Direct and indirect host-related volatile compounds attract a fruit fly parasitoid, Diachasmimorpha longicaudata

IF 1.4 3区 农林科学 Q2 ENTOMOLOGY Entomologia Experimentalis et Applicata Pub Date : 2024-02-06 DOI:10.1111/eea.13417
Francisco Devescovi, Patricia C. Fernández, Guillermo E. Bachmann, Ana L. Nussenbaum, Diego F. Segura
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Abstract

Fruit fly pests (Diptera: Tephritidae) are a serious problem for fruit production and for local and international trade. Biological control is increasingly included as a pest control tool within integrated pest management (IPM) programmes, seeking to reduce pesticides and improve fruit quality. Ceratitis capitata Wiedemann, the Mediterranean fruit fly (medfly), is probably the most damaging fruit fly pest, with a global distribution and more than 200 host species. The solitary larval endoparasitoid Diachasmimorpha longicaudata Ashmead (Hymenoptera: Braconidae) is a biocontrol agent widely used against Tephritidae fruit fly pests. Previous studies showed that female wasps locate host larvae using visual, mechanical, and chemical cues. Here, we investigated the chemical basis of female parasitoid attraction to cues that guide D. longicaudata to the host, and thus unveil volatile organic compounds that might be used in IPM programmes. Female orientation to chemical cues was tested in a Y-tube olfactometer, where attraction to C. capitata-infested oranges, oranges with residues of larval activity, oranges infected with a green mould, and overripe oranges was confirmed. Volatiles from all these types of fruit were collected and used in gas chromatography-electroantennographic detection (GC-EAD) and GC-mass spectrometry (MS) analyses. These studies allowed us to identify six candidate compounds that were present in all treated oranges but not in the control fruit (ripe and uninfested oranges): D-limonene, acetophenone, linalool, nonanal, decanal, and eugenol. Electroantennography (EAG) showed that acetophenone, nonanal, and decanal triggered dose-dependent responses, suggesting a relevant role in the process of host finding. Although responses to D-limonene, linalool, and eugenol were independent of the dose, they could be involved in host location in areas with high probability of host presence. The fact that these six compounds are shared by the four behaviourally attractive sources opens new possibilities for the development of novel tools to improve biocontrol programmes.

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与寄主直接和间接相关的挥发性化合物能吸引果蝇寄生虫--Diachasmimorpha longicaudata
果蝇害虫(双翅目:Tephritidae)是水果生产以及当地和国际贸易的一个严重问题。在虫害综合防治(IPM)计划中,生物防治越来越多地被列为虫害防治工具,以减少杀虫剂用量,提高水果质量。地中海果蝇(Ceratitis capitata Wiedemann)可能是危害性最大的果蝇害虫,分布在全球各地,寄主种类超过 200 种。独居幼虫内寄生虫 Diachasmimorpha longicaudata Ashmead(膜翅目:喙蜂科)是一种生物控制剂,被广泛用于防治 Tephritidae 果蝇害虫。以前的研究表明,雌蜂利用视觉、机械和化学线索来确定寄主幼虫的位置。在此,我们研究了雌性寄生蜂对引导长尾蝇幼虫到达寄主的线索的化学吸引基础,从而揭示了可用于虫害综合防治计划的挥发性有机化合物。雌性寄生虫对化学线索的定向在 Y 型管嗅觉仪中进行了测试,结果表明,雌性寄生虫会被橘皮虫感染的橘子、有幼虫活动残留物的橘子、被绿色霉菌感染的橘子和过熟的橘子所吸引。我们收集了所有这些类型水果的挥发性物质,并将其用于气相色谱-电喷雾检测法(GC-EAD)和气相色谱-质谱法(MS)分析。通过这些研究,我们确定了六种候选化合物,它们存在于所有经处理的橙子中,但不存在于对照水果(成熟和未受虫害的橙子)中:D-柠檬烯、苯乙酮、芳樟醇、壬醛、癸醛和丁香酚。电测听(EAG)显示,苯乙酮、壬醛和癸醛会引发剂量依赖性反应,这表明它们在寻找宿主的过程中发挥了相关作用。虽然对 D-柠檬烯、芳樟醇和丁香酚的反应与剂量无关,但它们可能参与了宿主在宿主出现概率高的区域的定位。四种具有行为吸引力的虫源都有这六种化合物,这为开发新的工具来改进生物防治计划提供了新的可能性。
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来源期刊
CiteScore
3.90
自引率
5.30%
发文量
138
审稿时长
4-8 weeks
期刊介绍: Entomologia Experimentalis et Applicata publishes top quality original research papers in the fields of experimental biology and ecology of insects and other terrestrial arthropods, with both pure and applied scopes. Mini-reviews, technical notes and media reviews are also published. Although the scope of the journal covers the entire scientific field of entomology, it has established itself as the preferred medium for the communication of results in the areas of the physiological, ecological, and morphological inter-relations between phytophagous arthropods and their food plants, their parasitoids, predators, and pathogens. Examples of specific areas that are covered frequently are: host-plant selection mechanisms chemical and sensory ecology and infochemicals parasitoid-host interactions behavioural ecology biosystematics (co-)evolution migration and dispersal population modelling sampling strategies developmental and behavioural responses to photoperiod and temperature nutrition natural and transgenic plant resistance.
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