Addition of Selected Plant-Derived Semiochemicals to Yellow Sticky Traps Does Not Improve Citrus Psyllid Captures

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Dylan A. Pullock, Kerstin Krüger, Aruna Manrakhan, Abdullahi A. Yusuf, Christopher W. Weldon
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Abstract

Fast and effective monitoring and surveillance techniques are crucial for the swift implementation of control methods to prevent the spread of Huanglongbing, a devastating citrus disease, and its invasive psyllid vector, Asian citrus psyllid, Diaphorina citri, into South Africa, as well as to control the native vector, African citrus triozid, Trioza erytreae. Monitoring for citrus psyllid pests can be improved by using semiochemical odorants to augment already visually attractive yellow sticky traps. However, environmental variables such as temperature and humidity could influence odorant release rates. Five field cages were used to test the ability of a selection of odorants to improve yellow sticky trap efficacy in capturing citrus psyllids. Environmental effects on odorant loss from the dispensers were also investigated. The odorants that most improved yellow sticky trap captures in field cages were then tested under open field conditions alongside lower concentrations of those same lures. Gas chromatography-mass spectrometry was used to calculate odorant release rates as well as to determine if any contamination occurred under field conditions. None of the odorants under field cage or field conditions significantly improved psyllid capture on yellow sticky traps. Temperature influenced odorant loss, and release rate from polyethylene bulbs decreased over time. Based on these results, the use of unbaited yellow sticky traps seems to be the most effective method for monitoring of Huanglongbing vectors.

在黄色粘性诱捕器中添加特定植物衍生的半化学物质并不能提高柑橘木虱的捕获率
快速有效的监测和监控技术对迅速实施控制方法至关重要,以防止黄龙病(一种毁灭性柑橘病害)及其入侵虫媒亚洲柑橘虫媒(Diaphorina citri)扩散到南非,并控制本地虫媒非洲柑橘三虫(Trioza erytreae)。通过使用半化学气味剂来增强已有视觉吸引力的黄色粘性诱捕器,可以改善对柑橘木虱害虫的监测。然而,温度和湿度等环境变量会影响气味剂的释放率。我们用五个田间笼子测试了精选气味剂提高黄色粘性诱捕器捕捉柑橘烟粉虱功效的能力。同时还研究了环境对分配器气味损失的影响。然后,在露天条件下测试了在田间笼子中最能提高黄色粘性诱捕器捕获率的气味剂,以及浓度较低的相同诱饵。采用气相色谱-质谱法计算气味释放率,并确定在野外条件下是否发生污染。在野外笼养或野外条件下,没有一种气味剂能明显提高黄色粘性诱捕器上的烟粉虱捕获率。温度会影响气味损失,聚乙烯灯泡的释放率会随着时间的推移而降低。根据这些结果,使用无诱饵黄色粘胶诱捕器似乎是监测黄龙病媒介的最有效方法。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
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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