植物挥发性物质对蚜虫性信息素诱蚜效果的影响(英文)

本研究首先是在不同的寄主植物中利用蚜虫性信息素进行田间诱蚜实验。结果表明寄主植物影响性信息素田间诱蚜的种类和效果。在桃园 ,以蚜虫性信息素荆芥内酯和荆芥醇为性诱剂的水盆诱捕器 ,诱到 3种蚜虫的雄蚜 ,分别是桃蚜、桃粉大尾蚜和莲缢管蚜。其中 ,桃蚜占绝大多数 ,且还被性信息素的单一组分植物提取的荆芥内酯所吸引。麦田中诱到的雄蚜为麦二叉蚜。苹果园中诱到的雄蚜是绣线菊蚜和梨中华圆尾蚜 ,且性信息素诱捕器中的数目远多于对照诱捕器。据田间诱蚜实验结果推测 ,荆芥内酯和荆芥醇对桃粉大尾蚜有吸引作用 ,荆芥内酯可能是绣线菊蚜和梨中华圆尾蚜性信息素的一个组分。另外进行的田间实验表明寄主植物挥发性物质对蚜虫性信息素诱蚜效果有影响 ,当荆芥内酯诱捕器同时释放桃叶挥发物时 ,诱到的桃蚜雄蚜数量明显增加。触角电位记录实验也表明桃蚜雄蚜对桃叶挥发物和桃芽挥发物有反应。     

蚜虫雄蚜与雌性母对性信息素及植物挥发物的田间反应

田间观察了桃蚜Myzus persicae (Sulzer)、绣线菊蚜Aphis spiraecola Patch 、山楂圆疣蚜Ovatus crataegarius (Walker)等3种蚜虫对性信息素[(4aS,7S,7aR)-荆芥内酯和 (1R,4aS,7S,7aR)-荆芥醇]的反应,并且调查了性信息素与植物挥发物对桃蚜的田间引诱活性的相互作用.在有冬寄主或夏寄主植物的田中,性信息素诱捕器诱捕到桃蚜雄蚜与雌性母的数量显著多于对照诱捕器的诱捕数;但在非寄主植物的田中,却引诱不到桃蚜.苯甲醛(冬寄主植物桃树Prunus persica的主要挥发物组分之一)能够增强桃蚜雄蚜的引诱作用.绣线菊蚜雄蚜和雌性母对植物中提取的荆芥内酯有反应,而山楂圆疣蚜雄蚜和雌性母对植物中提取的和人工合成的荆芥内酯都没有反应,但对荆芥醇有反应.并且在荆芥醇中添加荆芥内酯之后对山楂圆疣蚜雄蚜引诱活性显著提高.还讨论了雌性蚜产生化合物被雄蚜作为性信息素、被雌性母作为聚集信息素以及性信息素与寄主植物挥发物的相互作用.     

植物提取物和药剂对蔬菜蚜虫种群的联合控制作用

研究白蝴蝶(Syngonium podophyllum)乙醇提取物、苍耳(Xanthium sibiricum)乙醇提取物、机油乳剂和0.3%印楝素乳油对桃蚜(Myzus persicae)和萝卜蚜(Lipaphis erysimi)的控制效果.室内四因子(1/2实施)二次正交回归旋转组合设计测试对有翅蚜的忌避作用,结果表明,对有翅桃蚜的主要忌避作用物为苍耳乙醇提取物,当苍耳提取物与白蝴蝶乙醇提取物混用,以及机油乳剂和印楝素混用时,对桃蚜有翅蚜的忌避效果提高;而对萝卜蚜有翅蚜的忌避作用主要受苍耳提取物和白蝴蝶提取物的影响.这些干扰作用均是非线性的.田间试验结果,单独使用白蝴蝶提取物对有翅成蚜有较强的驱避作用;对萝卜蚜自然种群的干扰控制作用以4种植物提取物和药剂混配效果最好,达95.7%;对桃蚜自然种群干扰控制效果最好的则是白蝴蝶提取物,控制效果达87%;同时,白蝴蝶提取物与印楝素乳油混配以及苍耳提取物与印楝素乳油混配,对两种蚜虫的控制效果均达80%以上.     

