A potential acaricide of Moutan Cortex essential oil encapsulated in nanoemulsion and mesoporous silica nanoparticles against the house dust mite Dermatophagoides farinae

杀螨剂 生物测定 介孔二氧化硅 精油 毒理 化学 生物 食品科学 有机化学 介孔材料 催化作用 遗传学
作者
Qiao Teng,Yuanyuan Li,Yuanyuan Cai,Junjie Guo,Minghui Zou,Qiqi Xue,Xiaoniu Tang,Xiangzi Li,Jinhong Zhao
出处
期刊:Journal of Pest Science [Springer Science+Business Media]
卷期号:98 (2): 673-691 被引量:5
标识
DOI:10.1007/s10340-024-01820-y
摘要

Abstract Moutan Cortex essential oil (MCEO) is considered to be a promising botanical insecticide. However, like most oils, MECO has several limitations, including instability and poor solubility. Nanoencapsulation technology is an excellent strategy for stabilizing essential oils because of its controlled release, enhanced efficacy, and strengthened biological activity. The present study investigated the acaricidal efficacy of pure MCEO and its encapsulated nanoemulsion (NE) and mesoporous silica nanoparticles (MSNs) against the house dust mite Dermatophagoides farinae using contact bioassays, fumigant bioassays, repellent bioassays, and the observation of toxic symptoms. MCEO-MSNs obtained in the study successfully encapsulated MCEO with an encapsulation efficiency of 63.83%. The acaricidal mortality experiments revealed that MCEO-NE and MCEO-MSN showed more significant toxicity against D. farinae than did pure MCEO. The nanomaterials showed better larvicidal and nymphicidal activities than pure MCEO at a high concentration (12-h LC 90 ). Notably, the repellent effect experiment showed that MCEO-NE and MCEO-MSN had long-term and stable repellent effects on D. farinae , indicating the sustained release and persistence of the nanomaterials. More toxicity symptoms were observed in the IM-type group than in the KD-type group, suggesting that the MCEO nanoparticles have adverse effects on the respiratory system. Nanomaterials and MCEO promoted superoxide dismutase (SOD) activity and inhibited acetylcholinesterase (AChE) activity in D. farinae . In addition, the binding sites of paeonol to SOD and AChE were found through molecular docking. These findings demonstrate the potential of MCEO as a biological acaricide, which merits further investigation.

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