AI Article Synopsis

  • Surfactants, especially non-ionic ones, are crucial in pesticide formulations, improving effectiveness without altering solution properties like pH, but piperidinium surfactants with carbamate fragments might enhance efficacy more than conventional non-ionic types.
  • The study evaluated new piperidinium surfactants’ performance in enhancing imidacloprid, demonstrating that a 0.1% concentration substantially reduces the lethal dose required to combat the greenhouse whitefly pest.
  • Results indicate that these surfactants boost imidacloprid's effectiveness by increasing its concentration on leaf surfaces and aiding its penetration into plants, demonstrating their potential as effective adjuvants in pest control.

Article Abstract

Background: Surfactants, particularly non-ionic ones, are widely used as adjuvants in pesticide formulations due to their ability to maintain pesticide effectiveness without changing solution properties, such as pH. While non-ionic surfactants are generally low-toxic, stable, and excellent dispersants with high solubilization capabilities, they may be less effective than cationic surfactants, which offer superior surface activity, transport properties, and antimicrobial action. This study investigates the efficacy of new piperidinium surfactants with carbamate fragments as adjuvants in insecticide formulations containing imidacloprid. The efficacy of these formulations is being assessed against greenhouse whitefly, a pest known to harm cultivated and ornamental flowering plants.

Results: The aggregation behavior of piperidinium surfactants containing carbamate fragments was investigated, and their wetting effect was evaluated. Synthesized surfactants have lower CMC values compared to their methylpiperidinium analogue. The effect of piperidinium surfactants on the insecticide concentration on the surface and inside tomato leaves was assessed using spectrophotometric methods. It was found that the introduction of piperidinium surfactants with carbamate fragment at a concentration of 0.1% wt. allows for decrease in lethal concentration of imidacloprid up to 10 times, thereby testifying the marked increase in the effectiveness of imidacloprid against the greenhouse whitefly insect pest (Trialeurodes vaporariorum). It was shown that the main factors responsible for the enhanced efficacy of the insecticide were the ability of the surfactant to increase the concentration of imidacloprid on the leaf surfaces and improve their penetration into the plant.

Conclusion: The presented work employed a comprehensive approach, which significantly increases the generalizability of the results obtained and provides the ability to predict the effect and target selection of adjuvants. © 2024 Society of Chemical Industry.

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Source
http://dx.doi.org/10.1002/ps.8329DOI Listing

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