黄曲条跳甲室内饲养方法的改进

介绍一种饲养黄曲条跳甲Phyllotreta striolata(Fabricius)的改进新方法,采用分隔式养虫笼饲养成虫和萝卜"凹"型孔饲养幼虫,结果表明,使用该方法进行饲养,卵的成活率可达89.3%,1~3龄幼虫的存活率为65.0%~70.0%,蛹的存活率达80.0%,可以有效实现黄曲条跳甲的室内饲养。     

黄曲条跳甲对毒死蜱敏感性差异的生化机制

采用生物测定方法测定黄曲条跳甲Phyllotreta striolata(F.)2个室内试验种群(蔊菜试验种群、上海青试验种群)和1个田间自然种群对毒死蜱的LC50值。结果表明,蔊菜试验种群对毒死蜱的LC50值最低,为30.3459mg.L-1;田间自然种群对毒死蜱的LC50值最高,为77.8448mg.L-1,与蔊菜试验种群相比的敏感性指数为0.39。对不同种群黄曲条跳甲乙酰胆碱酯酶(AChE)、羧酸酯酶(CarE)、谷胱甘肽-S-转移酶(GSTs)的活性测定结果表明,黄曲条跳甲田间自然种群AChE活性最低,与菜试验种群、上海青试验种群相比,差异极显著(P>0.01);田间自然种群GSTs活性最高,与蔊菜试验种群、上海青试验种群相比,差异极显著(P>0.01);黄曲条跳甲蔊菜试验种群CarE活性最低,田间自然种群CarE活性最高,二者差异极显著(P>0.01);说明黄曲条跳甲对毒死蜱的敏感性下降可能与AChE活性的降低,与CarE、GSTs的活性提高有一定的关系。     

黄曲条跳甲种群分化的RAPD分析

采用RAPD方法,对福建省19个不同菜区黄曲条跳甲地理种群的分化进行了研究。结果表明：相同种群采用相同引物进行扩增的重复性较好,不同种群采用相同引物进行扩增的差异性较高;19个不同菜区的黄曲条跳甲主要分为4个类群：闽东南沿海地区类群、闽西北地区类群、泉州类群和东山岛类群,黄曲条跳甲不同地理种群的遗传距离与地理距离有关。东山岛和泉州2个特异性类群的出现,说明地形、蔬菜种植以及农药使用等人为因子会影响其地理种群的分化。     

虫害诱导的植株对小菜蛾取食和生长发育的影响

本文从菜田生态系统的角度出发,就黄曲条跳甲Phyllotreta striolata(Fabricius)取食诱导对小菜蛾Plutella xylostella(L.)造成的影响进行了研究。黄曲条跳甲取食诱导对小菜蛾取食的影响比较明显,一般来说,黄曲条跳甲少量或短时间的取食会刺激小菜蛾幼虫在相应叶片上的取食,反之则会抑制;而且不同的寄主,不同完整度的叶片(即是否被黄曲条跳甲取食过)上的承载能力不同,芥菜、白菜、菜心和萝卜的承载力弱于甘蓝和芥蓝,黄曲条跳甲取食过的叶片弱于未被黄曲条跳甲取食过的叶片;不同数量的黄曲条跳甲取食对小菜蛾的产卵量影响显著,对其余生物学参数影响不显著,少量的黄曲条跳甲取食会刺激小菜蛾的产卵,多数则会抑制。     

高温对莲草直胸跳甲两个地理种群体重和体型的影响

体型大小与昆虫在温度胁迫下的适应性有关。本文旨在研究入侵杂草空心莲子草Alternanthera philoxeroides生防天敌莲草直胸跳甲Agasicles hygrophila SelmanVogt不同地理种群对高温的形态响应机制。以恒温25℃作为对照,分别测定莲草直胸跳甲长沙种群和海南种群在模拟夏季特定12∶00-16∶00时段30℃、33℃、36℃高温条件下的幼虫体重、初羽化成虫体重、后足胫节长、鞘翅长、前胸背板宽等指标。结果表明,莲草直胸跳甲两地理种群幼虫体重均随温度升高而增加。两种群雌虫及长沙种群雄虫的体重、后足胫节长、鞘翅长、前胸背板宽度随温度上升显著下降;海南种群雄虫的后足胫节长、鞘翅长、前胸背板宽在各温度处理间无显著差异。在33℃、36℃高温条件下,长沙种群的幼虫体重、雌虫体重及雌虫的后足胫节长、鞘翅长、前胸背板宽显著高于海南种群,而长沙种群雄虫的后足胫节长、鞘翅长、前胸背板宽显著低于海南种群。试验表明,不同地理种群的莲草直胸跳甲形态大小对高温的响应存在差异。本研究结果为探究莲草直胸跳甲种间进化以及人工培育耐热种群的实践提供了一定的参考依据。     

