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1.
大豆蚜嗅觉在选择寄主植物中的作用   总被引:15,自引:1,他引:14  
杜永均  严福顺 《昆虫学报》1994,37(4):385-392
大豆蚜 Aphis hlycines 有翅和无翅孤雌生殖蚜为其寄主植物大豆叶和鼠李叶气味所引诱,而非寄主植物棉花叶和黄瓜叶气味处于中性,丝瓜叶和南瓜叶气味具有明显的排斥作用。非寄主植物气味可以遮蔽寄主植物气味的引诱作用。大豆蚜触角感受器对植物气味具有嗅觉生理反应,对一些化合物的最小感觉阈值达10-5至10-6体积比浓度,表明大豆蚜触角上存在识别植物气味的嗅觉受体细胞。由此证明,嗅觉在大豆蚜选择寄主植物过程中起重要作用。  相似文献   

2.
植物气味化合物对棉铃虫产卵及田间诱蛾的影响   总被引:21,自引:7,他引:14  
利用触角电位技术(EAG)研究棉铃虫Helicoverpa armigera对17种植物气味物质的嗅觉反应,实验结果表明:棉铃虫雄蛾、雌蛾对所试各种植物气味物质均无明显的嗅觉反应差异,不同种类的气味物质能引起不同的EAG反应。对其中的几种植物气味物质进行了引诱产卵实验及田间诱蛾实验,结果表明:某些寄主植物的挥发性次生物质显示出较好的引诱产卵活性,且对棉铃虫性诱剂具有增效和协同作用。田间实验数据显示,增加了植物气味物质的棉铃虫性诱剂与单一的棉铃虫性诱剂相比差异显著。  相似文献   

3.
大豆蚜触角嗅觉感器结构及其功能   总被引:25,自引:5,他引:20  
采用扫描电镜观察大豆蚜Aphis giycines各型触角上嗅觉感器的细微结构,结合触角电位记录,发现大豆蚜有翅孤雌生殖蚜对萜烯衍生物的感受部位在第6节原生感器上,而萜烯烃类则在第5节原生感器上,两原生感器都对绿叶气味和芳香类起嗅觉反应。末端2节上还有其它化学感器对植物气味起反应。因此,各型对植物气味的感觉部位在末端2节上。各型对报警信息素的作用部位主要在第6节原生感器上,无翅型第5节原生感器和有翅型第3节次生感器也有一定的感觉能力。  相似文献   

4.
为了探明竹横锥大象Cyrtotrachelus buqueti Guerin-Meneville是否存在两性间的引诱作用,以及寄主植物慈竹Neosinocalamus affinis笋对两性行为的影响,采用Y型嗅觉仪测定了竹横锥大象雌、雄成虫对4种虫体及寄主挥发物不同处理(雌、雄成虫,慈竹笋与雌、雄成虫的复合体)的行为反应,测定了触角不同部位对雌雄成虫3种虫体的提取物(整体、鞘翅、后肠)及其与寄主植物挥发物质联合作用的触角电位反应(EAG)。结果表明:雌成虫挥发物对雄虫有较高的引诱活性,对雌虫有驱避作用;雄成虫挥发物对雌虫有一定的引诱作用。雌、雄成虫对虫体与竹笋复合体气味的行为和电生理反应均显著或极显著高于对相应虫体挥发物的反应。经EAG测定,触角各部位对虫体不同部位挥发物的EAG值差异明显,触角端部对虫体与植物挥发性物质的联合作用EAG反应差异极其显著(P<0.01)。竹横锥大象对沾染雌雄成虫虫体提取物的玻璃棒有一定的兴奋表现,雌虫兴奋率为6.67%,雄虫为26.67%。结果提示,竹横锥大象种内存在信息素,雌虫释放的信息素对同类雄虫有很强的引诱作用,而雄虫所释放的信息素对同类雌虫有引诱作用,添加寄主植物能够增强两性间的引诱效果。  相似文献   

