玉带凤蝶羽化时间的控制

对玉带凤蝶卵、蛹在 5～ 8℃下冷藏试验和越冬蛹的加温试验表明 ,已发育 1～ 2d的卵 ,其冷藏时间可达 7d ,孵化率达 93 % ,孵化率随冷藏前发育天数和冷藏天数的增加而降低 ;发育蛹的耐低温能力比卵弱 ,已发育 1d的蛹 ,冷藏 3d后 ,羽化率仅为 80 % ,羽化率随蛹冷藏前的发育天数和冷藏天数的增加而降低 ;越冬蛹加温 ,可促使其提早 2 3的时间羽化     

低温对小菜蛾实验种群的影响

研究了低温(<8℃)对小菜蛾的发育、存活和繁殖的影响.结果表明,卵和蛹在4℃和6℃下死亡率随处理时间的延长而增加,在分别处理55d和70d后,卵和蛹全部死亡;经4℃和6℃处理的蛹,在16℃下羽化成虫的平均产卵量随处理时间的延长而减少,处理45d时,产卵量均为0.小菜蛾幼期各虫态在0℃以下,死亡率随低温强度加大和处理时间的延长而增高.就耐寒力而言,3龄幼虫和蛹最强,其次是2龄和4龄幼虫,卵和1龄幼虫的耐寒力最弱.不同低温和时间处理小菜蛾幼期虫态对其后继虫态的发育历期有较大影响,总体说来,经过处理的小菜蛾幼期虫态,其后继虫态的发育历期普遍延长,一般处理某一虫态对其相邻虫态发育历期的影响最大.小菜蛾蛹经低温处理后其羽化成虫的产卵量随着蛹期所经历低温强度的增强和时间延长而减少.     

低温对小菜蛾实验种群的影响

研究了低温(<8℃)对小菜蛾的发育、存活和繁殖的影响结果表明,卵和蛹在4℃和6℃下死亡率随处理时间的延长而增加,在分别处理55d和70d后,卵和蛹全部死亡;经4℃和6℃处理的蛹,在16℃下羽化成虫的平均产卵量随处理时间的延长而减少,处理45d时,产卵量均为0小菜蛾幼期各虫态在0℃以下,死亡率随低温强度加大和处理时问的延长而增高就耐寒力而言,3龄幼虫和蛹最强,其次是2龄和4龄幼虫,卵和1龄幼虫的耐寒力最弱不同低温和时间处理小菜蛾幼期虫态对其后继虫态的发育历期有较大影响,总体说来,经过处理的小菜蛾幼期虫态,其后继虫态的发育历期普遍延长,一般处理某一虫态对其相邻虫态发育历期的影响最大小菜蛾蛹经低温处理后其羽化成虫的产卵量随着蛹期所经历低温强度的增强和时间延长而减少。     

食蚜瘿蚊全虫态形态记述

【目的】基于实验室饲养的食蚜瘿蚊Aphidoletes aphidimyza (Rondani)进行个体发育的形态特征描述。为食蚜瘿蚊的鉴定提供基本信息。【方法】在野外采集幼虫,温度(25±1)℃、相对湿度65%±5%、光照16 L∶8 D的室内条件下饲养获得食蚜瘿蚊卵、幼虫、蛹和成虫的全部虫态。通过数码采集和电子显微镜详细描述了各虫态的发育特征。【结果】食蚜瘿蚊卵的发育历期为2 d,幼虫期有3个龄期,发育历期5-8 d,蛹期7-10 d以及成虫期3-4 d。【结论】食蚜瘿蚊个体发育特征对食蚜瘿蚊的鉴定和分类有指导意义。     

二次正交旋转回归设计在小菜蛾饲料配方筛选中的应用

应用二次正交旋转回归组合设计方法,筛选小菜蛾半合成人工饲料配方,以化蛹率为目标函数建立了二次回归模型,通过统计寻优获得的优化配方为:每100g人工饲料中,麦芽5g、蔗糖3.5g、菜叶粉5g、干酪素3g、螺旋藻0.75g。在温度24～26℃,相对湿度60%～70%,光照周期为13L∶11D的条件下,用该优化配方饲养小菜蛾,幼虫期8.45d,蛹期4.5d,初孵幼虫至成虫羽化的历期平均12.95d,化蛹率74.7%,羽化率94.9%,蛹重5.14mg/头,雌虫平均寿命9.5d,雄虫寿命13.5d,每雌产卵量135.67粒。与发芽菜苗饲养相比,存活率和发育速度无显著差异,蛹重和产卵量显著增加。该饲料价格低廉,配制和应用管理方便,饲养过程中不必更换饲料。     

