Efficiency of nano-emulsion of propolis with activator adjuvants in improving the pesticide application technology on eggplant leaves

Q1 Environmental Science
Zainab Ahmed Ali Romeh, Abdelhamed Hussein Mohanna, Hamza Mohamed El-Sharkawi, Mahmoud Rady Ramadan
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引用次数: 0

Abstract

Most conventional pesticide formulations get lost in the field during spraying, which causes a variety of issues with the environment and public health. Therefore, the study aimed to use new nanotechnology, such as nanoemulsion of propolis (NP) alone or mixed with some activator adjuvants, tannin (T), argal (Si), and urea (U) for improving the performance of chlorfenapyr on eggplant leaves. The results of the study indicate that the addition of chlorfenapyr to NP alone or in combination with the tested activator adjuvants reduced the surface tension of chlorfenapyr, improved the total initial amounts of droplet deposition efficiency, gradually enhanced the translocation process from soil to the eggplant leaves and between the leaves, and increased the efficiency of chlorfenapyr at the lowest dose while reducing environmental contamination. After two hours of treatment, the droplet deposition efficiency of chlorfenapyr on the eggplant leaves was found to be improved by NP alone at a concentration of 0.25 % to 1.58 mg kg−1, as compared to 1.05 mg kg−1 in the control. However, when NP was combined with activator adjuvants, NP-Si-U, the droplet deposition efficiency was increased to 1.90 mg kg−1. Furthermore, chlorfenapyr enhanced with NP-Si-U induced the highest control efficiency against Tetranychus urticae. It is evident that treating chlorfenapyr amended with NP-T-U and NP-Si-U on the middle eggplant leaves, separately induced considerable translocation the pesticides to other part of the eggplant leaves within the range of 0.12 mg kg−1 – 0.23 mg kg−1, and 0.13 mg/kg−1 − 0.27 mg/kg−1, respectively through 1–3 days, while it did not transfer in the chlorfenapyr alone. Moreover, the transfer of chlorfenapyr from the soil to eggplant leaves increased, with values ranging between 0.63–0.79 mg/kg−1 and 0.65–0.96 mg/kg−1, respectively, during 2–4 days of exposure compared to 0.22–0.31 mg/kg−1 in chlorfenapyr. The addition of NP to chlorfenapyr improved the plants vigor index for tomato, squash, and sweet melon to 1.23, 1.18, and 1.11 times at the recommended dose, and to 1.40, 1.50, and 1.32 times at half the recommended dose, respectively compared with the control. These results suggest that the addition of NP with activator adjuvants to pesticides leads to improvements in control efficiency and efficacy of utilization.

Abstract Image

蜂胶与活化剂佐剂的纳米乳液在改进茄子叶农药施用技术中的效率
大多数传统农药制剂在喷洒过程中会在田间流失,从而造成环境和公众健康方面的各种问题。因此,本研究旨在使用新的纳米技术,如单独使用蜂胶纳米乳液(NP)或将其与一些活化剂佐剂、单宁(T)、氩(Si)和尿素(U)混合使用,以改善氯虫苯甲酰胺在茄子叶片上的表现。研究结果表明,在 NP 中单独添加或与所测试的活化剂佐剂结合使用可降低氯虫苯甲酰胺的表面张力,提高液滴沉积效率的初始总量,逐渐增强从土壤到茄子叶片以及叶片之间的转位过程,并在最低剂量下提高氯虫苯甲酰胺的效率,同时减少对环境的污染。经过两个小时的处理后,发现单独使用浓度为 0.25 % 的 NP 可提高氯虫苯甲酰胺在茄子叶片上的液滴沉积效率,达到 1.58 毫克/千克-1,而对照组为 1.05 毫克/千克-1。然而,当氮磷与活化剂佐剂 NP-Si-U 结合使用时,液滴沉积效率提高到 1.90 毫克/千克。此外,用 NP-Si-U 增强氯虫苯甲酰胺对荨麻四螨(Tetranychus urticae)的防治效果最高。在茄子中部叶片上分别施用氯虫苯甲酰胺与 NP-T-U 和 NP-Si-U,1-3 天后,农药会转移到茄子的其他叶片上,转移范围分别为 0.12 毫克/千克-1 - 0.23 毫克/千克-1 和 0.13 毫克/千克-1 - 0.27 毫克/千克-1,而单独施用氯虫苯甲酰胺则不会发生转移。此外,氯虫苯甲酰胺从土壤向茄子叶片的转移也有所增加,在接触氯虫苯甲酰胺的 2-4 天内,转移值分别为 0.63-0.79 毫克/千克-1 和 0.65-0.96 毫克/千克-1,而氯虫苯甲酰胺的转移值为 0.22-0.31 毫克/千克-1。与对照组相比,在氟虫腈中添加 NP 可使番茄、南瓜和甜瓜的植株活力指数分别提高到推荐剂量的 1.23 倍、1.18 倍和 1.11 倍,以及推荐剂量一半的 1.40 倍、1.50 倍和 1.32 倍。这些结果表明,在农药中添加含有活化剂佐剂的氮磷钾可提高防治效率和使用效果。
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来源期刊
Environmental Nanotechnology, Monitoring and Management
Environmental Nanotechnology, Monitoring and Management Environmental Science-Water Science and Technology
CiteScore
13.00
自引率
0.00%
发文量
132
审稿时长
48 days
期刊介绍: Environmental Nanotechnology, Monitoring and Management is a journal devoted to the publication of peer reviewed original research on environmental nanotechnologies, monitoring studies and management for water, soil , waste and human health samples. Critical review articles, short communications and scientific policy briefs are also welcome. The journal will include all environmental matrices except air. Nanomaterials were suggested as efficient cost-effective and environmental friendly alternative to existing treatment materials, from the standpoints of both resource conservation and environmental remediation. The journal aims to receive papers in the field of nanotechnology covering; Developments of new nanosorbents for: •Groundwater, drinking water and wastewater treatment •Remediation of contaminated sites •Assessment of novel nanotechnologies including sustainability and life cycle implications Monitoring and Management papers should cover the fields of: •Novel analytical methods applied to environmental and health samples •Fate and transport of pollutants in the environment •Case studies covering environmental monitoring and public health •Water and soil prevention and legislation •Industrial and hazardous waste- legislation, characterisation, management practices, minimization, treatment and disposal •Environmental management and remediation
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