植物-昆虫间的化学通讯及其行为控制

在植物与昆虫间的化学通讯中植物气味物质起着决定性的作用,它调控着昆虫的多种行为,诸如引诱昆虫趋向寄主植物,刺激昆虫取食,引导昆虫选择产卵场所,进行传粉和防御昆虫等。有些植物则当受到食植性昆虫危害时会释出一些引诱害虫天敌的化学信号。这些化学信号是一些挥发性萜类混合物,天敌昆虫就以此来区分受害和未受害植株。尽管目前在害虫综合治理中,昆虫信息素的应用越来越显得比天然植物气味源更受重视,但是必须指出的是,昆虫信息化合物首次成功地使用于植物保护的却是天然植物气味源。在利用植物气味源作害虫测报和防治中,近年来一种简单价廉的粘胶诱捕器己成为多种害虫的标准测报工具。在害虫综合治理中利用植物气味源的技术显然是具有不可估量的潜力。文中提出了利用基因工程技术来改造植物,使植物能释放特定的驱避剂或其它控制昆虫行为的特殊气味物质的新概念。     

植物—昆虫间的化学通讯及其行为控制

在植物与昆虫间的化学通讯中植物气味物质起着决定性的作用,它调控着昆虫的多种行为,诸如引诱昆虫趋向寄主植物,刺激昆虫取食,引导昆虫选择产卵场所,进行传粉和防御昆虫等。有些植物则当受到食植性昆虫危害时会释出一些引诱害虫天敌的化学信号。这些化学信号是一些挥发性萜类混合物,天敌昆虫就以此来区分受害和未受害植株。尽管目前在害虫综合治理中,昆虫信息素的应用越来越显得比天然植物气味源更受重视,但是必须指出的是,昆虫信息化合物首次成功地使用于植物保护的却是天然植物气味源。在利用植物气味源作害虫测报和防治中,近年来一种简单价廉的粘胶诱捕器已成为多种害虫的标准测报工具。在害虫综合治理中利用植物气味源的技术显然是具有不可估量的潜力。文中提出了利用基因工程技术来改造植物,使植物能释放特定的驱避剂或其它控制昆虫行为的特殊气味物质的新概念。     

虫害诱导的植物挥发性次生物质及其对寄生蜂的招引作用

在植物-植食性昆虫-寄生蜂三级营养系统中,虫害诱导的植物挥发性次生物质是当前害虫生物防治、化学生态学和昆虫行为学研究的热点之一.本文概述了虫害诱导的植物挥发性次生物质的特性及其对寄生蜂的招引作用,可望为害虫生物防治研究提供参考.     

虫害诱导植物间接防御反应的激发与信号转导途径

植物通过产生和释放挥发性物质增加植食性昆虫的天敌对其寄主或猎物的定位,减少植食性昆虫对植物的取食,从而达到间接防御的目的。植物对植食性昆虫所做出间接防御反应激发因子和信号转导途径的研究,对应用虫害诱导植物挥发物引诱害虫天敌,并进一步从植物、植食性昆虫及其天敌间三级营养关系,研究动植物协同进化机理和病虫害防治具有深远意义。本文根据国内外最新研究进展,对虫害诱导植物间接防御反应的激发因子,昆虫取食信号的转导途径及对植物间接防御相关基因的激活等方面进行了系统地综述。     

虫害诱导挥发物的生态调控功能

虫害诱导挥发物（herbivore-induced plant volatiles, HIPVs）是植物受害虫胁迫后释放的挥发性物质,是植物与周围环境进行信息交流的媒介。环境中的天敌、害虫和植物通过感知HIPVs所携带的信息,对各自的行为或生理生化反应做出相应的调整。介绍了挥发物的种类及主要的生物合成途径,概括了影响天敌依据HIPVs搜寻寄主和猎物的主要因素。综述了这类挥发性物质对植食性昆虫寄主选择或产卵行为的影响,介绍了植物地上部分和地下部分受害后对彼此间接防御的影响,讨论了多种害虫加害同种植物后对天敌搜寻猎物或寄主行为的影响。另外,作为损伤信号,HIPVs还能诱导同株植物未受害部位和邻近植株的防御反应。最后,对HIPVs在害虫防治中的应用现状及前景作了介绍和讨论。     

