红棕象甲(Rhynchophorus ferrugineus Olivier):最新进展

F. González, Apdo. Heredia Costa Rica ChemTica Internacional S.A., Sayydeh Kharrat, C. Rodríguez, C. Calvo, A. Oehlschlager
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引用次数: 7

摘要

Gonzalez, F., S. Kharrat, C. Rodríguez, C. Calvo和A.C. Oehlschlager. 2019。红棕象甲(Rhynchophorus ferrugineus Olivier):最新进展。植物保护学报,37(2):178-187。红棕榈象甲(rnchophorus ferrugineus)是中东、欧洲和北非地区枣椰树和金丝雀树最重要的害虫。一项重要的管理技术是利用雄性产生的聚集信息素、棕榈产生的凯罗酮(通常是乙酸乙酯)和食物来捕获。后者需要每2-4周更换一次,以保持对陷阱的良好吸引力。许多人认为使用低服务或无服务的陷阱是大规模陷阱技术发展的下一步。最近,一种被称为电子陷阱的陷阱被引入市场,它是一种干燥的、不能使用的陷阱。其所谓的作用机制是基于电磁辐射对昆虫的吸引力。根据制造商的说法,射入陷阱的光被聚焦到一个含有信息素和凯罗蒙的共振腔中,从这个腔中发射出特定频率的电磁辐射,这些电磁辐射接触到昆虫并导致昆虫被陷阱吸引。产生有吸引力的电磁辐射被认为是由于房间内部的镜子包含信息素和凯洛蒙。在本研究中,我们在室中检查了带镜和不带镜的ElectrapTM,并比较了ElectrapTM与标准桶捕集器和改良桶捕集器的有效性。我们的研究结果表明,反射镜并不是吸引R. palmarum到ElectrapTM的必要条件,而“无用的”桶状圈闭同样具有吸引力。我们还确定,ElectrapTM的性能是由于捕获的棕榈象鼻虫被锥形入口点内的鬃毛环保留。通过在顶部的锥形入口点取代侧入口来修改侧入口桶陷阱,可以更好地保留象鼻虫。顶部锥形进入桶式疏水阀保持水的能力是侧面进入桶式疏水阀的3倍。此外,我们还提供了针对马来西亚椰子中RPW的“吸引和杀死”配方测试的数据。诱杀配方使试验地点的监测陷阱捕获量较施用前减少95%以上,有效时间至少为9个月。这两个案例都代表了更好地控制棕榈象鼻虫的新见解和研究途径。
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Red palm weevil (Rhynchophorus ferrugineus Olivier): Recent advances
Gonzalez, F., S. Kharrat, C. Rodríguez, C. Calvo and A.C. Oehlschlager. 2019. Red palm weevil (Rhynchophorus ferrugineus Olivier): Recent advances. Arab Journal of Plant Protection, 37(2): 178-187. Red palm weevil (RPW, Rhynchophorus ferrugineus) is the most important pest of date and Canary palm in the Middle East, Europe and North Africa. An important management technique has been trapping using the male produced aggregation pheromone, a palm produced kairomone (usually ethyl acetate) and food. The latter needs replacement every 2-4 weeks to maintain good attraction to traps. The use of low service or serviceless traps is viewed by many as the next step in the evolution of the mass trapping technique. Recently a trap sold as the Electrap, has been introduced to the market as a dry, serviceless trap. Its alleged mechanism of action is based on the attraction of insects via electromagnetic radiation. According to the manufacturer, light emitted into the trap is focused into a resonance chamber containing pheromone and kairomone and from this chamber specific frequencies of electromagnetic radiation are emitted which contact the insect and result in its attraction to the trap. Generation of the attractive electromagnetic radiation is supposed to be due to mirrors on the internal sides of the chamber containing the pheromone and kairomone. In this study, we have examined the ElectrapTM with and without mirrors in the chamber and compared the effectiveness of the ElectrapTM vs the standard and modified bucket traps using R. palmarum as a surrogate organism. Our findings indicated that mirrors are not necessary for attraction of R. palmarum to the ElectrapTM and that “serviceless” bucket traps are equally attractive. We also determined that the performance of the ElectrapTM is due to retention of captured palm weevils by the bristle ring inside the conical entry point. Modification of side entry bucket traps by substitution of side entry by a conical entry point on the top results in better weevil retention. Top cone entry bucket traps retain water 3X better than side entry bucket traps. Additionally, we also present data for an "attract and kill" formulation tested against RPW in Malaysian coconut. The attract and kill formulation reduced monitoring trap captures in the test site by over 95% from pre-application and is effective for at least 9 months. Both cases represent new insights and research avenues to develop better control of palm weevils.
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