为必要因素,应考虑纳入种群表型及数量动态预测模型中,从而提高昆虫田间发生情况预测预...     

变温对两种昆虫发育速率的影响

报道了松毛虫赤眼蜂和瓜螟在多组恒温、交替变温下的发育历期。对结果的分析表明,温度交替对这两种昆虫在任一温度下的瞬时发育率无明显影响,恒温下和变温下完成发育所需的热量无显著差异或基本相似。     

温度对扶桑绵粉蚧生长发育的影响

【目的】扶桑绵粉蚧Phenacoccus solenopsis Tinsley是近年在我国新发现的一种重要外来入侵害虫,对我国棉花生产具有潜在的巨大威胁。本研究以棉花作为寄主,探索恒温及变温条件对扶桑绵粉蚧生长发育的影响。【方法】在光周期为12L∶12D,RH 70%±5％,在系列恒温及变温（温度波动范围为±1℃）条件下,用棉花饲养扶桑绵粉蚧,观察和分析了不同温度下各龄虫态的发育历期、发育速率、存活率和繁殖力及发育起点温度、有效积温、最适发育温度、极限高温等。【结果】在恒温17~32℃范围内,扶桑绵粉蚧各虫态的发育历期随温度升高而逐渐缩短,当温度达到27℃时发育速率值增幅最大,其中在恒温22~32℃范围内,该虫具有较高的生长发育速率和存活率,且繁殖能力较强,而在恒温37℃条件下,该虫不能完成整个生活史而死亡。在循环变温条件（25~40℃）下,该虫表现出更好的适应性：发育历期更短,速率更快,存活率更高,繁殖力也达到了恒温条件下的平均水平。雌雄虫的发育起点温度分别为9.0℃和8.1℃,而达到成虫时所需有效积温分别为322.6日度和344.8日度。通过拟合发育速率与温度之间的非线性回归关系求出雌雄虫最适发育温度分别为30.5℃和29.9℃,而极限高温分别为36.6℃和35.8℃。【结论】扶桑绵粉蚧适温范围广泛,特别是在变温条件下的适应性非常强。这些结果为预测扶桑绵粉蚧在我国主要棉区的分布提供了依据。     

用非线性模型估测恒温和变温下棉铃虫蛹的发育率

为了深入分析和探讨昆虫发育与环境温度的关系, 在恒温（15~37℃）和交替变温（12/18~34/40℃）下测定了棉铃虫Helicoverpa armigera蛹的发育历期(d),分别用线性模型和非线性模型（Logan模型﹑Lactin模型和王氏模型）拟合其发育率(1/d)数据。结果表明,这3个非线性模型能更准确地描述发育率与温度之间的曲线关系,判定系数（R2）在0.9878～0.9991之间。对全部观测数据的进一步研究表明,只要有6个分布合适的观测数据,就可以用这些非线性模型获得相当满意的估测效果。如果缺乏高温下的测定数据,用非线性模型预测的昆虫发育率可能失真。分析了蛹在恒温和变温下发育率差异的可能原因,讨论了应用这3个非线性模型预测蛹期发育的优点和缺点,指出用非线性模型取代线性日·度模型进行害虫发生预测和益虫饲养管理的合理性和必要性。     

Temperature effects on the life history of the eulophid wasp Diglyphus isaea, an ectoparasitoid of leafminers (Liriomyza spp.), on tomatoes

The effect of constant and alternating temperatures on the life-history of Diglyphus isaea, as an ectoparasitoid of Liriomyza leafminers on tomato plants, was examined in the laboratory.
Parasitoid development and size were significantly affected by temperature and sex. Males showed a shorter development time and pupal size than female parasitoids. Both development time and pupil size in D. isaea differed according to the host species. Pupal size showed no consistent relationship with temperature. The lower thermal threshold for development and oviposition was determined. Fecundity with L. byroniae as host did not differ significantly between temperature regimes. Furthermore, larger females did not produce larger numbers of offspring. Development and reproduction under the alternating temperature regime did not differ from those at the comparable constant temperature, suggesting a rapid response to changes in temperature.
The intrinsic rate of increase (r_m) and net reproduction (R_o) of D. isaea nearly doubled from 15°C to 25°C and 20°C, respectively, and generation time at 25°C was less than half that at 15°C. Because the parasitoid's population growth is higher than that of these pest insects at all temperatures, D. isaea is a promising candidate for seasonal inoculative biological control of Liriomyza on tomato crops in Scandinavian and western European glasshouses. Possible constraints to its effectiveness are discussed.     