水稻挥发性信息化合物对昆虫的作用

植物挥发性化合物是联系植物、害虫和天敌间3层营养关系的关键信息因子。是害虫防治理论与实践的基础．首先,介绍了水稻挥发性信息化合物的基本化学特征及其在植食性昆虫和天敌昆虫寄主选择中的作用;其次,分析了水稻挥发性信息化合物的产生与作用机制及其生态学功能和水稻挥发性信息化合物研究中存在的问题;最后,展望了水稻挥发性信息化合物的研究前景．对水稻挥发性化合物的更进一步研究有两个方向,一是对存在于水稻体内,启动相关代谢途径的小分子信号物质的生理生化和分子生物学特性进行研究;二是研究捕食性节肢动物对信息化合物的接收、识别和学习等行为及与这些行为相关的生理生化和分子基础．     

桑天牛卵长尾啮小蜂的寄主选择定位行为

本文对桑天牛卵长尾啮小蜂Aprostocetus prolixus LaSalle et Huang的寄主选择定位行为进行了系统研究。已有研究表明,寄主植物-寄主昆虫复合体释放的挥发物对寄生蜂有显著的引诱作用。为了查明寄主植物 寄主昆虫复合体中挥发性引诱物质的来源,对不同处理桑枝（正常桑枝、机械损伤桑枝、系统枝、桑天牛Apriona germari（Hope）咬食和产卵桑枝）、桑天牛虫粪及雌雄两性桑天牛所释放的挥发物分别进行了测定。结果显示：不同处理桑枝对寄生蜂都具有显著的引诱作用,而且产卵桑枝的引诱活性最大;桑天牛虫粪的气味对寄生蜂有引诱活性,而雌、雄桑天牛体表挥发物对寄生蜂的引诱效果不明显。桑天牛爬行痕迹对寄生蜂的微栖境接受行为没有影响,而桑天牛虫粪中的信息物质在寄生蜂的微栖境接受过程中起着重要作用。寄生蜂对产卵桑枝段的选择几率明显高于正常桑枝段和咬食桑枝段,而对不同植物上产卵刻槽的选择没有差异; 刻槽表面存在着与此卵寄生蜂寄主识别相关的信息物质。     

异色瓢虫显现变种对寄主的寻找行为研究

本文利用生物测试法,观测了异色瓢虫显现变种对不同寄主上的不同蚜虫的定向和选择行为.结果表明帖梗海棠、毛白杨、柳树在正常的生长状况下,不会产生引诱异色瓢虫的植物挥发性物质,在这些植物受到蚜虫危害以后,会释放出引诱异色瓢虫的植物挥发性物质,而紫藤在正常的生长状况下和蚜虫危害后,都会产生排斥异色瓢虫的化学物质.     

信息化合物对昆虫行为的影响

本文综述了来自寄主植物的挥发性物质和同种昆虫或异种昆虫释放的各种信息素及两者的协同作用的信息化合物对昆虫行为的影响。特别强调了寄主植物的气味物质和昆虫信息素协同作用在昆虫寻找寄主、求偶、交配及天敌在寄主识别过程中的重要地位。昆虫对寄主植物的识别是由于识别了植物气味的由一定组分、按照严格比例组成的化学指纹图。昆虫信息素与植物挥发性物质相结合为昆虫寻找求偶、交配场所提供更复杂或更全面的信息。许多昆虫只有在寄主植物或寄主植物气味存在时 ,才能释放性或聚集信息素。天敌在寄主识别、搜索及定位等一系列过程中 ,来自寄主的食料、寄主本身及两者的互作的信息化合物起重要的作用。研究信息化合物对昆虫行为的影响可以探索昆虫各种行为的内在机理 ,更好的了解寄主—昆虫—天敌三层营养关系的相互作用 ,对利用天然活性化合物防治害虫及生物防治提供理论依据     

