Characterization of Italian Plasmopara viticola populations for resistance to oxathiapiprolin

BackgroundOxathiapiprolin is a novel fungicide and the first of the piperidinyl-thiazole-isoxazoline class to be discovered. This fungicide has been reported to have high activity against Plasmopara viticola, the grapevine downy mildew agent, and other plant-pathogenic oomycetes. In this study, the baseline sensitivity of Italian P. viticola populations towards oxathiapiprolin was established on 29 samples collected in 10 different viticultural areas. Two insensitive strains were characterized for their mechanism of resistance. ResultsOxathiapiprolin exhibited substantial inhibitory activity against 27 of the 29 populations tested, with EC50 values ranging from a minimum of under 4 x 10(-5) mg L-1 to over 4 x 10(-1) mg L-1, with an average value of 3.2 x 10(-2) mg L-1. Two stable suspected oxathiapiprolin-resistant mutants were isolated from population exhibiting reduced sensitivity, and sequenced for the oxathiapiprolin target gene PvORP1. The comparison with wild-type isolates revealed that the resistant isolates possessed a heterozygous mutation causing the amino acid substitution N837I, recently reported in the literature. ConclusionThe results obtained indicate a risk for Italian P. viticola populations to develop resistance to oxathiapiprolin in association with the N837I mutation at PvORP1. Anti-resistance strategies should be carefully implemented and the sensitivity levels to this molecule should be monitored accurately in future to preserve its effectiveness. (c) 2022 Society of Chemical Industry.

Automated summary

This study assessed the baseline sensitivity of Italian Plasmopara viticola populations to oxathiapiprolin and found two insensitive strains. The results indicate a potential development of resistance in Italian P. viticola populations to oxathiapiprolin. Therefore, anti-resistance strategies should be implemented carefully, and the sensitivity levels to this molecule should be accurately monitored in the future to preserve its effectiveness.