5.
蚊虫搜寻吸血寄主和产卵行为的调节因子及相关嗅觉机理   总被引:1,自引:0,他引:1  
杜永均  吴仲南 《昆虫学报》2007,50(10):1060-1069
嗅觉在蚊虫的吸血寄主搜寻、产卵和糖源搜寻行为中起决定作用,而在交配行为中的作用并不清楚。本文系统全面地综述了近20年来蚊虫化学生态学和嗅觉识别的分子机理的研究。蚊虫的触角、下颚须和口喙上的嗅觉感器感觉环境中释放的各种挥发性化合物。气味分子与嗅觉气味结合蛋白和气味受体的结合所启动的一系列生化反应产生神经动作电位。蚊虫嗅觉神经元编码气味中化合物的组成、浓度及其暂时瞬间的浓度变化和空间分布。吸血前后神经元的活性在数量和质量上有变化,反映了蚊虫在搜寻吸血寄主和产卵行为上的调节。在吸血寄主搜寻中,人体和动物释放的二氧化碳、乳酸以及其他气味协同引诱蚊虫向目标气味源定向飞行,最后找到吸血寄主。而成熟产卵雌蚊是利用产卵场所释放的腐烂气味寻找适宜的产卵场所,一些蚊虫卵、幼虫或蛹分泌的产卵信息素引诱和刺激雌蚊产卵,并与产卵生境气味起协同作用。植物气味尤其是花香味引诱蚊虫找到蜜源。驱避剂也是直接或间接通过嗅觉起作用,一些驱蚊剂由于阻断嗅觉反应而抑制蚊虫的定向飞行。从植物、动物或人体以及产卵场所释放的气味中有望找到有效的引诱和驱避化合物。对蚊虫嗅觉识别机理的认识将使我们开发出有效的蚊虫诱捕技术,进而应用于种群监测和控制。  相似文献   

6.
【目的】植物的挥发性气味对传粉者的选择具有重要的影响,为探究红阳猕猴桃Actinidia chinensis ‘Hongyang’雌花的挥发性气味对东方蜜蜂Apis cerana和西方蜜蜂Apis mellifera行为反应的差异。【方法】利用顶空固相微萃取与气质联用技术(Headspace solid phase microextraction-gas chromatography-mass spectrometry,HS-SPME-GC-MS)鉴定红阳猕猴桃雌花挥发性物质成分及相对含量,并通过气相色谱-触角电位联用测量系统(GC-EAD)和Y型嗅觉仪测定东方蜜蜂和西方蜜蜂对红阳猕猴桃雌花气味的触角电位和行为反应。【结果】GC-MS结果表明,红阳猕猴桃雌花挥发性气味含有33种成分,包括醇类、酯类、酮类、烃类、萜烯类、醛类、胺类和盐类。GC-EAD结果表明,红阳猕猴桃雌花挥发性物质中7种化合物芳樟醇、壬醛、苯乙醇、2,6,6-三甲基-2-环己烯-1,4-二酮、苯甲酸乙酯、水杨酸甲酯和顺式-3-己烯醇2-甲基丁酸酯能够引起东方蜜蜂和西方蜜蜂的触角反应,而3种化合物乙酸叶醇酯、水杨酸乙酯和β-紫罗酮只引起东方蜜蜂的触角反应。嗅觉行为反应结果表明,红阳猕猴桃雌花的气味对东方蜜蜂具有引诱作用(P> 0.05),引诱率为60%;对西方蜜蜂具有驱避作用(P <0.01),驱避率是67.5%。【结论】东方蜜蜂和西方蜜蜂对红阳猕猴桃雌花挥发性气味的响应存在显著差异,东方蜜蜂对红阳猕猴桃雌花的气味无明显趋性,而西方蜜蜂对红阳猕猴桃雌花的气味具有明显驱避。因此,为红阳猕猴桃授粉时,东方蜜蜂相对于西方蜜蜂更理想。  相似文献   

7.
秋家蝇对两种卫矛植物的趋性   总被引:1,自引:0,他引:1  
蒋金炜  黄翠虹  薛堃  闫凤鸣 《昆虫学报》2008,51(12):1309-1312
卫矛是常见的绿化植物,而秋家蝇Musca autumnalis De Geer是畜牧业的重要昆虫。在室内利用Y型嗅觉仪对欧洲卫矛Euonymus europaeus和胶东卫矛E. kiautschovicus气味对秋家蝇Musca autumnalis De Geer的引诱效果进行了研究。结果表明:两种植物都对秋家蝇的雌性成虫有引诱作用,而欧洲卫矛引诱效果更好。进一步对叶和花的气味进行的观察表明,卫矛吸引秋家蝇主要依靠花的气味,但叶的气味也有一定的吸引作用; 叶的气味对花的引诱效果有增效作用。利用几种试剂(水、乙醇和正己烷)对欧洲卫矛花的气味物质进行了抽提,测试结果表明水或乙醇抽提物比正己烷抽提物引诱效果更好; 冷冻花与新鲜花的引诱效果没有显著的差异。  相似文献   