植物挥发性信息化学物质在昆虫寄主选择行为中的作用

植物信息化学物质在植食性昆虫的寄主定向、产卵、聚集、传粉等行为中发挥着重要作用,对其进行深入研究,不仅有助于阐明植食性昆虫的寄主选择机理,也可为提出新的害虫防治策略提供理论依据.本文概述了近年来昆虫寄主选择定向中起关键作用的植物挥发性信息化学物质的种类、基本特性和作用方式,并就植物挥发性信息化合物应用前景和目前存在的主要问题进行了讨论.     

两种对云斑天牛有林间诱捕效果的植物源物质

【目的】为了探明对云斑天牛Batocera horsfieldi(Hope)有效的引诱物质。【方法】研究了云斑天牛对白蜡树、山核桃、黄山栾树和野蔷薇4种寄主植物的室内取食偏好性,采用动态顶空吸附法结合气相色谱-质谱联用技术(GC-MS)分析了植物挥发物成分,然后利用触角电位-气相色谱联用技术(GC-EAD)测定植物挥发物对云斑天牛触角的反应,最后对相关化合物进行了野外诱捕试验。【结果】结果表明:云斑天牛最喜欢取食的寄主植物是白蜡树,其次是黄山栾树和山核桃,野蔷薇没有取食;寄主植物挥发物成分中,萜烯类和烷烃类等物质占主要成分,不同寄主植物的挥发物中多种成分存在显著性差异;壬醛引起了云斑天牛显著的GC-EAD反应;最后,林间诱捕试验结果显示,顺-3-己烯醇和壬醛分别在林间诱捕到了一定量的云斑天牛,并且都是雄虫,同时顺-3-己烯醇还诱捕到了星天牛Anoplophora chinensis(Forster)。【结论】试验结果说明,顺-3-己烯醇和壬醛是两种对云斑天牛具有林间引诱效果的植物源物质,同时,顺-3-己烯醇是云斑天牛和星天牛共享的植物源引诱物质。     

Effects of plant volatiles on electrophysiological and behavioral responses of Cryptorrhynchus lapathi

Electroantennogram (EAG), Y‐tube olfactometer, and wind tunnel bioassays were conducted to test the electrophysiological and behavioral responses of Cryptorrhynchus lapathi L. (Coleoptera: Curculionidae) to six individual volatiles and seven essential oils (compounded volatiles). The aim of this study was to select effective plant compounds that can be used in the development of semiochemical‐based push–pull methods for the control of this harmful insect. Male and female C. lapathi displayed strong EAG responses to linoleic acid, α‐pinene, (Z)‐3‐hexen‐1‐ol, geraniol, turpentine oil, and salicylaldehyde. Y‐tube olfactometer assays indicated that salicylaldehyde and α‐pinene elicited strong repellent effects on female C. lapathi. Linoleic acid and (Z)‐3‐hexen‐1‐ol showed greater luring effects on male and female C. lapathi compared with the control. Turpentine oil was stronger repellent, and geraniol showed stronger luring effects on male C. lapathi than the control. Wind tunnel assays with both male and female C. lapathi indicated that salicylaldehyde, α‐pinene, and turpentine oil elicited repellent effects compared with the control. Linoleic acid, (Z)‐3‐hexen‐1‐ol, and geraniol were stronger lures of both male and female C. lapathi than the control. These results provide a basis for the further development of C. lapathi luring and repellent agents.     

