AI Article Synopsis
- Botrytis cinerea poses a significant threat to agriculture by infecting over 200 crop species with gray mold, leading to reduced food quality and yield, while conventional fungicides face challenges due to developing resistance.
- This study explores Photodynamic Inactivation (PDI) using sodium-magnesium-chlorophyllin combined with EDTA as a method to effectively eradicate different strains of B. cinerea without relying on fungicides.
- In greenhouse trials, different formulations and concentrations of the PDI treatment significantly reduced infection severity in bell pepper plants compared to water-treated controls, demonstrating its potential as a safe and effective agricultural strategy.
Article Abstract
Botrytis cinerea is a severe threat in agriculture, as it can infect over 200 different crop species with gray mold affecting food yields and quality. The conventional treatment using fungicides lead to emerging resistance over the past decades. Here, we introduce Photodynamic Inactivation (PDI) as a strategy to combat B. cinerea infections, independent of fungicide resistance. PDI uses photoactive compounds, which upon illumination create reactive oxygen species toxic for killing target organisms. This study focuses on different formulations of sodium-magnesium-chlorophyllin (Chl, food additive E140) as photoactive compound in combination with EDTA disodium salt dihydrate (NaEDTA) as cell-wall permeabilizer and a surfactant. In an in vitro experiment, three different photosensitizers (PS) with varying Chl and NaEDTA concentrations were tested against five B. cinerea strains with different resistance mechanisms. We showed that all B. cinerea mycelial spheres of all tested strains were eradicated with concentrations as low as 224 µM Chl and 3.076 mM NaEDTA (LED illumination with main wavelength of 395 nm, radiant exposure 106 J cm). To further test PDI as a Botrytis treatment strategy in agriculture a greenhouse trial was performed on B. cinerea infected bell pepper plants (Capsicum annum L). Two different rates (560 or 1120 g Ha) of PS formulation (0.204 M Chl and 1.279 M NaEDTA) and a combination of PS formulation with 0.05% of the surfactant BRIJ L4 (560 g Ha) were applied weekly for 4 weeks by spray application. Foliar lesions, percentage of leaves affected, percentage of leaf area diseased and AUDPC were significantly reduced, while percentage of marketable plants were increased by all treatments compared to a water treated control, however, did not statistically differ from each other. No phytotoxicity was observed in any treatment. These results add to the proposition of employing PDI with the naturally sourced PS Chl in agricultural settings aimed at controlling B. cinerea disease. This approach seems to be effective regardless of the evolving resistance mechanisms observed in response to conventional antifungal treatments.
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