Basu Dev Kafle, Anthony O. Adesemoye, Henry Y. Fadamiro
{"title":"作为专性和通性内寄生虫宿主识别线索的角质碳氢化合物","authors":"Basu Dev Kafle, Anthony O. Adesemoye, Henry Y. Fadamiro","doi":"10.1007/s00049-024-00410-9","DOIUrl":null,"url":null,"abstract":"<div><p>The chemical composition of cuticular hydrocarbons differs qualitatively and quantitatively among insect species. These differences convey species-specific information about host suitability to foraging parasitoids, enabling them to discriminate between the host and non-host species. Specialist parasitoids that parasitize fewer host species are predicted to use host-specific cues compared to generalists that have evolved to use common cues present in multiple potential host species. Here, we tested the above hypothesis by evaluating two parasitoids with varying levels of host specificity, <i>Microplitis croceipe</i>s (specialist) and <i>Cotesia marginive</i>ntris (generalist), for their responses to cuticular extracts of three caterpillar species, <i>Chloridea virescens</i>, <i>Helicoverpa zea</i>, and <i>Spodoptera exigua</i>. First, we compared the cuticular profiles of the three caterpillar species and found that <i>C. virescens</i> and <i>H. zea</i> were qualitatively similar in cuticular composition, whereas <i>S. exigua</i> differed qualitatively and quantitatively from the other two. In contact bioassays, both parasitoid species were behaviorally arrested by the host cuticular extracts, with specialist <i>M. croceipes</i> able to discriminate between the cuticular extracts of its host and non-host caterpillar species. Assessment with the coupled gas chromatography-electroantennogram detection (GC-EAD) revealed qualitative and quantitative differences in parasitoids’ antennal responses to the components of cuticular extracts of host species, with <i>M. croceipes</i> showing greater antennal response than generalist <i>C. marginiventris</i>. The data implicated 13-methylhentriacontane as a probable host-specific kairomone used by specialist <i>M. croceipes</i>. These results suggest that specialist parasitoids like <i>M. croceipes</i> may exploit the differences in the composition of cuticular chemicals of caterpillars as cues for host recognition and discrimination.</p></div>","PeriodicalId":515,"journal":{"name":"Chemoecology","volume":"34 4","pages":"149 - 161"},"PeriodicalIF":1.6000,"publicationDate":"2024-07-29","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Cuticular hydrocarbons as host recognition cues in specialist and generalist endoparasitoids\",\"authors\":\"Basu Dev Kafle, Anthony O. Adesemoye, Henry Y. Fadamiro\",\"doi\":\"10.1007/s00049-024-00410-9\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"<div><p>The chemical composition of cuticular hydrocarbons differs qualitatively and quantitatively among insect species. These differences convey species-specific information about host suitability to foraging parasitoids, enabling them to discriminate between the host and non-host species. Specialist parasitoids that parasitize fewer host species are predicted to use host-specific cues compared to generalists that have evolved to use common cues present in multiple potential host species. Here, we tested the above hypothesis by evaluating two parasitoids with varying levels of host specificity, <i>Microplitis croceipe</i>s (specialist) and <i>Cotesia marginive</i>ntris (generalist), for their responses to cuticular extracts of three caterpillar species, <i>Chloridea virescens</i>, <i>Helicoverpa zea</i>, and <i>Spodoptera exigua</i>. First, we compared the cuticular profiles of the three caterpillar species and found that <i>C. virescens</i> and <i>H. zea</i> were qualitatively similar in cuticular composition, whereas <i>S. exigua</i> differed qualitatively and quantitatively from the other two. In contact bioassays, both parasitoid species were behaviorally arrested by the host cuticular extracts, with specialist <i>M. croceipes</i> able to discriminate between the cuticular extracts of its host and non-host caterpillar species. Assessment with the coupled gas chromatography-electroantennogram detection (GC-EAD) revealed qualitative and quantitative differences in parasitoids’ antennal responses to the components of cuticular extracts of host species, with <i>M. croceipes</i> showing greater antennal response than generalist <i>C. marginiventris</i>. The data implicated 13-methylhentriacontane as a probable host-specific kairomone used by specialist <i>M. croceipes</i>. 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引用次数: 0