A meta‐analysis of insect pest behavioral manipulation with plant volatiles

Many insect pests utilize plant volatiles for host location and untangling the mechanisms of this process can provide tools for pest management. Numerous experimental results have been published on the effect of plant volatiles on insect pests. We used a meta‐analysis to summarize this knowledge and to look for patterns. Our goal was to identify herbivore and plant traits that might explain the herbivores’ behavioral response to plant volatiles in field applications. We scored a total of 374 unique plant volatile‐insect herbivore interactions obtained from 34 published studies investigating 50 herbivore pest species. Attractants had a significant effect on insect herbivore abundance but repellents did not; this latter result could be a result of the comparatively small number of field studies that tested plant volatiles as repellents (3%). Females were significantly more attracted to plant volatile baits than males. The diet breadth of herbivores was independent of a behavioral response to plant volatiles, but more case studies show effects of volatiles on chewers, followed by wood‐borers and sap‐feeders. There are more demonstrations of attraction to plant volatiles in Lepidoptera than in Thysanoptera. The method of plant volatile application had a significant effect on herbivore abundance and increasing the number of chemicals in individual baits attracted more herbivores. The magnitude of the response of herbivores to plant volatiles in forest and agricultural habitats was similar. We explore consistent patterns and highlight areas needing research in using plant volatiles to manage insect pests.     

植物挥发性物质在蚜虫寄主定位中的作用

本文综述了植物挥发性物质的化学性质、研究方法及其在蚜虫寄主定位中的作用     

捕食螨化学生态研究进展

捕食螨是重要的生物防治因子。早在20世纪70年代就发现了捕食螨的性信息素,许多研究证明植物挥发物在捕食螨向猎物定位过程中发挥着至关重要的作用,影响捕食螨寻找猎物的植物挥发物来源于未受害植物、机械损伤植物、猎物危害植物、非猎物危害植物。人工合成的植物挥发物组分对捕食螨具有引诱作用,但引诱活性低于虫害诱导植物释放的挥发性混合物。捕食螨的饲养条件、饥饿程度、学习与经验行为等会影响捕食螨对植物挥发物的反应。介绍了信息素与植物挥发物对捕食螨的作用,并讨论了目前存在的问题和研究前景。     

Patch-Leaving Decision of the Predatory Mite Amblyseius womersleyi (Acari: Phytoseiidae) Based on Multiple Signals from Both Inside and Outside a Prey Patch

We compared the emigration rates of Amblyseius womersleyi from prey patches (leaf disks) of different conditions in airflow containing either infested plant volatiles (volatiles airflow) or uninfested plant volatiles (control airflow). Both airflow and prey patch conditions significantly affected the emigration rates. Emigration rates from patches carrying prey products (feces, exuviae, webs, etc.) and prey eggs were significantly lower in control airflow than in volatiles airflow. Under other patch conditions, the rates were lower in control airflow than in volatiles airflow, although the difference was not significant. In both airflows, the lowest emigration rates were observed when predators were in a heavily infested patch. Patches carrying prey products and prey eggs resulted in lower emigration rates than patches carrying eggs alone and patches emitting prey-infested plant volatiles but carrying no prey. Thus, A. womersleyi appears to decide the timing of emigration based on two criteria: prey products in the patch and prey-infested plant volatiles from outside.     

不同营养层次挥发物对燕麦蚜茧蜂寄主搜寻行为的影响

“Ｙ”型管嗅觉计及风洞测定试验明,小麦植株,麦长管蚜（Sitobion avenae),禾谷缢管蚜（Rhopalosiphum padi)对燕麦蚜蜂（Aphidius avenae)雌蜂的吸引作用较小,而有蚜植株及蚜害植株对其吸引作用较大,并以麦长管蚜有蚜植株的吸引作用最强,尽管该蜂对禾谷缢管蚜的寄生率极你,工作量 由其危害诱导产生的挥发性信息化僵物对该蜂仍具有较强的吸引作用,GC－MS鉴定结果表明,麦蚜取食诱导的挥发性信息化合物主要是2－莰烯,6－甲基－5－已烯－2－酮,顺－3－已酰酸酯有水杨酸甲酯,其中6－甲基－5－已烯－2－酮和6－甲基－5－已烯－2－醇对燕麦蚜划蜂的吸引作用最强,水杨酸酯无明显吸引作用。     

The effects of non-host plant essential oil volatiles on the behaviour of the pollen beetle Meligethes aeneus