低温处理对金银花尺蠖卵和蛹的影响

将金银花尺蠖Heterolocha jinyinhuaphaga Chu的卵、蛹分别在5℃和8℃下处理1 d、3 d、5 d、7 d后,放在25℃下培养,研究低温处理对金银花尺蠖卵和蛹的影响。结果表明,低温处理对金银花尺蠖卵的发育历期和孵化率、蛹的发育历期和羽化率均有显著的影响。低温处理后,卵、蛹的发育历期比对照显著缩短,并且随着低温处理天数的增加,发育历期逐渐缩短,差异达显著水平;卵的孵化率和蛹的羽化率比对照也显著下降。经过5℃低温处理1 d、3 d卵的发育历期分别比对照缩短286 d、473 d;孵化率分别比对照下降了4234%和4967%;处理5 d、7 d的卵均不能孵化。经过8℃低温处理1 d、3 d卵的发育历期分别比对照缩短125 d、300 d;卵的孵化率分别比对照下降了3035%和4500%,处理5 d、7 d的卵也均不能孵化。经过5℃低温处理1 d、3 d、5 d的金银花尺蠖蛹的发育历期分别比对照缩短了249 d、454 d和701 d;羽化率分别比对照下降了5777%、6784%和7810%;处理7 d的蛹均不能羽化。经过8℃低温处理1 d、3 d、5 d的金银花尺蠖蛹的发育历期分别比对照缩短了133 d、354 d和549 d;羽化率分别比对照下降了3945%、5873%和7441%;处理7 d的蛹均不能羽化。     

温度与光周期对麝凤蝶生长发育的影响

观察了麝凤蝶的卵、幼虫和蛹在不同温度和光周期条件下的发育历期。结果表明 :卵、幼虫和蛹的发育起点温度分别为 1 3 7,7 9和 8 0℃ ,有效积温分别为 43 8,3 98 0和 2 79 4日·度 ;越冬蛹的发育可以分为 5个阶段 ;大部分越冬蛹在上午 (88 2 % )羽化 ;长光照处理平均比短光照出处理提前羽化 2d。     

用青菜萝卜苗法室内大量饲养小菜蛾的方法

室内人工大量继代饲养小菜蛾Plutella xylostella L.,是开展小菜蛾各种研究的基础.本文介绍用三月慢青菜萝卜苗法饲养小菜蛾的方法.在(24±1)℃、相对湿度60%～70%、光周期L:D=14:10条件下,小菜蛾能连续继代健康繁衍,卵的孵化率和蛹的羽化率可达90%以上.该方法简单实用,成本低,管理方便,可...     

温度对空心莲子草叶甲生长发育的影响

在室内温度控制条件下 ,空心莲子草叶甲卵、幼虫、蛹的生长发育历期与温度呈函数关系 ,在 2 2、2 5、2 8、30和 32℃下 ,随着温度的提高 ,发育历期呈明显下降 .幼虫有 3龄 ,幼虫期 8.8d .成虫寿命长短与温度和性别有关 ,雌虫寿命比雄虫长 ,成虫产卵前期 1 .5～5.0d之间 ,产卵期 1 1 .5～ 1 1 6.0d之间 .卵、幼虫、蛹的起始温度分别是 1 2 .4、1 2℃ ,有效积温分别是 69.1 92、1 2 5日度 .     

应用蛭石萝卜苗法室内继代大量繁殖小菜蛾的研究

参照FAO(1979),柯礼道等(1981)的饲养方法,改进了饲养工具、载体等,着重解决了湿度大,培育健壮萝卜苗、使成虫产卵于预定位置的问题。应用蛭石萝卜苗法饲养的小菜蛾,可以顺利继代,不需复壮,其成活率、四龄虫重、预蛹期虫重、蛹重、化蛹率、羽化率、产卵量、孵化率等生物学特性均接近田间小菜蛾。可获得大量虫龄一致、发育整齐、健康、合乎试验条件的供试幼虫。此法简单实用,成本低,管理方便,在25±1℃恒温室条件下,1年可继代培育20～23代,现已连续饲养33代。     

