草地贪夜蛾在不同温度条件下的生长发育特性

为掌握草地贪夜蛾的主要生物学特性,本文在5个恒温条件下:20℃、25℃、28℃、32℃和35℃,采用玉米苗作为饲料,测定了不同虫态的发育历期、繁殖力、发育起点温度和有效积温。结果表明:在20~35℃温度条件下,草地贪夜蛾的发育历期随着温度的升高逐渐下降,完成一个世代发育历期在23.0~48.3 d;其中,卵、幼虫、蛹、成虫和世代发育起点温度分别为:12.70℃、11.11℃、11.01℃、5.65℃和9.21℃,有效积温分别为:39.40日·度、201.25日·度、134.12日·度、171.06日·度和636.53日·度;20~32℃是卵、幼虫、蛹和成虫产卵的适宜温度,15℃、35℃恒温条件下不适宜草地贪夜蛾的生长发育。根据本试验测定的发育起点温度与有效积温,推测草地贪夜蛾在滇中、滇西、滇南、滇东南、滇西南、滇东北、滇西北年发生世代分别为2.18~8.59代、2.28~10.15代、3.43~12.13代、3.15~8.46代、2.75~9.39代、1.38~6.87代、1.11~6.72代。     

三叶斑潜蝇发育起点温度和有效积温的研究

不同恒温条件下测定了三叶斑潜蝇Liriomyza trifolii (Burgess)各虫态的发育历期,并用直线回归法计算出各虫态的发育起点温度和有效积温.结果表明,三叶斑潜蝇的历期、发育速率与温度间相关性明显,其卵、幼虫、蛹及全世代发育起点温度分别为9.20℃、10.80℃、6.43℃、8.40℃,有效积温分别为68...     

变温条件下禾谷缢管蚜发育起点温度和有效积温研究

在室内自然变温条件下测定了禾谷缢管蚜的生长发育速率。对试验结果采用2种计算方法,结果表明,直接最优化法稍优于直线回归法,由前者得出的发育起点温度为：无翅蚜全若蚜期5．50℃、有翅蚜全若蚜期5.36℃和全世代5．26℃;有效积温分别为105．69、132．28和125．40日度。根据发育起点温度和有效积温,预测了199年平凉、甘谷和兰州的理论发生代数;用有效积温公式预测了各发育阶段的历期;各发育阶段的最适温度由多项式回归法求得。     

温度对菜豆象发育和繁殖的影响

【目的】本研究旨在探讨不同温度下菜豆象Acanthoscelides obtectus(Say)种群生长发育和繁殖的状况。【方法】在20,23,26,29和32℃下,测定了菜豆象各虫态的发育历期,用线性回归、Logistic模型以及"王-兰-丁"模型对温度与菜豆象各虫态之间的关系进行拟合;采用最小二乘法计算出各虫态的发育起点温度和有效积温,并组建了菜豆象在不同温度下的实验种群生殖力生命表。【结果】菜豆象各虫态的发育历期随着温度的升高而缩短,而发育速率与温度之间呈正相关,Logistic和"王-兰-丁"模型比一般线性模型更能拟合菜豆象发育速率与温度之间的关系。菜豆象全世代的发育起点温度和有效积温分别为6.44℃和858.22 d·℃;菜豆象产卵量、孵化率和存活率在26℃下最高,分别为52.71粒、82.67%和75.67%;在32℃下最低,分别为33.20粒、69.33%和41.67%。在20,23,26,29和32℃下内禀增长率rm值分别为0.05,0.07,0.08,0.09和0.08;净增殖率R0值分别为25.54,33.80,39.87,34.52和13.86。【结论】温度对菜豆象种群发育和繁殖具有显著影响,表明20~29℃是菜豆象生长发育和繁殖的最适温度范围。     

粘虫在不同温度下的生命表及其发育的热量需要

用人工饲料在不同温度下饲养的粘虫Mythimna separata(Walkcr),组建了种群生命表.未成熟期的存活率在24℃下最高(90％),28℃次之,32℃下最低(27.1％)o在20—28℃,成虫的繁殖力都比较强,24℃时产卵最多,32℃时产卵量急剧下降.根据试验结果估测,粘虫卵孵化、幼虫存活和成虫繁殖的最适温度分别为25.6℃、23.2℃和22.5℃.种群增长指数可用下述方程表示:y=-2530.2850+282.1893X-6.2407X²在最适温度(22.6℃),繁殖一代,种群数量约增加660倍.粘虫的发育起点温度以卵期最低(8.4℃),蛹期最高(10.1℃),完成世代发育需要7.8℃以上的有效积温约925日度.     