饲养黄曲条菜跳甲实验种群的一种新方法

介绍一种简便可行的饲养黄曲条菜跳甲Phyllotretastriolata(F.)的新方法———整苗大瓶罩养法。用5种植物根部饲养越冬代,黄曲条菜跳甲均可成功地完成其生活周期,未成熟期最高存活率为63.3%,成虫平均寿命最长为219.2d,平均产卵量最大为192.4粒雌。     

棉露尾甲在不同饲料上的生长发育及繁殖力比较

【目的】棉露尾甲Haptoncus luteolus Erichson是棉花和番荔枝科等植物上重要的传粉昆虫,研究其室内人工饲养技术对于开发其传粉价值和以其为对象进行转基因棉花安全性评价等方面具有重要意义。【方法】利用筛选的人工饲料和油菜花粉2种潜在的人工饲料,同时以天然饲料丝瓜花为对照,观察比较棉露尾甲初孵幼虫在3种饲料上的生长发育及羽化为成虫后的繁殖力差异。【结果】棉露尾甲初孵幼虫在3种饲料上发育至成虫的生存曲线无显著差异;与丝瓜花和油菜花粉相比,人工饲料饲养棉露尾甲的幼虫期缩短,蛹期延长;人工饲料饲养的雌成虫羽化后20d内累计产卵量显著高于丝瓜花和油菜花粉处理,且可以维持较长时间的单日高产卵量,从而显著提高繁殖力。【结论】人工饲料饲养的棉露尾甲生物学特征与丝瓜花饲养的相似,但繁殖力显著提高,可以利用人工饲料结合配套的饲养技术进行棉露尾甲的室内长期大量饲养。     

环境因素对黄曲条跳甲种群扩散的影响

应用标记回收技术,研究了寄主及气象因素对黄曲条跳甲种群扩散的影响.结果表明,黄曲条跳甲的自然扩散是由环境引起(τ≈1),温度、风速与之有一定的相关性(P<0.05),高温不利于黄曲条跳甲的扩散,其扩散主要沿逆风或与风向垂直方向进行,而湿度与黄曲条跳甲成虫扩散无显著相关(P>0.05).寄主是影响黄曲条跳甲扩散的重要因子,在几种寄主植物中,菜心上收集的标记成虫数最多,其次为芥菜,再次为白菜,芥蓝上基本没有.     

水流对莲草直胸跳甲种群存活和扩散的影响

【背景】水流是外来入侵生物传播蔓延的重要方式之一,特别是水生生物。水生杂草在水流传播过程中也经常携带其天敌从一个地方传播到另一个地方,如莲草直胸跳甲经常随着空心莲子草在水流中传播。研究水流对莲草直胸跳甲存活的影响及其对种群迁移的间接协助作用,可为解析该天敌抵御洪涝灾害和借助水流传播的能力提供科学依据。【方法】本研究以莲草直胸跳甲为研究对象,在室内进行水流模拟,比较水流转速（1000、1250和1750r.min-1）和时间（30、60、90和120min）对不同虫态莲草直胸跳甲（雌雄成虫、幼虫和卵）存活率的影响,并推算莲草直胸跳甲成虫和幼虫在野外随水流传播的最大距离。【结果】水流速度对昆虫的存活和发育具有一定影响。在不同旋转时间和转速下,雌雄成虫的存活率较高,幼虫次之,卵的存活率最低;雌虫随水流传播能达到的最远距离最大,雄虫次之,传播距离最小的是幼虫。【结论与意义】莲草直胸跳甲可随水流进行远距离传播和自然扩散,对于利用莲草直胸跳甲防治空心莲子草,缓解水渠和河道的堵塞非常有利。     

