Biosynthesis of Copper Nanoparticles from Acacia cornigera and Annona purpurea and Their Insecticidal Effect against Tribolium castaneum

Reactions Pub Date : 2024-04-08 DOI:10.3390/reactions5020013
Rogelio Solorzano Toala, F. Gutiérrez-Miceli, B. Valdez-Salas, Ernesto Beltrán-Partida, D. González-Mendoza, Olivia Tzintzun-Camacho, O. Grimaldo-Juárez, Antobelli Basilio-Cortes
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Abstract

Diverse studies have showed that the pesticides can cause important damages in ecosystem. Therefore, the development of bio pesticides through nanotechnology can increase efficacy and limit the negative impacts in the environmental that traditionally seen through the use of chemical pesticides. Nanoparticles obtained from plants’ extracts can be used for effective pest management as a combined formulation of metal and some other organic material present in the plants. In the present study, our evaluated biosynthesis of nanoparticles of copper used two plant extracts (Acacia cornigera and Annona purpurea), and the Taguchi method was adopted for the synthesis optimization of the following variables of biosynthesis: temperature, pH, extract concentration, and reaction times to maximize the insecticidal activity on Tribolium castaneum. Our results showed that the nanoparticles were successfully synthesized using Acacia cornigera and Anona purpurea extract under optimum conditions under Taguchi L 9 orthogonal design, where copper nanoparticles were obtained with a size of 63–153 nm for using A. cornigera extract, 87–193 nm for A. purpurea extract, and a zeta potential of 9.6 mV and −32.7 mV, respectively. The nanoparticles of copper from A. cornigera showed effective insecticidal activity against Tribolium castaneum, and 90% mortality compared to the 76.6% obtained from nanoparticles of copper from A. purpurea. The results suggest that Cu-nanoparticles derived from both plants could be used as a biocontrol agent of Tribolium castaneum, a pest of stored grain with great economic importance.
从金合欢和紫花金合欢中生物合成纳米铜颗粒及其对蓖麻毛虫的杀虫效果
多项研究表明,杀虫剂会对生态系统造成严重破坏。因此,通过纳米技术开发生物杀虫剂可以提高杀虫剂的功效,并限制传统上使用化学杀虫剂对环境造成的负面影响。从植物提取物中获得的纳米颗粒可以作为植物中金属和其他有机物质的组合配方,用于有效的害虫防治。在本研究中,我们使用两种植物提取物(金合欢和紫花金合欢)评估了纳米铜粒子的生物合成,并采用田口方法对生物合成的以下变量进行了合成优化:温度、pH 值、提取物浓度和反应时间,以最大限度地提高对蓖麻毛虫的杀虫活性。结果表明,在 Taguchi L 9 正交设计的最佳条件下,利用玉米相思树和紫穗槐提取物成功合成了纳米铜粒子,其中玉米相思树提取物获得的纳米铜粒子尺寸为 63-153 nm,紫穗槐提取物获得的纳米铜粒子尺寸为 87-193 nm,Zeta 电位分别为 9.6 mV 和 -32.7 mV。玉米铜纳米粒子对蓖麻毛虫具有有效的杀虫活性,死亡率为 90%,而紫花铜纳米粒子的死亡率为 76.6%。结果表明,从这两种植物中提取的纳米铜粒子可用作蓖麻毛虫的生物控制剂,蓖麻毛虫是一种对贮藏谷物具有重要经济价值的害虫。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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