桃粉大尾蚜及其天敌空间格局的研究

<正> 桃粉大尾蚜 Hyalopterus amygdali Blanchard是桃树的常见害虫,重发年份不仅影响产量和品质,而且降低树势。桃粉大尾蚜的空间分布格局直接影响调查抽样结果的准确性。为了科学抽样,提高测极准确性,为适时开展防治提供依据,特开展本研究。     

蚜虫性信息素田间引诱雄性桃蚜研究(英文)

据报道许多蚜虫性信息素的主要成分是（＋）-（1R,4aR,7S,7aR）-荆齐醇和（＋）－（4aS,7S,7aR）-荆芥内酯。应用这两种物质在1995年和1996年进行引诱桃蚜MyzusPersicae雄蚜的田间试验,在桃园的试验中取得了良好的效果,初步摸索出田间应用最佳时间与合适的配比。     

茶互利素和蚜性信息素及其组合调控大草蛉行为的效应

茶蚜群聚于茶梢上刺吸,而茶梢是加工名优茶的原料,不便施药治蚜。大草蛉虽是茶蚜主要天敌之一,但在自然情况下不足以控制茶蚜。遂探讨以茶梢互利素、蚜虫性信息素及其组合引诱大草蛉制约茶蚜的技术。使用顶空吸附法采集蚜害茶梢和健康茶梢挥发物,经GC-MS分析发现蚜害茶梢(E)-2-戊烯醛、苯甲醛和α-法尼烯的含量丰富。将蚜害茶梢挥发物中16种主要成分、蚜虫性信息素荆芥内酯和荆芥醇、以及α-法尼烯、苯甲醛和荆芥醇的2∶2∶6比例混合物分别制成味源,这19种味源的剂量都是200!g。经检测发现荆芥醇、荆芥内酯、α-法尼烯、(E)-2-戊烯醛和苯甲醛引起大草蛉的EAG值明显大于其它13种单组分引起的EAG值,而小于α-法尼烯、苯甲醛和荆芥醇混合物引起的EAG值。再将荆芥内酯和荆芥醇分别按7种比例配成7种味源,还把α-法尼烯、苯甲醛和荆芥醇的2∶2∶6比例混合物、以及(Z)-3-己烯-1-醇、(E)-2-戊烯醛、(E)-2-己烯醛、苯甲醛和α-法尼烯分别作为味源,用这13种味源分别制成的诱芯于秋季茶园中诱集大草蛉,每个诱芯含有信息物质总量是10 mg,结果表明:α-法尼烯、苯甲醛和荆芥醇混合物的诱效最强,称为大草蛉诱集剂;荆芥内酯和荆芥醇1∶9或0∶10比例的混合物诱效次之。深秋置大草蛉诱集剂诱芯于蚜群中,可诱来许多大草蛉成虫捕食茶蚜,并产卵于茶园中而增加大草蛉幼虫越冬基数,翌年春季就近捕食越冬蚜卵孵化的茶蚜。该诱集剂及其使用技术可作为一种治理茶蚜手段。     

模糊聚类分析青梅桃粉大尾蚜种群动态

本文采取模糊聚类方法,分析青梅桃粉大尾蚜发生规律,从聚类分析中可以看出桃粉大尾蚜种群在时间序列上亲疏关系的动态特征,初步认为可分为5个状态集,并简要阐述了各自特点,为指导防治提供了科学依据。     

不同寄主上桃粉大尾蚜的取食偏好及形态变异研究

【目的】桃粉大尾蚜Hyalopterus pruni Geoffroy是一种常见的农业害虫,分布广泛。本文对采自上海地区粘核毛桃Amygdalus persica L.var.scleropersica(Reich.)Yüet Lu、紫叶李Prunus cerasifera Ehrhar f.atropurpurea(Jacq.)Rehd.和芦苇Phragmites australis(Cav.)Trin.ex Steud.3种植物上桃粉大尾蚜的取食偏好和形态变异进行了研究。【方法】通过叶碟法观测桃粉大尾蚜对3种寄主叶片的取食偏好,同时测量体长、体宽、触角各节长、喙末端长和宽、各足节长等30个形态指标,基于对形态数据的统计分析,包括主成分分析、聚类分析和判别分析,研究不同寄主植物上桃粉大尾蚜的形态变异。【结果】饲以3种寄主植物叶片时,来自粘核毛桃和芦苇上的桃粉大尾蚜对各寄主叶片的总体喜食程度依次为芦苇>粘核毛桃>紫叶李,来源于紫叶李上的个体对3种叶片的喜食程度为芦苇>粘核毛桃=紫叶李;形态数据分析发现粘核毛桃和紫叶李上的桃粉大尾蚜各指标间均无显著差异(P>0.05),但二者与芦苇上的个体在触角节Ⅱ、触角末节鞭部长、喙末端长和中足胫节的长度间差异显著(P<0.05),紫叶李与芦苇上的个体前足跗节Ⅰ长这一指标差异显著(P<0.05),此外,主成分分析筛选的体长、头宽、触角各节和各足长度等特征构成的前四个主成分对总体方差的累计贡献率达到66.206%,其中贡献率较高的特征为触角和各足节长度,系统聚类和典型判别分析的结果显示采自芦苇上的桃粉大尾蚜区别于粘核毛桃和紫叶李上的,归为一类,同为蔷薇科植物的紫叶李和粘核毛桃上的桃粉大尾蚜克隆有小部分重叠。【结论】禾本科植物上的桃粉大尾蚜种群形态特征与蔷薇科植物上的相比,触角节Ⅱ和末节鞭部、喙末端长、中足胫节的长度存在一定的分化,初步推测造成桃粉大尾蚜形态分化的原因主要为寄主植物营养成分及其表面特征,其种内变异的具体机制仍需进一步探索。     

