几种不同因子对哥伦比亚食道口线虫离体发育的影响

本文研究了二氧化碳、温度、犊血清和鸡胚提取物等对哥伦比亚食道口线虫(O.columbianum)感染性幼虫(L_3)发育至第四期幼虫(L_4)的影响;对培养前后虫体的形态学(着重在头部、口、排泄系统、肠和尾部)变化进行了详细的观察和描述。     

油松毛虫的光周期反应:温度和营养对临界光周的影响

油松毛虫Dendrolimus tabulaeformis Tsai et Liu的临界光周值,在适温区内随温度的下降而增加.不同季节和不同生长阶段的油松针叶,即营养质量不同的针叶,对油松毛虫幼虫的生长、发育和存活影响明显,从而影响着油松毛虫的光周期反应.这些结果,为油松毛虫的世代发生及种群动态的预测提供了一定的依据.     

变温促进昆虫发育的酶学解释

本文关于如何评价变温对昆虫发育速率影响的讨论表明,在比较两点(T_1,T_2)变温与恒温下的发育速率时,相应恒温下的发育速率为R_(con)(T_1,T_2)=(R_(con)(T_1) R_(con)(T_2))/2,而不是T_1、T_2平均值所对应的发育速率R_(con)(T_1,T_2)=R_(con)(T_1 T_2/2)。 在探讨发育速率与温度关系时,认为,(1)发育速率实际上是代谢速率的表现,从本质上说是由昆虫体内无数生化反应所决定的。每步生化反应所需酶不同。(2)不同酶,其活力与温度的关系不同。即使同种昆虫,体内不同种类酶的最大活力温度不同。因此,在不同温度下,代谢链中起限速作用的酶不同。发育速率与温度的关系实质上是代谢链中所有酶与温度关系的综合表现。     

THE EFFECT OF LOW TEMPERATURE ON THE DEVELOPMENT OF THE LAMELLAR SYSTEM IN CHLOROPLASTS

The influence of low temperature (3°C.) on development of submicroscopic structure in plastids of Zea m. leaves was studied. Leaves from 8-day old etiolated plants, with plastids showing the prolamellar body and few lamellae, were floated for 1 day on tap water both in the dark and in the light, at 26°C and at 3°C. The structures remain unchanged in the dark, independent of temperature. Whereas in the light at 26°C., normal development of parallel compound lamellae and formation of grana occurs, in light at 3°C. ring structures are formed. Under the latter conditions protochlorophyll is converted to chlorophyll, although the in situ absorption maximum is different from the one for chlorophyll in plants grown in light at 26°C. When leaves were transferred from light at 3°C. to light at 26°C., ring structures in the plastids disappeared and normal development occurred. The possibility is discussed that development of parallel-arranged compound lamellae is due both to photochemical and synthetic processes, involving not only accumulation of chlorophyll, but also synthesis of other compounds.     

几种鱼类线粒体ATP酶活性的比较研究

本文比较了草鱼(Ctenopharyngodon idellus)瓦氏雅罗鱼(Leucisous waleckii)和鲮鱼(Cirrhinus molitorella)在常、低温驯养时,肝细胞线粒体ATP酶活性;并采用吐温80处理线粒体,观察其对线粒体ATP酶活化能Arrhenius图折点温度的影响,讨论了线粒体ATP酶活性与鱼类低温适应能力的相关性。认为鱼类线粒体ATP酶活化能折点温度在常、低温驯养时的差异程度和鱼的抗寒性能有关;低温驯养时,线粒体ATP酶活化能折点温度的高低和鱼的低温耐受能力有关。     

黄腹角雉静止代谢率的研究

采用Ｋａｌａｂａｋｈｏｖ－Ｓｋｏｒｔｓｏｖ呼吸计,在不同环境温度下,测定了黄腹角雉雏鸟发育过程中的静止代谢率以及成鸟在不同季节的静止代射率。结果表明,黄腹角雉雏鸟在初始日龄时,体温随环境温度而变化,其化学性体温调节能力基本建成的日龄为９日龄。成体黄腹角雉在春,夏,秋季静止代谢率与温度间均有显著的相关性。三季的化学体温调节强度无显著差异。各季间的代谢水平也无显著差异。     

THE TEMPERATURE COEFFICIENT OF PHAGOCYTOSIS

1. The experiments of Madsen and Watabiki on the effect of temperature on the phagocytosis of bacteria are discussed and a new analysis of their curves is given, showing that the rate of phagocytosis is very nearly a logarithmic function of the temperature from 0° to 35°C.; i.e., Q ₁₀ is constant over that range and is equal to 2.0. 2. New experiments are reported on the effect of temperature on the phagocytosis of quartz and carbon particles of uniform sizes, showing a marked increase in the temperature coefficient below 30°C.     