恒温下大戟长管蚜的发育起点温度和有效积温

在16,19,22,25,28和31℃恒温条件下以花卉一串红(Salvia splendens)饲养大戟长管蚜Macrosiphum euphorbiae(Thomas),测得该蚜虫的各龄历期和产仔前期,得出全若虫期的历期。依据有效积温法则计算的1～4龄若蚜和全若虫期的发育起点分别是12.5,7.8,10.3,4.1和9.3℃,有效积温分别是14.6,43.9,29.9,31.9和117.2日.度。大戟长管蚜适合生长发育的温度是19～28℃,最适合温度为25℃。     

自然变温条件下番石榴实蝇发育历期、起点温度和有效积温

在室内自然变温条件下研究了番石榴实蝇Bactrocera correcta(Bezzi)发育历期、发育起点温度和有效积温。结果表明,除雌虫产卵前期表现出26℃最短、随着温度升高或者降低均延长的规律外,卵、幼虫和蛹发育历期随着温度升高总体呈现变短的趋势。该虫卵、幼虫、蛹、雌虫产卵前期的发育起点温度和有效积温分别为15.25、9.24、10.35、20.14℃和21.24、91.06、180.85、135.66日·度,建立了各虫态发育速率与温度关系模型。     

不同温度条件下食蟹猴疟原虫在蚊体发育的实验室观察

为了解疟原虫在低于其最佳发育温度的变温状况下的发育情况,进行了本实验。方法自四川达县地区购回健康恒河猴,体重3.8kg,实验前血检未查见疟原虫。4月3日静脉接种食蟹猴疟原虫(Plasmodium cynomolgi)B株后第9天开始以实验室饲育的斯氏按蚊叮咬供血猴。自感染后第5天开始抽查蚊胃卵囊,15天起解剖唾腺,观察子孢子。室温控制及分组:恒温对照组置于25±3℃的恒温室。变温l组设在底楼,4月中、下旬和5月上旬平均最低自然室温分别为16.0±1.7、17.3±1.8和18.0±1.2℃;最高自然室温分别为17.0±1.5、20.2±2.1和20.7±1.0℃。变温2组设在顶层(四…     

腐食酪螨在不同温度和营养条件下生长发育的比较研究

在12.5℃、15℃、20℃、25℃和30℃恒温下,用啤酒酵母粉和玉米粉为饲料,测定了不同温度和饲料条件下腐食酪螨Tyrophagus putrescentiae各个发育阶段和世代的发育历期,获得其在各条件下的发育起点温度和有效积温。结果表明,在本文的实验温度范围内,该螨的发育历期与温度呈负相关,即随着温度的升高发育历期缩短。在各发育阶段不同饲料条件下发育起点温度和有效积温都有所差异。用啤酒酵母粉作饲料时,腐食酪螨的全世代历期为48.04天（12.5℃下）和8.41天（30℃下）,发育起点温度为10.18℃,有效积温为155.44 d·℃; 用玉米粉作饲料时,全世代历期为78.79天（12.5℃下）和10.77天（30℃下）,发育起点温度为10.52℃,有效积温为208.33 d·℃。以成螨体长和体宽为指标,比较了在各温度条件及不同饲料条件对其生长的影响,结果表明不同饲料对螨体大小有显著影响,温度的影响不明显。     