低温和光周期对绿盲蝽越冬卵滞育解除和发育历期的影响

为了探讨温度和光周期对绿盲蝽Apolygus lucorum Meyer-Dür越冬卵滞育解除和发育历期的影响, 系统调查了绿盲蝽越冬卵在不同温度和不同光照组合下的孵化率和孵化时间, 结果显示：绿盲蝽的越冬卵均为滞育卵,低温和光周期对绿盲蝽越冬卵的滞育解除均有影响。2℃的低温处理能够显著促进其滞育解除,在0~65 d范围内,随着低温处理时间增长,其滞育解除时间缩短,未经低温处理的越冬卵T₅₀为68.5 d,低温处理65 d的T₅₀为12.25 d,绿盲蝽越冬卵在2℃低温处理65 d后完全解除滞育;在0~40 d范围内,低温处理时间越长,绿盲蝽越冬卵的孵化率越高,在25℃、全光照的条件下不经低温处理的孵化率为68.65%,低温处理40 d后在25℃的条件下的孵化率达到99.46%。在20~26℃范围内,绿盲蝽越冬卵的滞育后发育历期随着温度的上升而缩短, 随着光周期的延长而缩短。结果说明低温处理能够提高绿盲蝽越冬卵滞育解除率,但不是其滞育解除的必要条件,低温处理与自然变温对绿盲蝽滞育解除的作用相似;高温和长光照能够促进绿盲蝽的滞育解除,缩短发育历期。     

菜蛾啮小蜂的生物学及温度对其 种群增长的影响

菜蛾啮小蜂Oomyzus sokolowskii (Kurdjumov) 是小菜蛾Plutella xylostella L. 的一种主要寄生天敌。观察表明,该蜂喜产卵于小菜蛾各龄幼虫,也可产卵于预蛹,进行幼虫至蛹期的跨期聚寄生。每头寄主蛹出蜂多为5～10头,平均7.8头,其中雌蜂占85%～90%。该蜂也可产卵于在小菜蛾幼虫体内寄生的菜蛾绒茧蜂高龄幼虫,故又是小菜蛾的兼性重寄生蜂。在杭州,每年该蜂在田间的活动期为4～10月,10月中下旬陆续以老熟幼虫或预蛹进入休眠越冬,第二年4月陆续羽化并开始产卵寄生。该蜂发育、存活和繁殖的适温范围为20～30℃,低于20℃或高于30℃对其存活不利,但在适温下发育羽化的雌蜂,短时间内在32～35℃高温下仍可大量产卵寄生。在20℃、25℃和30℃下,平均每雌一生可寄生小菜蛾幼虫数分别为3.1、13.2和6.8头,产子蜂数分别为20.5、92.1和504头,内禀增长率分别为0.082、0.240和0.263(雌/雌·天)。     

颗粒体病毒在小菜蛾种群中的垂直传播方式的初步观察

在室内观察了小菜蛾颗粒体病毒PlutellaxylostellaGranulosisVirus(RxGV)在小菜蛾种群水平上可能的垂直传播途径。结果表明 :(1 )上代小菜蛾Plutellaxylostella(L .)幼虫期饲毒不能将小菜蛾颗粒体病垂直传递到下代 ;(2 )取食病毒的雌蛾产的卵所孵化的幼虫中 ,没病毒感染出现 ,说明病毒不能经小菜蛾成虫体内传播到下一代。 (3 )用小菜蛾颗粒体病毒处理卵卡时 ,其初孵幼虫有少量被病毒感染死亡 ,浓度高时感染率也较高 ,但感染率均在 1 0 %以下 ,说明小菜蛾颗粒体病毒能经卵表垂直传递给下代 ,但传递效率不高。但当用病毒处理叶片上的卵时 ,初孵幼虫死亡率高达 77 73 % ,而且孵化出的幼虫大多数染病且死于 3龄以前 ,因此田间病毒的施用时间可提早到卵高峰期。     

亚麻荠对小菜蛾幼虫取食和成虫行为反应的影响

亚麻荠是一种很少有害虫危害的油料作物。用室内生测和Y 型嗅觉仪研究了亚麻荠对小菜蛾Plutella xylostella幼虫取食和成虫行 为反应的影响。以甘蓝作对照,用亚麻荠叶片喂养的小菜蛾初孵幼虫3天后校正死亡率为79 .2%,显示了较强的致死作用;喂养小菜蛾3龄幼虫至化蛹,其存活率、化蛹率、蛹重及成 虫寿命都显著降低,表明亚麻荠对小菜蛾幼虫的生长发育有不利影响。在幼虫的取食选择实 验中,有甘蓝叶供选择时,小菜蛾幼虫不取食亚麻荠;在无可选择的情况下,小菜蛾幼虫也 取 食亚麻荠叶片,但取食量很小,与取食甘蓝叶的量相比,差异极显著。行为反应测试表明, 小菜蛾成虫对甘蓝和亚麻荠植株的挥发物都有明显的趋性反应,与对照（净化空气）相比, 差异极显著,而在甘蓝和亚麻荠之间无选择性。说明小菜蛾成虫对亚麻荠植株的挥发物具有 较强的定向反应。     