不同变温组合条件下二点委夜蛾的生长发育

【目的】为明确变温条件对二点委夜蛾Athetis lepigone (Möschler) 实验种群生长发育的影响。【方法】分别设置6个变温组合（20/24℃, 20/28℃, 20/32℃, 24/28℃, 24/32℃和28/32℃）,通过测定和计算各虫态发育起点温度和有效积温及生命表参数来研究变温对二点委夜蛾卵、幼虫、蛹、世代平均发育历期、存活率和繁殖力的影响。【结果】不同变温组合对二点委夜蛾各虫态的发育历期、存活率及种群繁殖力有显著影响。发育历期随着变温组合平均温度的升高而缩短,二点委夜蛾世代存活率由大到小的顺序为24/28℃>20/32℃>28/32℃>20/28℃>24/32℃>20/24℃。24/28℃时产卵量最高,单雌产卵量为390.70粒。世代发育起点温度和有效积温分别为10.37℃和663.17日·度。在不同变温组合下内禀增长率r_m值随着平均温度的升高先上升后降低。在24/28℃时,二点委夜蛾r_m、净增殖率R₀和周限增长率λ最大,种群加倍时间 t 和世代平均周期 T 最小。【结论】24/28℃是二点委夜蛾实验种群生长发育及繁殖的最适变温组合,本研究结果为二点委夜蛾的预测预报及综合防治提供了科学依据。     

Modelling development time of Lipaphis erysimi (Hemiptera: Aphididae) at constant and variable temperatures

The development period from birth to adult of virginoparae of the turnip aphid, Lipaphis erysimi (Kaltenbach), at 14 constant, 15 alternating and 15 natural temperature regimes were modelled to determine mathematical functions for simulating aphid development under a wide range of natural conditions. The day-degree model, the logistic equation, and the Wang model were used to describe the relationships between temperature and development rate at constant and alternating temperatures. The three models were then used with a Weibull function describing the distribution of development times, to simulate the development of individuals of cohorts at natural temperature regimes. Comparison of the observed with simulated distributions of adult emergence indicates that all three models can simulate the development of L. erysimi equally well when temperature does not go below 6 degrees C (the notional low temperature threshold of the day-degree model) or above 30 degrees C. When accumulation of temperatures below 6 degrees C becomes substantial, only the logistic curve offers accurate simulations; the other two models give falsely longer durations of development. When accumulation of temperatures above 30 degrees C becomes substantial, the logistic curve and the Wang model offer more accurate simulations than the day-degree model, which tends to produce shorter durations of development. Further analysis of the data reveals that development rate of this aphid at a given unfavourable high temperature may vary with time. Methods for accurately simulating the development time of L. erysimi in the field are suggested. The significance of modelling insect development at low and high temperatures by non-linear models is discussed.     

Effects of temperature on the development,growth, and survival of larvae and pupae of a north-temperate chrysomelid beetle

Summary Developoment, growth, and survival of larvae and pupae of the red turnip beetle, Entomoscelis americana Brown, were studied in 10 constant and four alternating temperature regimes (10 to 32.5° C), in field-cages, and in natural populations in Manitoba. This beetle has a northtemperate distribution in North America. Larval and pupal development occurs in spring and normally is completed before the end of June. Growth and development occurred at all constant temperatures tested, but survival was low at the extreme temperatures. Therefore, the threshold and upper limit were near 10 and 32.5° C. The developmental times of the sexes did not differ and decreased with temperature, except possibly at 32.5° C. The average weight of adult females increased with temperature up to 32.5° C and those of males up to 25° C. Considering developmental rate, survival, adult weight, and incidence of malformed adults, the optimum temperature was estimated to be near 27.5° C.Development was accelerated significantly (6 to 9%) in alternating regimes with temperatures differing by 10° C, but not in regimes differing by 5 and 15° C. All alternating regimes increased adult weight, 5 to 17% for females and 2 to 10% for males. Field cage studies confirmed the increase in adult weight, but not the acceleration in development.A three-parameter normal function described accurately the relationship between developmental rate and constant temperature. A computer simulation model based on this equation estimated developmental times in field cages to within one to five days. For natural populations the model overestimated the developmental times by five to 16 days. The discrepancies between model estimates and observed developmental times in natural populations apparently were due to the elevation of larval and pupal body temperatures above air temperatures by behavioral thermoregulation. The elevation of body temperature was estimated to be equivalent to the addition of 5 to 6° C to the maximum daily air temperature. The adaptations and responses of this beetle to the cool spring temperatures of the north-temperate region are discussed.Contribution No. 1164, Agriculture Canada, Research Station, Winnipeg, Manitoba, Canada     

