Corcyra cephalonica 和 Spodoptera frugiperda 的正己烷提取物对前蓟马寄生活性的杀虫作用

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-08-21 DOI:10.1007/s10886-024-01534-6
Thokchom Tullika, Kennedy Ningthoujam
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引用次数: 0

摘要

卵寄生虫,特别是毛翅目寄生虫,在全球生物防治工作中发挥着至关重要的作用。它们的行为受到寄主释放的化学物质(如气孔激素)的影响。其中,Trichogramma pretiosum (Riley) (Hym.; Trichogrammatidae)有望成为一种生物防治剂,用于防治破坏性秋陆虫(Spodoptera frugiperda (J.E. Smith) (Lep.; Noctuidae))。鉴于FAW的入侵性和广泛影响,在田间进行早期预防势在必行。本研究旨在评估寄主昆虫(即 Corcyra cephalonica (Stainton) (Lep.; Pyralidae) 和 S. frugiperda kairomones)在优化 T. pretiosum 寄生 S. frugiperda 的性能方面的潜力。每种寄主昆虫的前两种正己烷提取物还被送往新德里的 JNU、AIRF 进行详细的气相色谱-质谱分析。开发了一种四臂嗅觉仪来跟踪 T. pretiosum 的运动,并通过嗅觉线索进行了验证。实验室生物测定显示,从 C. cephalonica 和 S. frugiperda 的卵和蛾中提取的提取物能有效提高 T. pretiosum 的性能。通过培养皿生物测定确定了最佳浓度,C1(10%)浓度的头花菜卵提取物显示出最高的寄生虫活性指数(PAI)、寄生率和成虫出现率。而 C2(1%)浓度的 S. frugiperda 雌虫提取物的寄生率和成虫出现率最高。在多室环境中进行的进一步评估表明,在距离释放点 1 米处放置经处理的卵卡,平均寄生率最高。通过气相色谱-质谱(GC-MS)进行的化学成分分析表明,提取物中含有独特的碳氢化合物和醇类,这表明它们具有在生物防治工作中操纵寄生虫活性的潜力。在 S. frugiperda 雌虫提取物中,鉴定出了 12 种碳氢化合物和 3 个醇类,其中最主要的碳氢化合物是四碳烷,其次是辛烷、新庚烷等。与此同时,头花雌虫卵提取物中显示出 9 种碳氢化合物和 1 个醇类,其中十二烷在碳氢化合物中所占的面积百分比居首位,其次是癸烷、壬烷和其他化合物。目前的研究结果表明,T. pretiosum 能利用头孢蝉和蛙卵中的开环酮,从而增强其对宿主卵的搜索行为。这些凯氏激素化合物的鉴定和合成有可能彻底改变害虫管理,强调了凯氏激素在增强天敌和寄生虫能力以促进可持续农业方面的作用。
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Kairomonal Effect of Hexane Extracts of Corcyra cephalonica and Spodoptera frugiperda on the Parasitizing Activity of Trichogramma pretiosum.

Egg parasitoids, particularly Trichogrammatidae, play a crucial role in global biocontrol efforts. Their behavior is influenced by chemicals emitted by their hosts, such as kairomones. Among them, Trichogramma pretiosum (Riley) (Hym.; Trichogrammatidae) shows promise as a biocontrol agent on destructive Fall Armyworm (FAW), Spodoptera frugiperda (J.E. Smith) (Lep.; Noctuidae). Given the invasiveness and widespread impact of FAW, early-stage prevention in the field is imperative. This study aimed to assess the potential of host insects viz.,Corcyra cephalonica (Stainton) (Lep.; Pyralidae) and S. frugiperda kairomones in optimizing the performance of T. pretiosum while parasitizing S. frugiperda. The top two hexane extracts from each host insect were also sent to JNU, AIRF in New Delhi for detailed GC-MS analysis. A four-armed olfactometer was developed to track the movements of T. pretiosum and validated with olfactory cues. Laboratory bioassays revealed that extracts from C. cephalonica and S. frugiperda eggs and moths effectively enhanced the performance of T. pretiosum. Optimal concentrations were determined through Petri dish bioassays, with C1 (10%) concentration of C. cephalonica eggs extract showing the highest Parasitoid Activity Index (PAI), percent parasitization, and adult emergence. Meanwhile, C2 (1%) concentration of S. frugiperda female extract exhibited the highest parasitization percentage and adult emergence. Further assessments in a polyhouse setting demonstrated that treated egg cards positioned 1 m from the release point achieved the highest mean percentage parasitization. Chemical composition analysis via GC-MS revealed that distinctive hydrocarbon and alcohol profiles in the extracts, suggesting their potential for manipulating parasitoid activity in biocontrol efforts. In the S. frugiperda female extract, 12 hydrocarbons and 3 alcohol groups were identified, with tetracontane as the predominant hydrocarbon compound followed by octane, heneicosane, and others. Meanwhile, the C. cephalonica egg extract displayed 9 hydrocarbons and 1 alcohol group, with dodecane leading in area percentage among the hydrocarbons followed by decane, nonane and others. The outputs of current study highlighted that T. pretiosum's utilization of kairomones from C. cephalonica and S. frugiperda, enhancing its search behavior for host eggs. The identification and synthesis of these kairomonal compounds have the potential to revolutionize pest management, emphasizing the role of kairomones in empowering natural predators and parasitoids for sustainable agriculture.

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ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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