摘要
不同昆虫物种的角质层碳氢化合物化学成分在质量和数量上都存在差异。这些差异向觅食的寄生虫传递了关于寄主适宜性的物种特异性信息,使它们能够区分寄主和非寄主物种。据预测,寄生较少寄主物种的专性寄生虫会使用寄主特异性线索,而一般寄生虫在进化过程中会使用存在于多个潜在寄主物种中的共同线索。在这里,我们通过评估两种具有不同程度寄主特异性的寄生虫--Microplitis croceipes(专性寄生虫)和 Cotesia marginiventris(通性寄生虫)--对 Chloridea virescens、Helicoverpa zea 和 Spodoptera exigua 三种毛虫的角质提取物的反应,验证了上述假设。首先,我们比较了这三种毛虫的角质层特征,发现 C. virescens 和 H. zea 的角质层成分在质上相似,而 S. exigua 则在质和量上与其他两种毛虫不同。在接触性生物测定中,两种寄生虫都会被寄主的角质萃取物抑制行为,其中专一的 M. croceipes 能够区分寄主和非寄主毛虫物种的角质萃取物。利用耦合气相色谱-电子触角图检测(GC-EAD)进行的评估显示,寄生虫对寄主物种的角质萃取物成分的触角反应在质和量上存在差异,羊角蝇的触角反应比一般的边缘毛虫大。这些数据表明,13-甲基苯三齿烷可能是专一的羊角蝠使用的宿主特异性气孔激素。这些结果表明,羊角蝠等专性寄生虫可能会利用毛虫角质层化学成分的差异作为识别和区分寄主的线索。
Cuticular hydrocarbons as host recognition cues in specialist and generalist endoparasitoids
The chemical composition of cuticular hydrocarbons differs qualitatively and quantitatively among insect species. These differences convey species-specific information about host suitability to foraging parasitoids, enabling them to discriminate between the host and non-host species. Specialist parasitoids that parasitize fewer host species are predicted to use host-specific cues compared to generalists that have evolved to use common cues present in multiple potential host species. Here, we tested the above hypothesis by evaluating two parasitoids with varying levels of host specificity, Microplitis croceipes (specialist) and Cotesia marginiventris (generalist), for their responses to cuticular extracts of three caterpillar species, Chloridea virescens, Helicoverpa zea, and Spodoptera exigua. First, we compared the cuticular profiles of the three caterpillar species and found that C. virescens and H. zea were qualitatively similar in cuticular composition, whereas S. exigua differed qualitatively and quantitatively from the other two. In contact bioassays, both parasitoid species were behaviorally arrested by the host cuticular extracts, with specialist M. croceipes able to discriminate between the cuticular extracts of its host and non-host caterpillar species. Assessment with the coupled gas chromatography-electroantennogram detection (GC-EAD) revealed qualitative and quantitative differences in parasitoids’ antennal responses to the components of cuticular extracts of host species, with M. croceipes showing greater antennal response than generalist C. marginiventris. The data implicated 13-methylhentriacontane as a probable host-specific kairomone used by specialist M. croceipes. These results suggest that specialist parasitoids like M. croceipes may exploit the differences in the composition of cuticular chemicals of caterpillars as cues for host recognition and discrimination.
期刊介绍:
It is the aim of Chemoecology to promote and stimulate basic science in the field of chemical ecology by publishing research papers that integrate evolution and/or ecology and chemistry in an attempt to increase our understanding of the biological significance of natural products. Its scopes cover the evolutionary biology, mechanisms and chemistry of biotic interactions and the evolution and synthesis of the underlying natural products. Manuscripts on the evolution and ecology of trophic relationships, intra- and interspecific communication, competition, and other kinds of chemical communication in all types of organismic interactions will be considered suitable for publication. Ecological studies of trophic interactions will be considered also if they are based on the information of the transmission of natural products (e.g. fatty acids) through the food-chain. Chemoecology further publishes papers that relate to the evolution and ecology of interactions mediated by non-volatile compounds (e.g. adhesive secretions). Mechanistic approaches may include the identification, biosynthesis and metabolism of substances that carry information and the elucidation of receptor- and transduction systems using physiological, biochemical and molecular techniques. Papers describing the structure and functional morphology of organs involved in chemical communication will also be considered.