烟蚜茧蜂对蚜虫信息素及烟草挥发物的触角电位反应

利用触角电位(EAG)技术测定了烟蚜茧蜂(Aphididius gifuensis)对蚜虫性信息素(荆芥醇和荆芥内酯)和报警信息素(反-β-法尼烯)以及烟草挥发性物质的电生理反应.结果表明:雌蜂和雄蜂对蚜虫性信息素、报警信息素、烟草挥发物均有反应,但雌雄蜂对这些化学信息物质的嗅觉敏感性存在差异,雌蜂对荆芥醇、荆芥内酯、顺-3-己烯-1-醇、反-2-己烯醛、水杨酸甲酯和里那醇的EAG反应都大于雄峰,证明雌雄蜂在利用寄主栖境中信息化学物质方面存在不同的策略,它们分别识别了不同的有关寄主的化学指纹图;烟蚜茧蜂对烟草气味组分具有不同的敏感性,对绿叶气味组分的EAG反应要强于对萜类化合物的反应,绿叶气味组分很有可能在其寻找桃蚜的过程中发挥远距离定向作用.     

蚜虫性信息素

蚜虫属同翅目蚜总科,是重要的农作物害虫。蚜虫长年行孤雌生殖,在中、高纬度深秋时,产生性蚜,以卵越冬。雌性蚜分泌性信息素荆芥内酯(nepetalactone)和荆芥醇(nepetalactol)。该文综述了蚜虫性信息素的结构与组分、性腺的形态结构、性信息素释放及影响因素;性信息素对雌性母和天敌的引诱作用;性信息素在蚜虫种间隔离中的地位和作用以及蚜虫性信息素在蚜虫防治中的应用前景。     

Electroantennogram and behavioural responses of different forms of the bird cherry-oat aphid,Rhopalosiphum padi,to sex pheromone and a plant volatile

Winged (alate) virginoparae were induced in the laboratory by crowding the bird cherry-oat aphid, Rhopalosiphum padi (L.) under long-day conditions. Males and gynoparae (the winged female form that produces sexual females) were induced by short days. Electroantennogram (EAG) and behavioural responses were investigated in each of the three forms to two aphid sex pheromone components, (-)-(4aS,7S,7aR)-nepetalactol and (+)-(4aS,7S,7aR)-nepetalactone, and benzaldehyde, a volatile which is released by the winter host plant. All three compounds elicited EAG responses with the males showing the highest sensitivity to each compound. Both the nepetalactol and the nepetalactone elicited larger EAG responses in gynoparae than in the winged virginoparae but antennae from virginoparae were more responsive to benzaldehyde. Although the nepetalactone is not a sex pheromone component in R. padi the EAG responses were similar to those evoked by the nepetalactol, the sex pheromone, in all three aphid forms. In a linear-track olfactometer, significantly more male R. padi moved into air containing nepetalactol, nepetalactone or benzaldehyde than into a simultaneous choice of clean air (i.e. attraction) but nepetalactol was more attractive than nepetalactone. Males, however, showed no response to a mixture of nepetalactol and nepetalactone. Gynoparae were attracted only to the nepetalactol but were less sensitive than the males and showed no response to the nepetalactone or benzaldehyde. In contrast, alate virginoparae showed no behavioural responses to any of the compounds. The present study supports the idea that the male R. padi utilise both sex pheromone and benzaldehyde for mate/host-plant location in autumn. It also demonstrates, for the first time, polyphenic differences in the olfactory responses at the peripheral level between the two female forms. Such differences impact on the life-cycle strategy where winged virginoparae move between graminaceous summer host plants while gynoparae move from the summer hosts to the bird cherry, winter host. The latter move appears to be assisted by the sex pheromone released by sexual females, already present on that host, acting as an aggregation pheromone.     

