Nanoemulsion of the Mixture of Citronella Grass Distillation Waste and Piper aduncum Essential Oil to Control Spodoptera frugiperda (Lepidoptera: Noctuidae)

Q3 Multidisciplinary Philippine Journal of Science Pub Date : 2023-05-31 DOI:10.56899/152.03.30
E. Lina, Henny Sonia Febrianty Holeng, N. Nelly, R. Reflin, G. Ernis
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Abstract

Corn production in Indonesia is challenged by the attack of the new invasive pest fall armyworm (Spodoptera frugiperda, Lepidoptera: Noctuidae). This pest is known to be resistant to many synthetic insecticides. Botanical insecticide with nanoemulsion formulation is an option to solve this problem because it was relatively eco-friendly, and the various active components delay insect resistance and insect resurgence. The objectives of this research are to determine the characteristics of the nanoemulsion of the mixture of spiked pepper (Piper aduncum) and citronella grass distillate waste (Cymbopogon nardus) and to test the insecticidal activity of nanoemulsion against Spodoptora frugiperda. The nanoemulsion formulation is made with the spontaneous emulsification method. The leaf dipping technique is applied at the nanoemulsion toxicity test on S. frugiperda larvae. Then, the nanoemulsion formulation is analyzed with PSA and Zetasizer Nano Malyern to measure the particle size and zeta potential. The result of the research shows that the nanoemulsion of the mixture of citronella grass waste and P. aduncum fruit oil has insecticide activity with LC50 = 0.53%. Additionally, it causes mortality and developmental delay in S. frugiperda larvae. The nanoemulsion particle is 273.1 nm. It has homogeneity and an even distribution.
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香茅草蒸馏废液与灰椒精油混合纳米乳防治夜蛾的研究
印度尼西亚的玉米生产受到新的入侵害虫秋粘虫(夜蛾,鳞翅目:夜蛾科)的攻击。众所周知,这种害虫对许多合成杀虫剂有抗药性。纳米乳液型植物杀虫剂是解决这一问题的一种选择,因为它相对环保,而且各种有效成分可以延缓昆虫的抗性和昆虫的复活。本研究的目的是确定尖刺辣椒(Piper aduncum)与香茅草蒸馏废液(Cymbopogon nardus)混合制备的纳米乳的特性,并测试纳米乳对果纹Spodoptora frugiperda的杀虫活性。采用自然乳化法制备纳米乳液配方。采用叶片浸渍技术,对果叶蝉幼虫进行了纳米乳毒性试验。然后,用PSA和Zetasizer Nano Malyern对纳米乳液配方进行分析,测量粒径和zeta电位。研究结果表明,香茅草废与灰荆果油混合制备的纳米乳具有良好的杀虫活性,LC50 = 0.53%。此外,它还会导致frugiperda幼虫死亡和发育迟缓。纳米乳液粒径为273.1 nm。它具有均匀性和均匀分布。
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来源期刊
Philippine Journal of Science
Philippine Journal of Science Multidisciplinary-Multidisciplinary
CiteScore
1.20
自引率
0.00%
发文量
55
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