Interactive effects of rutin and constant versus alternating temperatures on performance ofManduca sexta caterpillars

The effects of different concentrations of rutin and constant temperature (20 °C) versus alternating temperatures (23∶15 °C) on growth, molting and food utilization efficiencies of third instar tobacco hornworms (Manduca sexta) were determined. Relative consumption rate (RCR) and relative growth rate (RGR) were significantly higher for larvae at the alternating thermal regime compared to those at the constant (representing the average) temperature. With increasing concentrations of rutin, the negative effect of rutin on RCR and RGR increased for the larvae in the alternating thermal regime; however, at the constant temperature, rutin had little effect. The alternating thermal regime promoted synchrony in the timing of spiracle apolysis (the earliest morphological marker of molt). Rutin disrupted that synchrony. I discuss how patterns of host plant resistance may be altered with a decrease, in amplitude of diurnal temperatures (as has been documented recently for temperate regions) through the uncoupling of herbivore performance and allelochemical concentration. I conclude that simultaneous consideration of fluctuating temperatures and allelochemicals is advisable when assessing the effects of temperature and allelochemicals on performance of insect herbivores because interactive effects between temperature and dietary components occur and perhaps are common.     

Development, survivorship, and reproduction of Helicoverpa armigera (Lepidoptera: Noctuidae) under constant and alternating temperatures

Laboratory studies were conducted to assess the effect of temperature on the survival, development, fecundity, and longevity of Helicoverpa armigera (Hübner) at 11 constant temperatures ranging from 12.5 to 40 degrees C, as well as at five alternating temperature regimes (25-10, 30-15, 32.5-17.5, 35-20, and 35-27.5 degrees C) and under a photoperiod of 16:8 (L:D) h. H. armigera reared at constant temperatures did not develop from egg to adult (emergence) outside the temperature range of 17.5-32.5 degrees C. The alternating conditions expanded this range from 10 to 35 degrees C. The lowest developmental thresholds of the immature stages were estimated by a linear model and ranged from 10.17 (pupal stage) to 11.95 degrees C (egg stage) at constant temperature regimes and from 1.1 to 5.5 degrees C, respectively at alternating temperatures. The values of developmental thresholds estimated using the nonlinear (Lactin-2) model were lower than those estimated by the linear model for constant and alternating temperature regimes except for larval and pupal stages at constant temperatures. Mean adult longevity fluctuated from 34.4 d at 15 degrees C to 7.6 d at 35 degrees C. Females reared under all alternating temperature regimes laid more eggs than females reared at any, except the 25 degrees C, constant temperature treatment. The intrinsic rate of increase was highest at 27.5 degrees C, at both the constant and the corresponding alternating temperature regimes (0.147 and 0.139, respectively). Extreme temperatures had a negative effect on life table parameters.     

Teratological deformities of pedipalps in the Tegenaria atrica spider,induced by low and high temperatures applied alternately

The study was aimed at demonstrating the relationship between temperature (as a factor which disturbs morphogenesis) and deformities in the front part of the prosoma in Tegenaria atrica. By exposing spider embryos to alternating temperatures of 14 and 32 °C for the first 10 days of embryonic development, i.e. until the first metameres of the prosoma appeared on the germ band, we obtained individuals with a range of anomalies including those which affected the prosomal morphology. We selected five spiders with deformities of pedipalps or of pedipalps and walking legs for comprehensive analysis. The results indicate a relationship between temperature applied as a teratogenic factor and anomalies in the front part of the prosoma.     

The nature of the dependence of the rate of development on temperature determines the greatest efficiency of metabolism at optimal temperatures

Metabolism intensity and development rate have different pattern of dependence on temperature. Oxygen intake and several other metabolic processes bear an exponential relationship to temperature. The pattern of this relationship is similar in different poikilothermal species. On the contrary, the relationship between the rate of development and temperature is species-specific and more complex. Hence, the curves obtained by plotting oxygen intake per developmental stage against temperature resemble parabola and the minimum values of oxygen intake correspond to optimal temperatures. Such a correspondence is almost solely determined by parameters of the relationship between the rate of development and temperature. Therefore, the efficiency of metabolism does not determine the range of optimal temperatures. It is suggested that adaptive alterations of this range during evolution proceed via changes of the parameters of relationship between the rate of development and temperature dependence. Relatively small number of mutations is required to produce such changes.