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采用金合欢制备银纳米粒子的生物物理特性分析:对具有公共卫生意义的蚊虫媒介的有效性及对非目标水生物防治剂的影响。

Biophysical characterization of Acacia caesia-fabricated silver nanoparticles: effectiveness on mosquito vectors of public health relevance and impact on non-target aquatic biocontrol agents.

机构信息

Department of Agriculture, Food and Environment, University of Pisa, via del Borghetto 80, 56124, Pisa, Italy.

Department of Botany and Microbiology, College of Science, King Saud University, Riyadh, 11451, Saudi Arabia.

出版信息

Environ Sci Pollut Res Int. 2018 Apr;25(11):10228-10242. doi: 10.1007/s11356-017-8482-y. Epub 2017 Feb 5.

DOI:10.1007/s11356-017-8482-y
PMID:28161865
Abstract

Mosquito-borne diseases lead to serious public health concerns in tropical and sub-tropical countries worldwide, due to development of mosquito resistance to synthetic pesticides, non-target effects of pesticides, and socioeconomic reasons. Currently, green nanotechnology is a promising research field, showing a wide range of potential applications in vector control programs. The employ of natural products as reducing agents to fabricate insecticidal nanocomposites is gaining research attention worldwide, due to low costs and high effectiveness. Interestingly, biophysical features of green-synthesized nanoparticles strongly differ when different botanicals are employed for nanosynthesis. In this study, a cheap Acacia caesia leaf extract was employed to fabricate silver nanoparticles (Ag NPs) with ovicidal, larvicidal, and adulticidal toxicity against three mosquito vectors, Anopheles subpictus, Aedes albopictus, and Culex tritaeniorhynchus. Ag NPs were analyzed by various biophysical methods, including spectroscopy (UV-visible spectrophotometry, XRD, FTIR, EDX) and microscopy (SEM, TEM, AFM) techniques. High acute larvicidal potential was observed against larvae of An. subpictus (LC = 10.33 μg/ml), Ae. albopictus (LC = 11.32 μg/ml), and Cx. tritaeniorhynchus (LC = 12.35 μg/ml). Ag NPs completely inhibited egg hatchability on three vectors at 60, 75, and 90 μg/ml, respectively. In adulticidal assays, LD values were 18.66, 20.94, and 22.63 μg/ml. If compared to mosquito larvae, Ag NPs were safer to three non-target aquatic biocontrol agents, with LC ranging from 684 to 2245 μg/ml. Overall, our study highlights the potential of A. caesia as an abundant and cheap bioresource to fabricate biogenic Ag NPs effective against mosquito young instars and adults, with moderate impact on non-target aquatic biocontrol agents.

摘要

蚊虫传播的疾病在全球热带和亚热带国家引起了严重的公共卫生关注,这是由于蚊虫对合成农药产生了抗药性、农药的非靶标效应以及社会经济原因所致。目前,绿色纳米技术是一个有前途的研究领域,在病媒控制计划中显示出广泛的潜在应用。由于成本低、效果高,利用天然产物作为还原剂来制备杀虫纳米复合材料引起了全球的研究关注。有趣的是,当使用不同的植物来进行纳米合成时,绿色合成纳米颗粒的生物物理特性会有很大的不同。在这项研究中,使用廉价的金合欢叶提取物来制备对三种蚊虫传播媒介(三带喙库蚊、白纹伊蚊和致倦库蚊)具有杀卵、杀幼虫和杀成虫毒性的银纳米颗粒(Ag NPs)。Ag NPs 通过各种生物物理方法进行分析,包括光谱(紫外可见分光光度法、XRD、FTIR、EDX)和显微镜(SEM、TEM、AFM)技术。Ag NPs 对三带喙库蚊幼虫(LC=10.33μg/ml)、白纹伊蚊幼虫(LC=11.32μg/ml)和致倦库蚊幼虫(LC=12.35μg/ml)具有高急性杀幼虫潜力。Ag NPs 在 60、75 和 90μg/ml 时完全抑制了三种载体的卵孵化能力。在成虫杀灭试验中,LD 值分别为 18.66、20.94 和 22.63μg/ml。与蚊虫幼虫相比,Ag NPs 对三种非靶标水生生物防治剂更安全,LC 范围为 684 至 2245μg/ml。总的来说,我们的研究强调了金合欢作为一种丰富而廉价的生物资源,用于制备对蚊虫幼期和成虫有效的生物合成 Ag NPs,对非靶标水生生物防治剂具有适度的影响。

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