8.
昆虫对宿主植物的嗅觉定向   总被引:3,自引:0,他引:3  
雷宏 《生物学通报》1995,30(3):9-11
在混虫辨别宿主植物所利用的各种信息中,植物的气味是一个很重要的因素昆虫利用触角上的嗅觉感受器来感觉植物气味。触角电位是昆虫的触角感受到植物气味后所产生的神经反应,而嗅觉编码则是嗅觉感受器将植物的气味信息传至神经中枢的脉冲系列。本文从行为生理学的角度介绍了昆虫利用植物气味寻找宿主植物的过程。  相似文献   

9.
植食性昆虫与寄主植物关系的本质是化学。植食性昆虫搜寻寄主的嗅觉媒介是植物气味即化学信息物质。在介绍植物气味构成及其扩散模型基础上,阐述了植物气味在地上植食性昆虫成虫、幼虫和地下植食性昆虫搜寻寄主过程中的嗅觉导向作用,并指出了今后相关研究需要注意的问题。从植物与环境因子的关系来看,植物气味包括构成性气味和诱发性气味两类,这两类气味的概念既相联系而又不同。构成性气味组分及构成因植物分类地位等而不同。诱发性气味组分因植食性昆虫取食、植物病原微生物、机械致伤等因子的胁迫而变化,这种变化性状随植物属和/或种、植株生长发育阶段、胁迫因子性质及其作用方式而不同。无论是哪种植物气味,其释放均具有节律性。气味扩散过程比较复杂,扩散状态可用数学模型表征。对于地上植食性昆虫成虫,植物气味对其寄主搜寻行为具有导向特异性,重点分析了这种特异性形成的两个假说;鳞翅目昆虫幼虫,能够利用植物化学信息物质趋向寄主植物或回避非寄主植物;地下植食性昆虫搜寻寄主,既与寄主植物地下组织释放或分泌的次级代谢物有关,又与一些初级代谢物有关。初级代谢物中的CO2,起着“搜寻触发器”作用。有助于增强人们对昆虫与植...  相似文献   

10.
黑蝗对植物气味及其挥发性化合物的嗅觉反应(英文)   总被引:3,自引:0,他引:3  
本文使用触角电位技术研究了黑蝗雄虫的嗅觉反应,测试的材料包括5种植物叶片、9种植物挥发性气味化合物及它们的定量混合物。在5种植物材料中,路易斯安纳蒿和紫花苜蓿能引起更大的电位反应,而3种禾本科植物的反应相对较小。在绿色气味化合物中,6-碳醇类如E-2-hexen-l-ol和E-3-hexen-l-ol导致最高的电位反应,而pentenol、3-pentanone与空白对照间并无明显差异。在3种或4种挥发性化合物的混合物中,没有含pentenol的组合总是引起较高的电位。因此,该项研究证明pentenol和3-pentanone在这种多食性黑蝗的嗅觉定位中所起的作用不明显。另外,结合触角电位的数据资料,作者讨论了寄主植物挥发性化合物在该种蝗虫定位和选择寄主植物方面的作用。  相似文献   

11.
Anaphes iole Girault is a frequent parasitoid of Lygus spp. eggs in the United States, and has potential as a biological control agent against Lygus hesperus Knight in different crops. Feeding and oviposition by L. hesperus induce emission of plant volatiles, but studies to date do not address the role of plant volatiles in the host-searching behavior of A. iole. In this study, a four-arm olfactometer was used to test the responses of female parasitoids to odors emanating from cotton (Gossypium hirsutum L., Malvaceae) plants damaged by L. hesperus females, L. hesperus males, larvae of the nonhost Spodoptera exigua Hubner, or mechanically, or to odors from L. hesperus females alone. In addition, various plants damaged by L. hesperus females were evaluated in the olfactometer: cotton, alfalfa (Medicago sativa L., Fabaceae), common groundsel (Senecio vulgaris L., Asteraceae), annual ragweed (Ambrosia artemisifolia L., Asteraceae), and redroot pigweed (Amaranthus retroflexus L., Amaranthaceae). In all olfactometry bioassays, treatment odors were compared against three controls (humidified air). Results showed that A. iole females were consistently attracted to odors derived from different plant–L. hesperus complexes, while odors from plants subjected to nonhost (S. exigua) or mechanical damage and L. hesperus females alone were not attractive or only variably attractive. These findings suggest that while searching for hosts A. iole females use specific volatiles induced by L. hesperus feeding and oviposition to locate hosts inhabiting a wide variety of plants, including annual and perennial species from four plant families. It was suggested that future research should seek to identify the chemical elicitors involved in the release of plant volatiles attractive to A. iole females.  相似文献   