The use of semiochemicals for manipulation of the pollen beetle Meligethes aeneus (Fabricius) (Coleoptera: Nitidulidae) is being investigated for potential incorporation into a push‐pull control strategy for this pest, which damages oilseed rape, Brassica napus L. (Brassicaceae), throughout Europe. The response of M. aeneus to non‐host plant volatiles was investigated in laboratory assays to establish whether they have any effect on host plant location behaviour. Two approaches were used. First a novel, moving‐air bioassay using air funnels was developed to compare the response of M. aeneus to several non‐host plant essential oils. The beetles avoided the host plant flowers in the presence of non‐host volatiles, suggesting that M. aeneus uses olfactory cues in host location and/or acceptance. The results were expressed as ‘repellency values’ in order to compare the effects of the different oils tested. Lavender (Lavendula angustifolia Miller) (Lamiaceae) essential oil gave the highest repellency value. In addition, a four‐arm olfactometer was used to investigate olfactory responses, as this technique eliminated the influence of host plant visual and contact cues. The attraction to host plant volatiles was reduced by the addition of non‐host plant volatiles, but in addition to masking the host plant volatiles, the non‐host volatiles were avoided when these were presented alone. This is encouraging for the potential use of non‐host plants within a push‐pull strategy to reduce the pest colonisation of crops. Further testing in more realistic semi‐field and field trials is underway.     

Volatiles from host plant brinjal attract the brinjal Fruit and Shoot Borer -Leucinodes orbonalis Guenee

Brinjal Fruit and Shoot Borer- Leucinodes orbonalis Guenee is a major insect pest on brinjal- Solanum melongena worldwide. An effective strategy used in developing pest controlling agents is the synergism between insect pheromones and host plant volatiles, which can increase the attraction of insect pest. The present study was aimed at investigating the chemical constituents and attractant effects of the volatiles extracted from different parts of the host plant brinjal on the behavior of adult L. orbonalis. Bioassay using Y-shaped olfactometer revealed that the one-day old virgin female, gravid female and male insects respond positively to the host plant volatiles extracted from fruits, leaves and shoots but not to that of flowers. It was shown that the gravid females were significantly attracted to all three volatiles (p < 0.05). Bioassay using X-shaped olfactometer identified that all three types of insects highly preferred the volatiles from fruits (p < 0.05). Gas chromatography-mass spectrometry analysis of volatiles indicated that brinjal plant produces volatile secondary metabolites, which include 2,2′-(Ethane-1,2-diylbis(oxy))bis(ethane-2,1-diyl) dibenzoate (12.11%), 3,7-dimethylocta-1,6-dien-3-ol (22.38%), Benzyl alcohol (22.9%) and Benzyl alcohol (27.06%) as major constituents from fruits, shoots, leaves and flowers respectively. Responses of insects to the volatiles from host plant in the absence of visual cues direct us to focus on the importance of host plant volatiles to locate the plant. Results of this study emphasize the major role that host plant volatiles play in the attraction of insect pests towards the plant.     

Plant–plant communication and community of herbivores on tall goldenrod

1. The volatiles from damaged plants induce defense in neighboring plants. The phenomenon is called plant–plant communication, plant talk, or plant eavesdropping. Plant–plant communication has been reported to be stronger between kin plants than genetically far plants in sagebrush.
2. Why do plants distinguish volatiles from kin or genetically far plants? We hypothesize that plants respond only to important conditions; the induced defense is not free of cost for the plant. To clarify the hypothesis, we conducted experiments and investigations using goldenrod of four different genotypes.
3. The arthropod community on tall goldenrods were different among four genotypes. The response to volatiles was stronger from genetically close plants to the emitter than from genetically distant plants from the emitter. The volatiles from each genotype of goldenrods were different; and they were categorized accordingly. Moreover, the arthropod community on each genotype of goldenrods were different.
4. Synthesis: Our results support the hypothesis: Goldenrods respond to volatiles from genetically close plants because they would have similar arthropod species. These results are important clues elucidating adaptive significance of plant–plant communication.

​