温度对双纹须歧角螟生长发育和繁殖的影响

在室内研究了温度对双纹须歧角螟Trichophysetis cretacea (Butler)生长发育及繁殖的影响。结果表明,在19～31℃范围内,双纹歧角螟的发育速率随着温度的升高而加快;当温度超过31℃时,发育速率减慢。在各虫态中,蛹期的存活受温度变化的影响最大,35℃时蛹全部死亡。19℃、23℃、27℃、31℃和35℃下的世代存活率分别为87.1%、83.0%、85.2%、70.1%和0%。卵、幼虫、预蛹、蛹及从卵至成虫的发育起点温度分别为9.08℃、8.95℃、7.80℃、9.09℃和8.86℃,有效积温分别为62.4、122.0、16.0、108.1和309.1日·度。成虫的寿命随温度的升高而缩短,27℃时成虫的产卵量最高,平均为91.3粒。19℃、23℃、27℃和31℃条件下,实验种群的净生殖率分别为31.0、41.8、46.7、0.8,内禀增长率分别为0.0813、0.1439、0.1710、-0.0094,平均世代周期分别为42.2、26.3、23.1和19.2天。     

TEMPERATURE REQUIREMENTS FOR THE DEVELOPMENT AND SURVIVAL OF RICE STEMBORERS IN LABORATORY CONDITIONS

Abstract  The effect of seven constant temperatures from 10 to 40°C (10, 15, 20, 25 30, 35 and 40°C) on the development of eggs, larvae and pupae of rice stemborers viz., Chilo polychrysa (Meyrick), C. suppressalis (Walker), C. partellus (Swinhoe), Scirpophaga incertulas (Walker), S. innotata (Walker) and Sesamia inferens (Walker) were studied. The mean developmental period among constant temperatures (in days) of egg, larva and pupa of six borers differed significantly ( P < 0.0001). The mean percent of development per day of egg, larva and pupa of all borers gradually increased with the increase of constant temperatures. The total developmental period was inversely decreased with the increase of constant temperatures. The lower threshold temperature was found between 10–15°Cand higher threshold temperature between 35–40°C, where no development took place. The mean developmental zero was 8.57±1.71, 7.70±1.01, 8.56±3.25, 10.19±2.19, 8.64±2.68 and 7.91±0.82 for egg, larva and pupa of above-mentioned borers respectively. The total thermal constant of egg, larva and pupa was 705.56, 725.32, 703.30, 556.59, 655.34 and 837.95 degree- days for C. polychrysa, C. suppressalis, C. partellus, S. incertulas, S. innotata and S. inferens respectively. The degree- days required for oviposition of female moths of the six borers was calculated as 99.06, 90.85, 99.29, 75.16, 92.25 and 80.41 respectively. The total degree- days required completing a generation was 804.62, 816.17, 802.59, 631.75, 648.84 and 918.36 respectively.     

TEMPERATURE REQUIREMENTS FOR GROWTH AND SURVIVAL OF ANTARCTIC RHODOPHYTA1

The temperature requirement for growth and the upper survival temperatures (USTs) of 15 Antarctic red algal species collected on King George Island (South Shetland Islands) and Signy Island (South Orkney Islands) were determined. Two groups with different temperature requirements were identified. 1) A “eurythermal” group includes Rhodymenia subantarctica, Phyllophora ahnfeltioides, Gymnogongrus antarcticus, and Rhodochorton purpureum, growing between 0° and 10°C with optimum values at (0°) 5°(l0°)C. The USTs of these species and of Porphyra endiviifolium, Delesseria lancifolia, and Bangia atropurpurea were between 22° and 16°C. These species survived temperatures in a similar range as most endemic Arctic or Arctic/cold-temperate species but exhibited a lower temperature demand for growth, suggesting an earlier contact with low temperatures than Arctic species. 2) A stenothermal group includes Pantoneura plocamioides, Myriogramme mangini, Ballia callitricha, Phyllophora antarctica, Gigartina skottsbergii, Georgiella confluens, and Plocamium cartilagineum growing at 0° or ≤5°C with optimum values at 0° or 5°C. The USTs of these species and of Phycodrys austrogeorgica were between 14° and 7°C. The species of this group must have had an even earlier contact with the Antarctic cold-water environment than species of the “eurythermal” group. Gigartina skottsbergii, Georgiella confluens, Plocamium cartilagineum, and Pantoneura plocamioides were probably exposed longer to low temperatures than the other species of this group or Antarctic green and brown algae because they show the lowest temperature requirements so far determined in seaweeds. The results are discussed in the context of present local temperature regimes at the localities where the isolates were collected. Moreover, an attempt was made to explain the geographic distribution of individual species by the temperature requirements determined in this study. Only a few of the distribution limits are determined by temperature growth and/or survival characteristics. In many species (Rhodymenia subantarctica, Ballia callitricha, Gigartina skottsbergii, Bangia atropurpurea, Rhodochorton purpureum, and Plocamium cartilagineum), the development of temperature ecotypes is evident.     

