A tea tree oil-based nanoemulsion for controlling root-knot nematodes in vitro

Gad, Marwa F.; Ibrahim, Dina S.S.; Mossa, Abdel-Tawab H. Mossa

doi:10.21608/ejar.2024.275346.1525

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Egyptian Journal of Agricultural Research

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	A tea tree oil-based nanoemulsion for controlling root-knot nematodes in vitro
Article 13, Volume 102, Issue 2, June 2024, Page 302-314 PDF (1019.73 K)
Document Type: Original Article
DOI: 10.21608/ejar.2024.275346.1525
View on SCiNiTO
Authors
Marwa F. Gad¹; Dina S.S. Ibrahim²; Abdel-Tawab H. Mossa Mossa ¹
¹Pesticide Chemistry Department, Chemical Industries Research Institute, National Research Centre, 33 El Bohouth Street (former El Tahrir St.), P.O. 12622, Giza, Egypt
²Nematodes Diseases Research Department, Plant Pathology Research Institute, Agricultural Research Centre, Giza, Egypt.
Abstract
This study aims to develop a sustainable and environmentally friendly nanoemulsion to control root-knot nematodes (RKN). A number of nano-formulations have been prepared using gum Arabic and tea tree oil. Thirteen samples were prepared using different ratios of tea tree oil, GA, and Tween 80, including 1:1:0, 1:2:0, 1:1:1, and 1:0:1. A stable nanoemulsion was produced after ten minutes of sonication. Various physicochemical and stability tests, such as centrifugation, thermodynamics, and heating, cooling, and freezing cycles, have been performed on tea tree oil-based nanoemulsion. Sample 2C, Sample 3C, Sample 4C, and Sample 5C are the four stable samples in which the droplet size distribution was determined. The nematicidal efficacy of these formulations was evaluated against hatchability and mortality juveniles of root-knot nematodes. Samples 2C, 3C, 4C, and 5C exhibited droplet sizes of 42.7 nm, 40.6 nm, 93.6 nm, and 144.8 nm, respectively. Nanoformulation 5C showed the highest nematicidal activity, with a significant increase of 23.9%. Samples 5C (23.9%) and 3C (10.70%) demonstrated pronounced toxic effects based on the toxicity index. samples 3C (19%), 5C (13%), and 4C (11%) led to decreased hatching rates of root-knot nematode eggs. These results demonstrated that nanoemulsion exhibited potent nematicidal activity against root-knot nematode, especially sample 5C, which contained equal amounts of tea tree oil, and gum Arabic. Furthermore, nanoemulsion formulations reduced the hatching rate of nematode eggs, suggesting their potential application in controlling plant parasitic nematodes. Therefore, this nanoemulsion can be considered as potential alternatives to synthetic insecticides for the control of plant -parasitic nematodes. This study provides a novel and environmentally friendly method to develop nanoemulsion formulations from natural oils with promising biological properties for sustainable nematode management strategies.
Keywords
Green-nematicidal; Nanoformulation; Tea tree oil; Gum Arabic; Root-knot nematodes


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