莲草直胸跳甲的空间选择与性别分化

【背景】莲草直胸跳甲是空心莲子草的专一性天敌,成功地大量繁殖是其大规模应用于空心莲子草生物防治的必要条件,为了更好地开展莲草直胸跳甲的室内大量繁殖,明确其不同虫态对空心莲子草空间的选择性具有重要意义。【方法】本研究调查了莲草直胸跳甲成虫取食与产卵、幼虫取食、老熟幼虫化蛹的空间选择性,并分析了空心莲子草茎秆直径对幼虫化蛹空间选择、蛹羽化率和羽化成虫性别分化的影响。【结果】雌雄成虫均嗜好栖息于空心莲子草幼嫩的顶叶,位于顶叶的雌、雄成虫数量分别占整株的62.9%和63.3%;成虫偏好将卵产在第2节叶片上,比例高达41.2%;幼虫主要集中于上部3节的叶片上取食,占84.8%;老熟幼虫化蛹前在茎秆上蛀孔后钻入茎秆中化蛹,其不在第1节茎秆内化蛹,化蛹主要选择在3～5节,其中在第4节茎秆内化蛹量最高,达1.0头.节-1;老熟幼虫在1～5节茎秆内的化蛹量与空心莲子草茎秆直径具有显著相关性（y=-19.209x2＋16.66x＋2.6737,R2=0.841）;羽化成虫的雌雄性比则与茎秆直径呈显著正相关（y=5.5704x-1.1718,R2=0.914）。【结论与意义】莲草直胸跳甲成虫和幼虫均偏好在空心莲子草上部的叶片取食,老熟幼虫化蛹则偏好中部较粗壮的茎节,因此,培育茎秆较粗且老化程度较低的空心莲子草是实现莲草直胸跳甲大量饲养的重要途径。本研究可为优化人工大量饲养繁殖莲草直胸跳甲的条件提供数据支持。     

Growth responses of gypsy moth larvae to elevated CO2: the influence of methods of insect rearing

Abstract The effects of elevated CO₂ on foliar chemistry of two tree species (Populus pseudo‐simonii Kitag. and Betula platyphylla) and on growth of gypsy moth (Lymantria dispar L.) larvae were examined. Furthermore, we focused on the comparison of results on the growth responses of larvae obtained from two methods of insect rearing, the no‐choice feeding trial performed in the laboratory or in situ in open‐top chambers. On the whole, both primary and secondary metabolites in the leaves of the two tree species were significantly affected by main effects of time (sampling date), CO₂ and species. Elevated CO₂ significantly increased the C : N ratio and concentrations of the soluble sugar, starch, total nonstructural carbohydrates, total phenolics and condensed tannins, but significantly decreased the concentration of nitrogen. Higher contents of total phenolics and condensed tannins were detected in the frass of larvae reared in elevated CO₂ treatments. Overall, the growth of gypsy moth larvae were significantly inhibited by elevated CO₂ and CO₂‐induced changes in leaf quality. Our study did not indicate the two methods of insect rearing could influence the direction of effects of elevated CO₂ on the growth of individual insects; however, the magnitude of negative effects of elevated CO₂ on larval growth did differ between the two insect rearing methods, and it seems that the response magnitude was also mediated by larval age and host plant species.     

Development,survival, body weight,longevity, and reproductive potential of Oemena hirta (Coleoptera: Cerambycidae) under different rearing conditions