温度对中国对虾（Penaeus orientalis）越冬亲虾性腺发育与存活率的影响

本文根据１１ａ来中国对虾越冬亲虾生产性培育试验资料的统计分析结果得出：亲虾性腺发育的起点温度为７．９±０．３℃,性腺发育成熟的有效积温为２５０．４±３３．６日度,预测性腺发育成熟所需日期公式为。升高或降低越冬期间的基础水温可控制亲虾产卵时间迟早。产卵期间间歇升降温或连续升温,可控制亲虾集中产卵的次数和亲虾产卵持续时间。亲虾越冬期间,有利于提高亲虾存活率的水温,宜控制在８．０－１３．０℃,不宜超过１３．５℃,升降温幅度不宜超过１．５℃,以１．０℃左右为好。亲虾产卵期间,有利于亲虾存活率、产后卵子孵化率和亲虾再次产卵率的适宜水温为１２．０－１５．０℃,不宜超过１６．０℃,升降温幅度不宜超过１．０℃,以１．０℃以下为好。     

EXPERIMENTAL EVOLUTION OF ACCELERATED DEVELOPMENT IN DROSOPHILA. 1. DEVELOPMENTAL SPEED AND LARVAL SURVIVAL

Developmental time is a trait of great relevance to fitness in all organisms. In holometabolous species that occupy ephemeral habitat, like Drosophila melanogaster, the impact of developmental time upon fitness is further exaggerated. We explored the trade-offs surrounding developmental time by selecting 10 independent populations from two distantly related selection treatments (CB_1-5 and CO_1-5) for faster development. After 125 generations, the resulting accelerated populations (ACB_1-5 and ACO_1-5) displayed net selection responses for development time of -33.4 hours (or 15%) for ACB and -38.6 hours (or 17%) for ACO. Since most of the change in egg-to-adult developmental time was accounted for by changes in larval duration, the “accelerated” larvae were estimated to develop 25-30% faster than their control/ancestor populations. The responses of ACB and ACO lines were remarkably parallel, despite being founded from populations evolved independently for more than 300 generations. On average, these “A” populations developed from egg to adult in less than eight days and produced fertile eggs less than 24 hours after emerging. Accelerated populations showed no change in larval feeding rate, but a reduction in pupation height, the latter being a trait relating to larval energetic expenditure in wandering prior to pupation. This experiment demonstrates the existence of a negative evolutionary correlation between preadult developmental time and viability, as accelerated populations experienced a severe cost in preadult survivorship. In the final assay generation, viability of accelerated treatments had declined by more than 10%, on average. A diallel cross demonstrated that the loss of viability in the ACO lines was not due to inbreeding depression. These results suggest the existence of a rapid development syndrome, in which the fitness benefits of fast development are balanced by fitness costs resulting from reduced preadult survivorship, marginal larval storage of metabolites, and reduced adult size.     

温度和食物对黑肩绿盲蝽发育、存活和繁殖的影响

黑肩绿盲蝽Cyrforhinus livisipennis(Reuter)取食白背飞虱卵时,其未成熟期的发育速率与温度呈逻辑斯蒂曲线,世代发育起点和有效积温分别为9‘83℃,359.05日度。在21-29℃时,世代存活率y₁,种群内禀增长力Y₂：和成虫产卵量y₃：粒/雌)较高,高低温区均呈下降趋势,各参数与温度X的关系方程分别为 Y₁=cxp(-3.0031+0.5223X-0.0105X²), Y₂=-0.5971+0.0535X-0.0010X²,Y₃=exp(-12.0791十1.3869X-0.0278X² 理论上26℃时周限增长率又最大,达1.1044倍/天。以褐飞虱卵、白背飞虱卵、褐飞虱低龄若虫和白背飞虱低龄若虫四种食物作为猎物下,黑肩绿盲蝽成虫的产卵量分别为247.63±94.73、237.25±118.62、196.83±69.08、128.14±81.29粒/雌,其卵孵化率分别为59.83、58.26、44.35、46.96%。结果表明,褐飞虱卵是黑肩绿盲蝽发育、存活和繁殖的适宜食物。     