DYNAMICS OF NERVE CELLS : I. THE TEMPERATURE COEFFICIENT OF THE NEUROGENIC RHYTHM OF THE HEART OF LIMULUS POLYPHEMUS.

In the case of the heart of Limulus polyphemus the same magnitude and variation of the temperature coefficient (Q ₁₀) is obtained from the whole heart as from the ganglion alone. From the magnitude of the temperature coefficients and their variation with changes of temperature we may conclude that the rate of the heart beat is determined by alteration of chemical processes in the ganglion cells.     

温度对稻飞虱卵寄生蜂—缨小蜂实验种群的影响

本根据稻飞虱卵寄生蜂——缨小蜂(稻虱缨小蜂．长管稻虱缨小蜂,担稻虱缨小蜂)实验种群的室内饲养资料,分析了温度对3种缨小蜂实验种群的影响．中测定了缨小蜂实验种群的发育起点温度和有效积温;组建了缨小蜂实验种群发育速度模型：分析了温度对缨小蜂成虫寿命．寄生量和产卵天数的作用．     

温湿度对神泽氏叶螨发育历期和产卵量的影响

将神泽氏叶螨Tetranychus kanzawai Kishida分别置于15℃,RH80%;20℃,RH75%;25℃,RH70%;30℃,RH65%;35℃,RH60%的恒温恒湿箱内单个饲养,观察其个体发育、孵化率、存活率和产卵量,结果为：35℃,RH60%条件下,雌、雄一代发育历期最短,为(6.23±0.44)山成螨最高日产卵量13.95±3.72)粒;平均日产卵量7.18±1.56)粒; 从成螨开始产卵至死亡50%产卵期最短,为(9.65±1.53)山卵孵化率72.4%;幼螨存活率84.6%。15℃,RH80%条件下,雌、雄一代发育历期最长,为(27.49±2.23)山成螨最高日产卵量(5±1.21)粒;平均日产卵量(2.04±0.55)粒;从成螨开始产卵至死亡50%产卵期最长,为(28.4±4.06)d：卵孵化率85.6%;幼螨存活率97.0%。15℃,RH80%处理成螨寿命为(35±8.85)d,比20℃,75%处理成螨寿命长(13.9±6.4)d。试验结果表明,不同的温湿度对神泽氏叶螨生长发育有一定的影响,35℃发育速率最快,15℃发育速率最慢,20～30℃为最适发育温度。     

THE EFFECT OF TEMPERATURE UPON FACET NUMBER IN THE BAR-EYED MUTANT OF DROSOPHILA : PART III.

Three strains of the bar-eyed mutant of Drosophila melanogaster Meig have been reared at constant temperatures over a range of 15–31°C. The mean facet number in the bar-eyed mutant varies inversely with the temperature at which the larvæ develop. The temperature coefficient (Q₁₀) is of the same order as that for chemical reactions. The facet-temperature relations may be plotted as an exponential curve for temperatures from 15–31°. The rate of development of the immature stages gives a straight line temperature curve between 15 and 29°. Beyond 29° the rate decreases again with a further rise in temperature. The facet curve may be readily superimposed on the development curve between 15 and 27°. The straight line feature of the development curve is probably due to the flattening out of an exponential curve by secondary factors. Since both the straight line and the exponential curve appear simultaneously in the same living material, it is impractical to locate the secondary factors in enzyme destruction, differences in viscosity, or in the physical state of colloids. Differential temperature coefficients for the various separate processes involved in development furnish the best basis for an explanation of the straight line feature of the curve representing the effect of temperature on the rate of physiological processes. Facet number in the full-eyed wild stock is not affected by temperature to a marked degree. The mean facet number for fifteen full-eyed females raised at 27° is 859.06. The mean facet number for the Low Selected Bar females at 27° is 55.13; for the Ultra-bar females at 27° it is 21.27. A consistent sexual difference appears in all the bar stocks, the females having fewer facets. This relation may be expressed by the sex coefficient, the average value of which is 0.791. The average observed difference in mean facet number for a difference of 1°C. in the environment in which the flies developed is 3.09 for the Ultra-bar stock and 14.01 for the Low Selected stock. The average proportional differences in the mean for a difference of 1°C. are 9.22 per cent for Ultra-bar, and 14.51 for Low Selected. The differences in the number of facets per °C. are greatest at the low and least at the high temperatures. The difference in the number of facets per °C. varies with the mean. The proportional differences in the mean per °C. are greatest at the lower (15–17.5°) and higher (29–31°) temperatures and least at the intermediate temperatures. Temperature is a factor in determining facet number only during a relatively short period in larval development. This effective period, at 27°, comes between the end of the 3rd and the end of the 4th day. At 15°, this period is initiated at the end of 8 days following a 1st day at 27°. At 27° this period is approximately 18 hours long. At 15° it is approximately 72 hours long. The number of facets and the length of the immature stage (egg-larval-pupal) appear related when the whole of development is passed at one temperature. That the number of facets is not dependent upon the length of the immature stage is shown by experiments in which only a part of development was passed at one temperature and the remainder at another. Temperature affects the reaction determining the number of facets in approximately the same way that it affects the other developmental reactions, hence the apparent correlation between facet number and the length of the immature stage. Variability as expressed by the coefficient of variability has a tendency to increase with temperature. Standard deviation, on the other hand, appears to decrease with rise in temperature. Neither inheritance nor induction effects are exhibited by this material. This study shows that environment may markedly affect the somatic expression of one Mendelian factor (bar eye), while it has no visible influence on another (white eye).     