RELEVANCE OF PLANT VOLATILES TO SEX PHERO‐MONE IN LURING APHIDS IN THE FIELD1

Abstract Outdoor trials were made to test the responses of male aphids to pheromone lures in fields with different host‐plants, in order to know whether host‐plants would affect catches of males to pheromone lures. In peach orchard, males of three aphid species, i.e. Myzus persicae, Hyalopterus amygdali and Rhopalosiphum nymphaeae, were found in traps baited with aphid sex pheromone nepetalactone and nepetalactol. The most numerous numbers was M, persicae and it was also attracted by plant‐derived nepetalactone alone in peach orchard and cabbage garden. Schizaphis graminum males were caught in water traps in wheat field. In apple orchard, males of two aphid species, Aphis cifricola and Sappaphis sinipiricola were caught in significantly larger numbers in the pheromone traps than in the control traps. Field study indicated that the sex pheromone of H. amygduli comprises either one or both of nepetalactone and nepetalactol, and nepetalactone may be one component of sex pheromones of A cifricola and S sinipiricola Another field trial had shown that catches were increased if volatiles from a steam‐distilled extract of peach leaves were released simultaneously with nepetalactone. Elec‐troantennograms (EAGs) were recorded from males of M. persicae to volatiles of peach leaves and buds.     

Electroantennogram responses of the three migratory forms of the damson-hop aphid, Phorodon humuli, to aphid pheromones and plant volatiles

Electroantennogram (EAG) responses were recorded from alate fundatrigeniae (spring migrants), gynoparae (the winged female form that produces sexual females) and males, the three migratory forms of the damson-hop aphid, Phorodon humuli (Schrank). EAG responses of gynoparae and males showed typical dose response characteristics to (E)-2-hexenal, (-)-R-carvone, hexanenitrile and (1RS,4aR,7S,7aS)-nepetalactol, the sex pheromone of this species. The 34 plant volatiles elicited broadly similar EAG response profiles in the three migratory forms. Green leaf volatiles produced large responses in all forms; however, the relative order of responsiveness varied. EAG responses to isomers of the monoterpene carvone differed between forms, with males being most, and spring migrants least, responsive. The hop-plant volatile and aphid alarm pheromone, (E)-beta-farnesene, evoked similar EAG responses in all forms. By contrast, males were most responsive to the three sex pheromone components, (-)-(4aS,7S,7aR)-nepetalactol, (+)-(4aS,7S,7aR)-nepetalactone and (1RS,4aR,7S,7aS)-nepetalactol. Males were no more responsive to their own sex pheromone, (1RS,4aR,7S,7aS)-nepetalactol, than to the other aphid sex pheromone components tested. Spring migrants and gynoparae also responded to the three sex pheromone components. This study indicates that migratory forms of P. humuli detect a wide range of volatile compounds, and that they are equally well-adapted for the detection of volatiles associated with host and non-host plants and with other species of aphid.     

Electrophysiological characterisation of olfactory sensilla in the black bean aphid, Aphis fabae

Electrophysiological responses of three different olfactory sensilla (proximal primary rhinaria (PPR), distal primary rhinaria (DPR) and secondary rhinaria (SR)) to the sex pheromone components, nepetalactol, nepetalactone, and a plant volatile, (E)-2-hexenal, were investigated in four different morphs of the black bean aphid, Aphis fabae Scopoli. The DC responses recorded directly from the antennal sensilla and termed electrosensillograms (ESGs) were generally much larger (up to 14 mV) than electroantennogram (EAG) responses (up to 2.5 mV). Characteristic morph-specific response profiles to these compounds were observed in each type of rhinarium and response waveforms were different between (E)-2-hexenal and the sex pheromone components. (E)-2-Hexenal elicited the largest responses at PPR, while nepetalactol and nepetalactone elicited the largest responses at SR in gynoparae and males. Nepetalactol and nepetalactone also showed significant activities on DPR and PPR in all morphs. In contrast, (E)-2-hexenal had almost no activity on SR. However, almost all of the SR investigated in males and gynoparae were sensitive to both nepetalactol and nepetalactone. A small sub-set of male SR responded mainly to nepetalactol. SR of winged virginoparae did not respond to the sex pheromone compounds. Paraffin oil (the solvent control) also elicited significant responses at PPR in virginoparae but not in other morphs. In a further experiment, SR of winged virginoparae showed no response to 30 other plant volatile compounds or the alarm pheromone component, (E)-beta-farnesene. Nepetalactol and nepetalactone had similar dose-response profiles in the SR of gynoparae. The results indicate that SR in males and gynoparae are highly specialised to detect sex pheromone compounds, while the DPR and PPR are relatively broadly tuned to both plant volatiles and sex pheromone components. The presence of SR in winged virginoparae that are not responsive to sex pheromone components, alarm pheromone, or any of the plant volatile compounds tested may indicate a possible role of these sensilla to detect, as yet, unknown compound(s) with a high specificity. The present study also suggests that PPR may play a role in detecting paraffin-related compounds such as cuticular hydrocarbons of plants.     