Efficacy of Leptospermum petersonii oil, on Plutella xylostella, and its parasitoid, Trichogramma pretiosum

The efficacy of lemon-scented tea tree oil (LSO), Leptospermum petersonii (FM. Bailey), was evaluated against the diamondback moth, Plutella xylostella (L.) under laboratory conditions. Feeding activity and development of larval stages were significantly reduced on broccoli leaves that had been dipped in LSO. Oviposition deterrence was also found when an adult stage was exposed to treated leaves. Fecundity dropped by >50% at concentrations >0.5%. The LC50 value for third instar larvae was estimated to be 2.93% 7 d after treatment. Experiments were also conducted under greenhouse conditions to assess the efficacy of LSO against the diamond-back moth. Our results suggest that LSO has modest potential for development as a botanical insecticide. The oil was also tested at concentrations from 0.5 to 6% for oviposition deterrence of an egg parasitoid of the diamondback moth, Trichogramma pretiosum (Riley). LSO deterred parasitization in choice tests but not in no-choice tests. LSO did not cause mortality of T. pretiosum during 24 h in a contact toxicity test. We conclude that LSO had no significant effects on the parasitoid, and therefore LSO is compatible with this biocontrol agent for integrated management of the diamondback moth.     

Greenhouse and field evaluations of transgenic canola against diamondback moth, shape Plutella xylostella, and corn earworm, shape Helicoverpa zea

Canola (Brassica napus L.) cultivars Oscar and Westar, engineered with a Bacillus thuringiensis (Bt) cryIA(c) gene, were evaluated for resistance to lepidopterous pests, diamondback moth, Plutella xylostella L. (Plutellidae) and corn earworm, Helicoverpa zea (Boddie) (Noctuidae) in greenhouse and field conditions. In greenhouse preference assays conducted at vegetative and flowering plant stages, transgenic plants recorded very low levels of damage. A 100% diamondback moth mortality and 90% corn earworm mortality were obtained on transgenic plants in greenhouse antibiosis assays. The surviving corn earworm larvae on transgenic plants had reduced head capsule width and body weight. Mortality of diamondback moth and corn earworm were 100% and 95%, respectively, at different growth stages (seedling, vegetative, bolting, and flowering) on the transgenic plants in greenhouse tests. In field tests conducted during 1995–1997, plots were artificially infested with neonates of diamondback moth or corn earworm or left for natural infestation. Transgenic plants in all the treatments were highly resistant to diamondback moth and corn earworm larvae and had very low levels of defoliation. Plots infested with diamondback moth larvae had greater damage in both seasons as compared with corn earworm infested plots and plots under natural infestation. After exposure to defoliators, transgenic plants usually had higher final plant stand and produced more pods and seeds than non-transgenic plants. Diamondback moth injury caused the most pronounced difference in plant stand and pod and seed number between transgenic and non-transgenic plants. Our results suggest that transgenic canola could be used for effective management of diamondback moth and corn earworm on canola.     

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。     

Production and regulation of extracellular proteases from the entomopathogenic fungus Isaria fumosoroseus (Cordycipitaceae; Hypocreales) in the presence of diamondback moth,Plutella xylostella cuticle

Extracellular proteases of entomopathogenic fungi have been implicated as components of the insect infection process. To elucidate their role in the infection process, it is essential to characterize these enzymes. During the current studies synthesis and regulation of extracellular proteases (Pr1 and Pr2) by Isaria fumosoroseus (Cordycipitaceae; Hypocreales) isolate IF28.2 were investigated as a function of carbon source (with special reference to diamondback moth cuticle), temperature and pH. The highest level of Pr1 and Pr2 activity were found in the supernatants from 1% glucose plus 1% diamondback moth cuticle (18.83±1.25 and 12.44±1.36 U/mg per h for Pr1 and Pr2, respectively). Maximum Pr1 production by the depressed mycelia was observed from the supernatants having diamondback moth cuticle as a nutrient source, whereas depressed mycelia showed maximum Pr2 activity from the cultures having chitin as the basic nutrient. The optimum pH for Pr1 and Pr2 activity was 8 while 35°C was the best temperature for protease production.     

短时低温胁迫对广聚萤叶甲发育和生殖的影响

广聚萤叶甲Ophraella commnuna 是入侵性杂草豚草Ambrosia artemisiifolia的一种重要专一性天敌.为探明短时低温胁迫对广聚萤叶甲发育和生殖的影响,将广聚萤叶甲置于2,5,8,11和14°C人工气候箱内(RH 70%±5%,14L:10D)处理2 h,测定卵、幼虫、蛹存活率、发育历期及成...