Oemona hirta (F.) is a New Zealand native longicorn beetle, whose larvae bore into the wood of branches and stems of living trees and vines, causing serious damage. To explore effective methods for maintaining laboratory colonies and biology of immature stages of this species we evaluated four laboratory rearing methods with both natural and artificial diets and compared biological parameters of laboratory colonies with those of field-collected insects. On an artificial diet, approximately 40% of neonate and 70% of autumn- and 11% of winter-collected larvae reached adulthood. Neonate larvae could not complete their development in cut poplar (Populus nigra variety italica Koehne) twigs; however, when twigs were standing in water >46% of neonate larvae survived to adulthood. Mean larval development time ranged from approximately150 to almost 300 d, depending on rearing methods. Mean pupal stage ranged from 15 to 19 d. Adult females were significantly heavier than males. Although adult females from field-collected twigs and reared on the artificial diet had similar mean body weight, which was significantly greater than that of other rearing colonies, the potential fecundity was the highest in the former (83.1 +/- 29.4 eggs) and the lowest in the latter (33.5 +/- 9.1 eggs). In all laboratory-reared and field-collected insects, the total number of eggs produced (eggs laid + eggs that remained in dead female body) by females was positively correlated with their body weight. When larvae fed on the artificial diet, there was no positive correlation between the number of eggs successfully laid and female body weight. However, when larvae lived on natural food, a positive correlation was found. In laboratory colonies, mean longevity of females (36 to 52 d) was slightly greater than that of males (30 to 50 d) without significant difference between sexes but in the adults from field-collected twigs, males (52 d) lived significantly longer than females (33 d). In terms of time, labor, and the number of resulting adults, collecting larvae in the field in autumn and then transferring them onto artificial diet is the most effective method for maintaining a laboratory colony.     

Phenology and laboratory rearing procedures of an Asian longicorn beetle, Glenea cantor (Coleoptera: Cerambycidae: Lamiinae)

Clenea cantor (F.) (Coleoptera: Cerambycidae: Lamiinae) is an Asian longicorn beetle whose larvae bore under the bark of living trees of at least seven plant families and enter the wood for pupation. Here, we determined the phenology of this beetle on its natural host, kapok [Bombax ceiba L. = Cossampinus malabaricus (DC.) Merr], in an uncontrolled insectary at ambient environmental conditions, and we compared the efficiency of four larval rearing procedures at 25 +/- 2 degrees C, 75 +/- 5% RH, and a photoperiod of 14:10 (L:D) h in the laboratory. It had five generations, including an overwintering generation, a year in southern China, with overlaps between generations and no diapause. Adults were present in early March-early December; eggs in early April-early December; larvae almost year-round, and pupae in mid-February-mid-April as well as mid-May-late November. All larvae of the overwintering generation and the larvae of the fourth generation that hatched in and after mid-November overwintered. The longevity of females and males was 71.94 +/- 1.21 d and 46.87 +/- 1.11 d, respectively, and mean fecundity was 106.65 +/- 3.61 eggs. Four larval rearing procedures using kapok twigs were tested: (1) 10 neonate larvae were left in the original host twig, (2) 10 neonate larvae were removed from the original bark and transferred to a new host twig, 3) 10 neonate larvae embedded in the original bark were transferred to a new host twig, and 4) a single neonate larva embedded in the original bark was transferred to a new host twig. We observed the survival of 300 neonate larvae for each rearing procedure. Approximately 81-85% of neonate larvae successfully developed to adult stage when neonate larvae were transferred together with the original bark to new host twigs; when neonate larvae were transferred without the original bark, only approximately 38% of the inoculants became adults, and when larvae were left in original twigs, approximately 52% of them reached adult stage. Resulting adults from different rearing methods and collected from the field had similar body weight and sex ratio. In terms of time, labor, and the number of resulting adults, procedure 3 is the most effective method for maintaining a laboratory colony.     

利用甘蔗饲养红棕象甲的技术

介绍一种以甘蔗为饲料饲养红棕象甲Rhynchophorus ferrugineus Fab.的方法。将新鲜甘蔗切成段,置于培养皿中,放入恒温培养箱内,设置温度:(26±1)℃,RH:80%±10%,光周期:L∶D=0∶24。利用该方法饲养的红棕象甲世代历期130.80d,老熟幼虫平均体重5.51g,成虫单雌产卵量144.42粒,世代存活率21.67%。甘蔗饲养红棕象甲成本低,生物学特性恒定,可作为替代寄主扩繁虫源。     

Nutritional studies of the rice stem borer,Chilo suppressalis Walker,and its mass rearing