Functional specialisation and polyphenism in aphid olfactory sensilla

Electroantennogram (EAG) responses to the aphid sex pheromone components, (1R,4aS,7S,7aR)-nepetalactol and (4aS,7S,7aR)-nepetalactone, and a plant volatile, (E)-2-hexenal, were investigated at three different positions (5/6th, 4/5th and 3/4th inter-segmental regions) along the antennae of four different morphs in two host-alternating aphid species, Aphis fabae Scopoli and Rhopalosiphum padi (L.). Position-dependent and morph-specific EAG responses were elicited in both species. The nepetalactol and nepetalactone isomers elicited large EAG responses at all three recording positions in males of both species, such that primary rhinaria as well as secondary rhinaria appeared to respond. Asexual female morphs showed relatively smaller EAG responses to these compounds. The secondary rhinaria, which have been reported as sex pheromone receptors in males, were not very different in their number and distribution between gynoparae and alate virginoparae, but the gynoparae showed significantly larger EAG responses to nepetalactol and nepetalactone. The alate virginoparae showed EAG responses that were similar to those of apterous virginoparae, which lack secondary rhinaria. Taking the EAG response profiles together with the distribution of the secondary rhinaria, it is suggested that the function of secondary rhinaria differs between the morphs. Secondary rhinaria appear to detect sex pheromone components in males and gynoparae but not in the alate virginoparae. If they are functional in the latter morph, they are likely to play a role in detecting specific, but as yet unknown, volatile compounds. Some 30 plant volatiles were tested but none evoked an EAG response that could be allocated to the secondary rhinaria. In contrast to the very different EAG response profiles to the pheromone compounds between morphs, EAG responses to (E)-2-hexenal were similar in all forms and both species. These findings suggest that this plant volatile was detected only by the two primary rhinaria, which are common to all morphs. The present study showed that EAG responses were not a simple summation of receptor potentials between recording and reference electrodes in aphids. The localised distribution pattern of olfactory receptor neurones around the recording electrode was also likely to contribute to the EAG responses.     

MALE PEACH APHID ATTRACTION IN THE FIELD BY SEX PHEROMONES1)

Abstract Field trials by sex pheromone of aphid to trap peach aphids Myzus persicae have been carried out in 1995 and in 1996. Suitable time and the effect of ratio of two components nepetalactone and nepetalactol to apply the lure have been observed.     

Perception of volatiles associated with sex and food by different adult forms of the black bean aphid, Aphis fabae

Abstract. Electroantennograms (EAGs) were recorded from adult male and asexual forms (winged and wingless virginoparae and gynoparae) of the black bean aphid, Aphis fabae , during stimulation with two sex pheromone components, (+)-(4a S ,7 S ,7a R )-nepetalactone and (-)-(1 R ,4a S ,7 S ,7a R )-nepetalactol, as well as six plant volatiles, i.e. ( E )-2-hexenal, ( E )-2-hexenol-1, ( Z )-3-hexenol-1, ( Z )-3-hexenyl acetate, hexanal and allyl isothiocyanate. The male antennae are 1000-10,000 times more sensitive to nepetalactol and nepetalactone than to the plant compound ( E )-2-hexenal. Besides this marked difference of EAG peak responses in males, the EAG rise and decay are slower for the sex pheromone components. Males are also much more sensitive to the sex pheromone components than asexual females. This high sensitivity correlates with a predominance of antennal secondary rhinaria, the major sites of pheromone perception in the male. However, it is the primary rhinaria on the antennae of the wingless asexual females that are responsible for pheromone perception. Male antennae are as responsive as the asexual female antennae to the plant volatiles. The specialization of the male for mate location is discussed.