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小檗属植物制备的银纳米颗粒对白纹伊蚊、华丽巨蚊和嗜热中剑水蚤的生物合成、表征及急性毒性研究

Biosynthesis, characterization, and acute toxicity of Berberis tinctoria-fabricated silver nanoparticles against the Asian tiger mosquito, Aedes albopictus, and the mosquito predators Toxorhynchites splendens and Mesocyclops thermocyclopoides.

作者信息

Kumar Palanisamy Mahesh, Murugan Kadarkarai, Madhiyazhagan Pari, Kovendan Kalimuthu, Amerasan Duraisamy, Chandramohan Balamurugan, Dinesh Devakumar, Suresh Udaiyan, Nicoletti Marcello, Alsalhi Mohamad Saleh, Devanesan Sandhanasamy, Wei Hui, Kalimuthu Kandasamy, Hwang Jiang-Shiou, Lo Iacono Annalisa, Benelli Giovanni

出版信息

Parasitol Res. 2016 Feb;115(2):751-9. doi: 10.1007/s00436-015-4799-y.

DOI:10.1007/s00436-015-4799-y
PMID:26499804
Abstract

Aedes albopictus is an important arbovirus vector, including dengue. Currently, there is no specific treatment for dengue. Its prevention solely depends on effective vector control measures. In this study, silver nanoparticles (AgNPs) were biosynthesized using a cheap leaf extract of Berberis tinctoria as reducing and stabilizing agent and tested against Ae. albopictus and two mosquito natural enemies. AgNPs were characterized by using UV–vis spectrophotometry, X-ray diffraction, and scanning electron microscopy. In laboratory conditions, the toxicity of AgNPs was evaluated on larvae and pupae of Ae. albopictus. Suitability Index/Predator Safety Factor was assessed on Toxorhynchites splendens and Mesocyclops thermocyclopoides. The leaf extract of B. tinctoria was toxic against larval instars (I–IV) and pupae of Ae. albopictus; LC50 was 182.72 ppm (I instar), 230.99 ppm (II), 269.65 ppm (III), 321.75 ppm (IV), and 359.71 ppm (pupa). B. tinctoria-synthesized AgNPs were highly effective, with LC50 of 4.97 ppm (I instar), 5.97 ppm (II), 7.60 ppm (III), 9.65 ppm (IV), and 14.87 ppm (pupa). Both the leaf extract and AgNPs showed reduced toxicity against the mosquito natural enemies M. thermocyclopoides and T. splendens. Overall, this study firstly shed light on effectiveness of B. tinctoria-synthesized AgNPs as an eco-friendly nanopesticide, highlighting the concrete possibility to employ this newer and safer tool in arbovirus vector control programs.

摘要

白纹伊蚊是包括登革热病毒在内的重要虫媒病毒载体。目前,登革热尚无特效治疗方法,其预防完全依赖于有效的病媒控制措施。在本研究中,利用小檗叶的廉价提取物作为还原剂和稳定剂生物合成了银纳米颗粒(AgNPs),并对白纹伊蚊和两种蚊子天敌进行了测试。通过紫外可见分光光度法、X射线衍射和扫描电子显微镜对AgNPs进行了表征。在实验室条件下,评估了AgNPs对白纹伊蚊幼虫和蛹的毒性。对华丽巨蚊和嗜热中剑水蚤评估了适宜性指数/捕食者安全系数。小檗叶提取物对白纹伊蚊的一至四龄幼虫和蛹具有毒性;半数致死浓度(LC50)分别为182.72 ppm(一龄幼虫)、230.99 ppm(二龄)、269.65 ppm(三龄)、321.75 ppm(四龄)和359.71 ppm(蛹)。小檗叶合成的AgNPs高效,LC50分别为4.97 ppm(一龄幼虫)、5.97 ppm(二龄)、7.60 ppm(三龄)、9.65 ppm(四龄)和14.87 ppm(蛹)。叶提取物和AgNPs对蚊子天敌嗜热中剑水蚤和华丽巨蚊的毒性均降低。总体而言,本研究首次揭示了小檗叶合成的AgNPs作为一种生态友好型纳米农药的有效性,突出了在虫媒病毒病媒控制项目中使用这种更新、更安全工具的切实可能性。

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