SURFACE CHARACTERS OF DIVIDING CELLS IV. ALLOTMENT OF THE CORTEX AND PARTITIONING OF THE CYTOPLASM IN UNEQUAL DIVISION OF GRASSHOPPER SPERMATOCYTE UNDER THE TEMPERATURE GRADIENT

The allotment of cell surface and the allotment of cell volume between two daughter cells were observed in unequal division of spermatocytes of the grasshopper, Acrida lata, caused by steep temperature gradient. In applying a temperature gradient through the cell division, coincidence in position between the provisional division plane indicated by the tongue of mitochondria, and the actually formed furrow, has been established (i) by markers attached to cell surface and (ii) by calculated volumes of cytoplasm on the two sides of the planes. On removing a temperature gradient while a cell is dividing, equality is regained as far as the volume of the incipient daughter cells are concerned but territories of the surface once allotted are strictly observed. Unequal division, therefore, involves two different meanings; allocation of the surface, and apportionment of the cytoplasm both of which are dependent upon the development of asters.     

NUMERICAL SIMULATION OF THE PATHWAYS OF MIGRATING INSECTS

Abstract  Based on boundary layer meteorology and behavioural ecology of insect migration, a numerical TRA model was established. The spatial and temporal resolutions of the standard meteorological data are far insufficient for insect migration studies; so, a one dimension TKE closure scheme (E-ε scheme) was adopted to simulate the wind and temperature profiles en route based on the conventional surface and 850 hPa wind and temperature data of Chinese National Meteorological Bureau. Then the migrating behaviour of insects was parameterized as some proper mathematical expressions to determine their timing and their flight height, speed and direction from the wind and temperature profiles simulated by the PBL sub-model, and so their flight pathways could be estimated by a simple algorithm. Finally, the hourly episodes of the airborne migrants were output which consists of the latitude, longitude and flying altitude. The TRA model was verified by mark-release-recapture studies of Mythimna separata, Loxostege sticticalis , and Agrotis ipsilon . The results suggest that the parameterizing scheme of migratory behaviour, the numerical simulation scheme of wind and temperature in PBL and the TRA procedure developed in this paper should be reasonable and feasible. This model provides a useful tool for inter-regional forecast of migratory insect pests.     

芸苔链格孢菌丝生长温度的研究

通过对芸苔链格孢[Alternaria brassicae(Berk.)Sacc.]17个单孢系菌丝在PDA培养基上生长温度的研究,结果表明各菌系在相同的温度下,菌丝生长的速度存在着明显的差异。经新复极差分析,其速度可分为三个等级。其间最高与最低可相差4.7倍。对该菌菌丝最适生长温度的研究表明,17个菌系的平均最适温度为25℃。但各菌株间有着明显的差异。作者根据其最适温度的高低及其对温度的敏感性,将这17个单孢系划分为6个温度型。即:不敏感低温型、敏感亚低温型、不敏感亚低温型、敏感中温型、不敏感中温型及不敏感亚高温型等。病菌温度型的划分可作为使用该类病菌进行抗病筛选时确定最适温度的参考。     

温度对桃蚜和萝卜蚜翅型分化的影响

采用恒温试验,自然变温试验和大田系绕调查相结合的研究方法,探讨了温度对桃蚜和萝卜蚜孤雌胎生型翅型分化的影响,结果表明低温有助于翅的发育,高温则对翅的发育有抑制作用,但低温对翅发育的促进作用在桃蚜中比在萝卜蚜中要强得多。在桃蚜中还证实母蚜体内的仔蚜胚胎期及仔蚜都可感受温度的作用从而对仔蚜的翅型分化产生影响。根据本文结果并综合文献中有关报道,作者认为在确定蚜虫翅型分化与环境因子的关系时,温度是一个不可忽略的重要因子。     