12.
大豆蚜在寄主与非寄主植物上的口针刺吸行为   总被引:10,自引:2,他引:8  
韩心丽  严福顺 《昆虫学报》1995,38(3):278-283
用EPG记录法记录了大豆蚜Aphis glycines Matsunra在寄主和非寄主植物上的口针刺吸行为。结果表明,大豆蚜在寄主大豆植物的韧皮部取食时间长,而在非寄主棉花、黄瓜和丝瓜植物韧皮部取食时间甚短或根本未取食;非寄主植物内部对大豆蚜的侵害存在抗性,影响取食的因素和其所在部位因非寄主植物种类的不同而不同。  相似文献   

13.
The ecology and evolution of pollen odors   总被引:9,自引:0,他引:9  
The literature is reviewed and new evidence presented that pollen produces odors, which serve multiple functions in pollination and defense. Pollen odor, which originates from pollenkitt, comprises volatiles that belong to the same chemical classes found in flower scents, that are in species-specific mixtures, and that contrast with odors of other floral parts. Pollen can also take up volatiles from surrounding floral odors, but this adsorption is selective and varies among species. Pollen odors are more pronounced in insect- than bird- or wind-pollinated plants, suggesting that volatile emission evolved in part under selection to attract pollinators. Pollen-feeding insects can perceive pollen odor and use it to discriminate between different pollen types and host plants. Pollen odor influences bee foraging, including the location of pollen sources, discrimination of flowers with different amounts of pollen, and hostplant recognition by pollen-specialist species. In the few wind-pollinated plants studied, odors of male flowers or pollen are comparatively high in -methyl alcohols and ketones; these volatiles may serve in pollen defense, with some known to repel insects. Pollen odor often includes chemicals with documented defense activity, which is probably aimed mainly at nonpollinator pollen-feeding insects and pathogens; an involvement in pollen allelopathy is also possible. Pollen volatiles comprise chemically diverse compounds that may play multiple roles, and their emission in pollen odor undoubtedly evolved under the principle, and often conflicting, selective pressures to both protect the male gametophyte and increase its dispersal by animals.  相似文献   

14.
The parasitoid Binodoxys communis (Gahan) (Hymenoptera: Braconidae) is a candidate for release against the Asian soybean aphid, Aphis glycines Matsumura (Homoptera: Aphididae), in North America. Using a series of Y-tube olfactometer assays, we recorded responses of naïve and experienced B. communis females to odors from both target and non-target host plant complexes. The non-target host plant complexes included three aphid species native to North America [Aphis monardae Oestlund, Aphis oestlundi Gillette, and Aphis asclepiadis (Fitch)] and one species presumed to be exotic to North America (Aphis nerii Boyer de Fonscolombe), all on their respective host plants. We also investigated whether the parasitoid distinguishes between volatiles from soybean infested with A. glycines vs. those of uninfested plants. Volatiles from A. glycines-infested soybean plants and several non-target host plant complexes elicited a response in B. communis, which seemed to be reinforced through oviposition experience. Wasps with experience on a specific host plant complex increased their response to odors of this complex. Neither naïve nor experienced wasps, however, preferred odors from target vs. non-target host plant complexes in choice tests. Our data also indicate that B. communis is unable to distinguish between volatiles from infested vs. uninfested soybean plants. This study shows that B. communis females respond to a broad array of olfactory stimuli, exhibit low fidelity for any particular odor, and employ some behavioral plasticity in their response to volatile cues. We discuss implications of these results for establishment of B. communis and potential undesirable non-target effects associated with the release of this species in North America.  相似文献   

15.
The tea green leafhopper, Empoasca vitis (Göthe) (Hemiptera: Cicadellidae), is a serious pest of tea plants. We examined the behavioral responses of E. vitis adults to odors from the shoots of three host plants in a Y‐tube olfactometer with background visual cues. The host plants were tea [Camellia sinensis (L.) Kuntze (Theaceae)], peach [Prunus persica (L.) Siebold & Zucc. (Rosaceae)], and grapevine [Vitis vinifera L. (Vitaceae)]. Volatiles from the shoots were analyzed. Both yellow‐green and gold backgrounds enhanced the olfactory responses of E. vitis adults to tea plant odors, and this enhancement was stronger under a high light intensity. On the yellow‐green background, E. vitis adults significantly preferred the odors from shoots of the three host plants compared with clean air. Moreover, E. vitis adults preferred grapevine odor over the tea plant odor. The volatile blends of the three plant species were distinctly different. Peach plant shoots emitted the greatest amount of volatiles, whereas grapevine shoots released the greatest diversity of compounds. These results provide evidence that background visual cues could enhance the response of E. vitis adults to host‐plant volatiles. The leafhoppers can discern different host odors, suggesting the possibility of using peach plant and grapevine odors to monitor and manage this pest in tea plantations.  相似文献   

