RESUMEN

Stem-end rot (SER), caused by Lasiodiplodia theobromae, is one of the most critical diseases of mango in China. The demethylation inhibitor fungicide prochloraz has been widely used in China to control mango diseases. Isolates (n = 139) of L. theobromae were collected in 2019 from six mango-producing regions in Hainan Province, China. The fungicide sensitivity of L. theobromae isolates to prochloraz revealed that the EC50 (50% effective concentration) values ranged from 0.0006 to 16.4131 µg/ml. In total, 21 of the 139 isolates were categorized as resistant to prochloraz. The resistant isolates sprayed with prochloraz could not be effectively controlled in detached fruit. The mycelial growth, conidia germination, and ability to grow at temperatures ranging from 12 to 35°C of resistant isolates decreased, suggesting fitness penalties. The experiment showed that, after treatment with prochloraz at 10 µg/ml, the content of ergosterol in the mycelia of the sensitive isolate decreased by 80.23%, whereas the resistant strain decreased by only 57.52%. The damage to membranes in the sensitive isolates was more serious than for resistant isolates. The target gene CYP51 and the ATP-binding cassette (ABC) subfamily ABCG gene were cloned but no mutation was found. When treated with prochloraz, the expression of CYP51 and ABCG in resistant isolates was significantly higher than in the sensitive isolates. Thus, induced expression of its target gene combined with the induction of expression drug efflux transporters appeared to mediate the prochloraz resistance of L. theobromae.

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Prochloraz is widely used to control rice bakanae disease caused by Fusarium fujikuroi. The current study was aimed at monitoring the development of F. fujikuroi resistance to prochloraz in the Heilongjiang Province and analyzing the fitness of F. fujikuroi strains with different resistance levels. The results indicated that most of the 89 F. fujikuroi strains collected from the Heilongjiang Province were resistant to prochloraz, with resistance frequency reaching 92.1%. To assess the field resistance risk of prochloraz, 21 F. fujikuroi strains with different resistance levels were selected to investigate their biological characteristics and assess their fitness. Mycelial growth, sporulation, and germination rates were significantly different among the tested strains. However, when grouped into two subpopulations, no significant difference was tested between prochloraz-resistant and prochloraz-sensitive strains. Pathogenicity assays revealed that the disease severity index of prochloraz-resistant strains was higher than that of prochloraz-sensitive strains. Cross-resistance assays showed no cross-resistance between prochloraz and five other fungicides, namely phenamacril, ipconazole, tebuconazole, carbendazim, and fluopyram. Ffcyp51A gene overexpression was observed in the prochloraz-resistant F. fujikuroi strains after exposure to prochloraz. Collectively, these results indicated that F. fujikuroi resistance against prochloraz was severe. Furthermore, prochloraz-resistant strains were highly fit and could potentially become a dominant population in rice fields, consequently resulting in yield loss.

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Zymoseptoria tritici (Zt) populations adapt under the selection pressure of fungicides applied for disease control. The primary objective of this study was to assess fungicide sensitivity in the Estonian Zt population. A total of 282 Zt isolates from 2019 and 2020 were tested for sensitivity to azoles (DMIs; prothioconazole-desthio, epoxiconazole, mefentrifluconazole) and succinate dehydrogenase inhibitors (SDHIs; boscalid, fluxapyroxad). The efficacy of the tested fungicides varied considerably between the Estonian counties, but the Zt population is mainly sensitive to DMIs. Additionally, the frequencies of CYP51 gene alterations varied; D134G, V136C, A379G, and S524T had increased, but V136A and I381V showed a moderate decrease in 2020 in comparison to 2019. Sensitivity to SDHIs was stable, but boscalid was less effective than fluxapyroxad. SdhC gene mutations C-T33N, C-T34N, and C-N86S were common, but not linked with SDHI fungicide sensitivity assay results. Otherwise, mutation B-N225I in the SdhB subunit occurred in isolates with reduced sensitivity to SDHIs. Sensitivity to strobilurins was evaluated by the mutation G143A in the CytB gene, which was present in nearly half of the population. The data presented confirm the ongoing evolution of fungicide sensitivity in the Zt population in Estonia and highlight the importance of knowledge-based decisions for optimizing anti-resistance strategies in the field.