THE EFFECTS OF TEMPERATURE AND HUMIDITY ON THE RATE OF DEVELOPMENT AND THE MORTALITY OF TRIBOLIUM CONFUSUM DUVAL (COLEOPTERA, TENEBRIONIDAE)

The speed of development and the developmental mortality of Tribolium confusum were studied over a series of constant temperatures between 15° and 40° C. at 10, 30, 70 and 90% R.H. using wheatfeed as food.
Eggs did not hatch at 15° or 40° C. at any humidity. At 37.5° C. about 60% of eggs hatched and at all other conditions about 90% hatched. The effect of temperature on the duration of the egg period is shown graphically, the shortest period being at 35° C. Humidity does not affect the egg period.
Larvae failed to develop to pupae at 17.5° C., at 10% R.H. at 20° C, and at 10 and 90% R.H. at 37.5° C. The rate of larval development was affected by both temperature and humidity being quickest at the higher humidities and at about 32.5° C. Larval mortality was less than 16% except at 37.5° C., at 10% R.H. or less, and at 20°C., 90% R.H.
The duration of the pupal period was not affected by humidity and was shortest at 37.5°C. The total developmental period is compared with that of T. castaneum over the range of temperature and humidity conditions in which both species can grow. The optimum for developmental speed and the maximum and the minimum temperatures at which development is possible were all about 2.5°C. lower for T. confusum than for T. castaneum. The developmental periods for the two species were equal at temperatures between 23 and 27°C., depending on humidity. At lower temperatures, T. confusum developed the more quickly and at higher temperatures the more slowly.     

温度对福寿螺生物学特性的影响及高低温适应机制研究进展

在全球气候变化背景下, 福寿螺在我国及全球进一步扩散。极强的生态耐受力及快速适应力是福寿螺能够在入侵地区迅速扩散的重要原因。其中, 环境温度对福寿螺的生存、生长、发育及繁殖至关重要, 是影响福寿螺分布、扩散及暴发的重要因素之一。文章在综述温度耐受范围的基础上, 总结了福寿螺高低温适应的生理生化及分子机制, 并对从温度适应性角度揭示入侵机制的研究前景进行展望。当前, 福寿螺温度适应的生理生化机制研究主要针对化合物以及相关酶活性变化开展, 分子机制研究主要集中在HSP基因的表达差异上。在染色体水平基因组完成测序的基础上, 福寿螺快速适应性进化的生理生态耐受性机制和表型可塑性机制有待深入开展。     

THE EFFECT OF TEMPERATURE AND HUMIDITY ON THE RATE OF DEVELOPMENT AND MORTALITY OF TRIBOLIUM CASTANEUM (HERBST) (COLEOPTERA, TENEBRIONIDAE)

The speed of development and the developmental mortality of Tribolium castaneum were studied over a series of temperatures between 15 and 40°C. at 10, 30, 70 and 90% R.H. using wheatfeed as food.
Eggs did not hatch at any humidity at 17·5°C. or less, nor at 10% R.H. at 40°C. At all other conditions about 80% of eggs hatched. Humidity does not affect the duration of the egg period. The effect of temperature on the egg period is shown graphically, the shortest period occurring at 37·5°C.
Larvae fail to develop into normal adults at 20°C. and also fail at 90 and 30% R.H. at 40°C. At 20°C. and 70% R.H. pupae may be formed but they do not become normal adults. The rate of larval development is affected by both temperature and humidity. Development is quickest at the highest humidity used at any temperature and at 35°C. for each humidity. Larval mortality is less than 20% except at 40°C. and at combinations of low humidity and low temperature. The results correspond with published results using similar foodstuffs.
Groundnuts were used as a food in a series of experiments at 30°C. and another series at 70% R.H. Larvae on this food were much more susceptible to the effects of humidity and were unable to develop at 20 or 40°C. at 70% R.H. In all conditions development was slower and mortality higher than on wheatfeed.
The pupal period is not affected by humidity and is shortest at 37·5°C.
The conditions in which Park found that cultures of T. castaneum became extinct, 24°C. and 30% R.H., lie inside the zone in which development is possible. The possible causes for this discrepancy are discussed.     

昆虫发育速率与温度关系的数学模型研究

一、前言 昆虫生长发育过程中,温度是影响最显著的一个生态因子。对于昆虫发育历期与环境温度间的定量关系,前人提出过不少经验公式,分别在不同程度上反映了发育历期与温度间的密切依赖关系。