再生稻二化螟幼虫空间分布型和抽样技术的研究

再生稻二化螟幼虫的空间布型为负二项分布和聚集分布,其lwao的线性回归方程为m^*=0.0099 2.4753m,属负二项分布。根据聚集均数（λ）测定结果,分析了聚集原因,在分布型研究的基础上,探讨了资料代换模式,Kuno‘s种群序贯抽样模型和最适抽样数模型。     

THE EVOLUTION OF DEVELOPMENT IN DROSOPHILA MELANOGASTER SELECTED FOR POSTPONED SENESCENCE

The role of development in the evolution of postponed senescence is poorly understood despite the existence of a major gerontological theory connecting developmental rate to aging. We investigate the role of developmental rate in the laboratory evolution of aging using 24 distinct populations of Drosophila melanogaster. We have found a significant difference between the larval developmental rates of our Drosophila stocks selected for early (B) and late-life (O) fertility. This larval developmental time difference of approximately 12% (O > B) has been stable for at least 5 yr, occurs under a wide variety of rearing conditions, responds to reverse selection, and is shown for two other O-like selection treatments. Emerging adults from lines with different larval developmental rates show no significant differences in weight at emergence, thorax length, or starvation resistance. Long-developing lines (O, CO, and CB) have greater survivorship from egg to pupa and from pupa to adult, with and without strong larval competition. Crosses between slower developing populations, and a variety of other lines of evidence, indicate that neither mutation accumulation nor inbreeding depression are responsible for the extended development of our late-reproduced selection treatments. These results stand in striking contrast to other recent studies. We argue that inbreeding depression and inadvertent direct selection in other laboratories' culture regimes explain their results. We demonstrate antagonistic pleiotropy between developmental rate and preadult viability. The absence of any correlation between longevity and developmental time in our stocks refutes the developmental theory of aging.     

温度和食物对稻虱缨小蜂发育、存活和繁殖的影响

在白背飞虱(Sogatella furcifera(Hovàrth))卵内,稻虱缨小蜂(Anagrus nilparvatae Pang et Wang)的发育起点温度为10.6℃,有效积温为162.3日度,随着温度上升,发育加快;寿命(y_1,D_(10.4)~0C)、产卵量(y_2,粒/♀)、产出卵率则在适宜温度范围(23—26℃)内最大,高低温区内均呈下降趋势,其方程分别为:y_1=exp(-0.04187+0.3612x-7.4654×10~(-3)x~2),y_2=exp(-1.9539+0.4563x-0.01001x~2),式中x为温度。温度对未产出卵量影响不显著;对子代雌性比的影响也不显著,其平均值为0.7631。温度主要通过对产卵量和产卵速率来影响繁殖力,理论上27.3℃时周限增长率λ最大,达1.2374倍/天。成虫期供蜜加水时的产卵量、产出卵率和寿命显著比仅供水时的高或长。此研究为预测害虫种群发展,充分利用天敌资源,达到综合管理害虫提供了科学依据。     

温湿度对苜蓿盲蝽实验种群的影响

在４种温度、２种相对湿度的不同组合条件下,研究了温湿度对苜蓿盲蝽发育、存活和繁殖的影响。组建了生命表,并对各生命参数进行了比较。在３０℃、８０％ＲＨ条件下,种群的内禀增长率最大（ｒ＿ｍ＝０．０６７１８）,相应的增殖率极限λ＝１．０６９５／ｄ,平均世代周期Ｔ＝３２．０３１３ｄ,净生殖率Ｒ＿０＝８．６０１１。在试验的温度范围内,温度与内禀增长率之间呈抛物线趋势。