AI Article Synopsis
- The gray mold (Botrytis cinerea) is a major threat to grapevine production in Chile, and the study focuses on assessing the effectiveness of the new fungicide pydiflumetofen against this pathogen.
- Results showed that pydiflumetofen effectively inhibited conidial germination and germ-tube elongation at very low concentrations, with no observed cross-resistance to another fungicide, fludioxonil.
- Additionally, mutations in the SdhB gene impacted sensitivity to pydiflumetofen, but the fungicide still controlled Botrytis in various scenarios, highlighting its potential as a reliable treatment for grapevines facing gray mold.
Article Abstract
The gray mold (Botrytis cinerea; Botrytis) is the main disease affecting grapevines production in Chile. Succinate Dehydrogenase Inhibitors (SDHI) belonging to the carboxamides fungicide family are a key tool for the control of Botrytis in grapevines from Chilean Central Valley. This study aimed to determine the sensitivity of Chilean Botrytis population to the new generation carboxamide pydiflumetofen. Conidial germination (CG) and germ-tube elongation (GTE) sensitivity assays were conducted on 200 single-spore isolates collected during the 2016-2017 season. The mean effective concentration that inhibited 50% (EC50) of CG in the Botrytis population was 0.0545 µg/mL, with mean values of 0.066 µg/mL and 0.042 µg/mL, for table and wine grapes, respectively. The mean EC50 value of GTE was 0.000245 µg/mL, 0.0003 µg/mL, and 0.0019 µg/mL for the total, table grape, and wine grape populations, respectively. The comparison between pydiflumetofen and fludioxonil, a highly-efficient fungicide carrying a different mode of action, showed the 87.5% and 97.5% of Botrytis control with an EC50 threshold of 0.1 µg/mL, in table grape, and wine grape populations, respectively. No cross-resistance between pydiflumetofen and fludioxonil was detected. For nine isolates with reduced pydiflumetofen sensitivity, we evaluated SdhB mutations using a qPCR-HRM diagnostic system. Two isolates carried the sdhBP225/H272R genotype and two the sdhBP225/H272Y. Additional analysis of SdhB mutant isolates determined that pydiflumetofen controls wild-type as well as sdhBP225/H272R and sdhBP225H/H272 mutants. Pydiflumetofen does not control CG in the sdhBP225/H272Y mutant but is effective in the GTE control. Pydiflumetofen significantly controls Botrytis independently of the SdhB genotype in wounded berry assays. This condition resembles the berry cracking due to heavy rainfall right before harvest, as seen in recent years in the Chilean Central Valley. The findings demonstrate that pydiflumetofen effectively controls the grapevine Botrytis population, suggest a moderate risk of pydiflumetofen resistance, and highlight the significance of incorporating genetic data into the design of control programs.
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| http://dx.doi.org/10.1094/PDIS-06-24-1338-RE | DOI Listing |
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