16.
Black swallowtail females laid more eggs on plant models treated with contact stimulants and volatiles from carrot leaves than on models treated only with contact stimulants. The volatiles enhanced landing rates and females alighted more frequently on artificial leaves treated with host volatiles than on adjacent control leaves. Volatiles from cabbage, a nonhost, inhibited landing rates on artificial leaves treated with carrot contact stimulants. Examination of antennae revealed two major types of sensilla, believed to be olfactory in function. Electroantennogram preparations responded more strongly to carrot volatiles than to cabbage volatiles and several shared responses at particular retention times to carrot volatile components eluting from a gas chromatograph. Our results are consistent with a long-standing hypothesis that behavioral responses to essential oil components characteristic of the larval food plants have facilitated host shifts in the genus Papilio.  相似文献   

17.
Abstract  Electroantennogram responses (EAGs) to 39 plant volatiles from Aphis glycines, A. gossypii and Myzus persicae were recorded. The olfactory system of these three aphid species differentially responded to green leaf, aromatic, mono-and sequiterpene chemicals. The EAG depolarizatin to green leaf chemicals and their isomers were more pronounced than to terpenes, alcohols and aldehydes, 6 carbon atom compounds being the most effective. It was shown that there was certain difference in the olfactory spectra of these three aphid species to plant volatiles. Higher responses in A. glycines and A. gossypii were elicited by the leaf aldehydes and esters than by the corresponding alcohols, which are in contrast with those in M. persicue . The activity of aphid olfactory system was related to molecular structures of the compounds. The responses to saturated alcohols and aldehydes were higher than those to unsaturated. The responses of spring emigrants of A. glycines to terpene derivatives (alcohols, aldehydes and esters) were higher than those of A. gossypii , but were lower to terpene hydrocarbons. The dissimilarity in olfactory spectra of the aphid species reflected the evolution of their host plant selection specificity. In the evolution, their chemosensory system adapted to perceive host plants. The shapes of the EAGs evoked by the various components were consistently different, with the slowest recovery for geraniol, 1-decanol and (±)-β-cit-ronellol, and ware related to number of carbon atoms in straight chain saturated alcohols.  相似文献   

18.
研究了下列害虫和寄生天敌种类对大豆植株中提取的某些挥发性次生化合物及其不同组合混合相的触角电位反应: 1)豆蚜Aphis craccivora Koch和麦长管蚜Macrosiphum avenae (Fabricius);2)为害大豆植株的大豆蚜Aphis glycines Matsumura和不为害大豆植株的豆蚜二者所共有的寄生天敌豆柄瘤蚜茧蜂Lysiphlebus fabarum Marshall; 3)不为害大豆植株的麦长管蚜的寄生天敌燕麦蚜茧蜂Aphidius picipes Nees。结果表明,与大豆植株相关联的大豆蚜和不相关联的豆蚜所共有的天敌——豆柄瘤蚜茧蜂,对大豆植株的挥发性次生化合物及其混合相反应敏感,而与大豆植株不相关联的豆蚜、麦长管蚜及其寄生天敌——燕麦蚜茧蜂,对大豆植株的挥发性次生化合物及其混合相反应不敏感。再次证明,植物挥发性次生化合物在害虫及其寄生天敌搜寻寄主的过程中起到重要的作用。  相似文献   

19.
Aphids are major economic pests of many of the worlds' crops, causing damage directly by feeding and by acting as vectors for plant viruses. By understanding how aphids locate their host plants, it may become possible to develop new means of controlling populations by taking advantage of these natural host location/nonhost avoidance behaviours. Aphids have also become important model organisms in the study of insect–plant interactions and an improved understanding of host location in aphids could yield insights into the behaviour and ecology of other insect orders. The use of olfaction by host‐seeking aphids is well documented and, in recent years, considerable information has been gained on how volatiles can encode host identity and suitability, as well as the specific behaviours they elicit from aphids. The purpose of this review is to highlight the major findings on how aphids respond behaviourally to volatile compounds and how they can use them to locate their host plants and avoid unsuitable hosts.  相似文献   

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