The nutritional requirements of the rice stem borer,Chilo suppressalis Walker were studied by rearing on synthetic food media in relation to the constituents of the rice plant. The larvae required amino acids, vitamins, carbohydrates, cholesterol, minerals and water extract of the rice plant for their growth. Among amino acids, arginine, histidine, isoleucine, leucine, lysine, methionine, phenylalanine, threonine, tryptophane and valine were indispensable for the growth, and these amino acids could not be synthesized in the larval body. Among vitamines, thiamine, riboflavin, nicotinic acid, pyridoxine, Ca-pantothenate, folic acid, biotin, cholin chloride and ascorbic acid were essential for the growth. Cholesterol is the only essential nutrient among fat-soluble factors. Fructose, glucose and sucrose showed high nutritive values among carbohydrates. Addition of the water extract of the rice plant to the media improved the development of the insects, but the excess amounts of it resulted inhibition of the growth. Two aromatic acids, benzoic and salicylic acids, were isolated as the growth inhibitory substance. p-methyl acetophenone isolated from the rice plant seemed to play an important role for the attraction of the insect. Mass rearing of the rice stem borer in a laboratory was carried out on two kinds of foods: living rice plant seedlings and synthetic food media. The rearing the insects on rice seedlings is easy if rice seeds are available. The rearing on synthetic food media is modified to simplify from these for the nutritional study. The rearing practices, merit and demerit of both methods are discussed.     

A technique for continuous rearing of Neodiprion sertifer (Geoffroy) (Hym., Diprionidae) in the laboratory

The laboratory rearing of Neodiprion sertifer (Geoffroy) on Pinus sylvestris L. plants grown in vases was successfully achieved on a continuous basis. Larvae were seen to emerge on average after 106 days from egg clusters being kept on plants held at a temperature of 15 ± 1°C and with a 10‐h photophase until emergence. These larvae were then transferred to plastic containers and kept at a temperature of 20 ± 1°C with a 12‐h photophase where, under optimum hygiene conditions and being fed fresh pine branches, they completed their development on average in 30.6 days. Adults began emerging from the cocoons after about 30 days, continuing to do so for at least 7 months. Under these conditions the insect completes its life cycle in 179 days, thus permitting to obtain two generations a year in the laboratory. This staggered adult emergence pattern makes specimens available at all stages of development for experimental purposes throughout most of the year.     

用马铃薯人工饲养马铃薯块茎蛾的方法

介绍一种马铃薯块茎蛾Phthorimaeaoperculella的室内人工饲养方法。在人工养虫室内用 1 0 %的蜂蜜水喂养成虫 ,用滤纸收集卵块 ,幼虫在薯块上饲养 ,化蛹于牛皮纸卷成的纸筒中 ,饲养结果发现马铃薯块茎蛾完成 1代大约需要 35～ 4 6d ,室内连续饲养块茎蛾 3代 ,卵的孵化率、幼虫化蛹率、成虫羽化率均在 90 %以上。     

Methodical aspects of rearing decapod larvae,Pagurus bernhardus (Paguridae) andCarcinus maenas (Portunidae)

Improved methods for experimental rearing ofPagurus bernhardus andCarcinus maenas larvae are presented. Isolated maintenance was found essential for reliable statistical evaluation of results obtained from stages older than zoea-1. Only by isolated rearing is it possible to calculate mean values ±95% confidence intervals of stage duration. Mean values (without confidence intervals) can only be given for group-reared larvae if mortality is zero. Compared to group rearing, isolated rearing led to better survival, shorter periods of development and stimulated growth. Due to different swimming behaviorP. bernhardus zoeae needed larger water volumes thanCarcinus maenas larvae.P. bernhardus zoeae were reared with best results when isolated in Petri dishes (ca. 50 ml). They fed on newly hatched brine shrimp nauplii (Artemia spp.).P. bernhardus megalopa did not require any gastropod shell or substratum; it developed best in glass vials without any food.C. maenas larvae could be reared most sucessfully in glass vials (ca 20 ml) under a simulated day-night regime (LD 16:8); constant darkness had a detrimental effect on development, leading to prolonged stage-duration times.C. maenas larvae were fed a mixture of newly hatched brine shrimp naupli and rotifers (Brachionus plicatilis).