RESUMEN
In October 2009, necrotic bark lesions at the root collar and lower stem associated with root rot, reduced growth, and wilting were observed on container-grown 2-year-old common sage (Salvia officinalis L. 'Icterina') in two ornamental nurseries in Somogy and Zala counties in Hungary. The disease occurred at a frequency of 15-20% (100 to 150 symptomatic plants in each nursery). A P. cryptogea-like species was isolated consistently from necrotic root collars of many plants on carrot (CA) PARPB agar. Six isolates from the nursery in Zala county and three isolates from the nursery in Somogy county were deposited in the culture collection of Plant Protection Institute (Budapest, Hungary). All developed slightly petaloid colonies on CA agar. Chlamydospores and gametangia were not present in single and dual culture combinations of isolates. Radial colony growth was the fastest at 25°C (6.8 to 7.4 mm/day) and no growth occurred above 34°C. On mycelial discs floating in nonsterile stream water, persistent, nonpapillate, mostly ovoid to obpyriform sporangia (37.4±3.5 to 47.8±4.6 µm long and 22.3±2.6 to 29.2±3.7 µm wide) and hyphal swellings were produced abundantly. Pathogenicity of one selected isolate from each nursery was tested on 3-month-old seedlings of S. officinalis 'Icterina' in 2010. Isolates were grown for 4 weeks at 20°C on autoclaved millet grains moistened with CA broth. Infested and uninfested grains were mixed with autoclaved soil (30 cm3 grain/liter), and the mixes were used as potting media for transplanting five treated and five control plants per isolate, respectively. Plants were kept in a growth room (20-25°C, 16/8 h dark/light). Pots were flooded for 24 hours on the 1st day and every 2 weeks. All and only treated plants showed symptoms of wilt associated with basal stem and root necrosis within three weeks. The trial was repeated with the same result. The pathogen could be reisolated only from the treated plants. Identity of isolates from nurseries and inoculated plants was confirmed recently by amplification and sequence analysis of the rDNA internal transcribed spacers (ITS) and gene regions of cytochrome c oxidase subunit I (coxI) and ß-tubulin (tub) according to Jung et al. (2017). BLASTn searches showed 100% identity and only 97.3-99.0% similarity to the corresponding sequences of authenthic P. pseudocryptogea and P. cryptogea strains, respectively (e.g., GenBank accession nos. KP288336-KP288342, KP288370-KP288372, KP288386-KP288392, MN872725, MN872776). Sequences of the 9 field isolates were deposited in GenBank under accession nos. OR771701-OR771709 (ITS), OR787508-OR787516 (coxI) and OR787517-OR787525 (tub). P. pseudocryptogea was delineated from P. cryptogea sensu lato (Safaiefarahani et al. 2015), which has been reported from S. officinalis in the United States (Koike 1997), and S. leucantha (Cacciola et al. 2002) and S. officinalis (Garibaldi et al. 2015) in Italy. The known natural hosts of P. pseudocryptogea includes plant species in families other than Lamiaceae (cf. Aloi et al. 2023), but it was pathogenic on the lamiaceous Plectranthus scutellarioides in artificial inoculations (Christova 2020). The pathogen is present in European nurseries (Antonelli et al. 2023). This is the first report of P. pseudocryptogea on S. officinalis in Hungary. The causal agent threatens the production of sages and other ornamentals, and its spread in Hungary should be prevented by proper disease management and phytosanitary actions.
RESUMEN
Succinate dehydrogenase inhibitors (SDHIs) are frequently used against powdery mildew (PM) fungi, such as Erysiphe necator, the causal agent of grapevine PM. Fungicide resistance, however, hinders effective control. DNA-based monitoring facilitates the recognition of resistance. We aimed (i) to adapt an effective method to detect a widespread genetic marker of resistance to boscalid, a commonly used SDHI, and (ii) to study the co-occurrence of the marker with a marker of resistance to demethylase inhibitor (DMI) fungicides. Sequencing of the sdhB gene identified a nonsynonymous substitution, denoted as sdhB-A794G, leading to an amino acid change (H242R) in the sdhB protein. In vitro fungicide resistance tests showed that E. necator isolates carrying sdhB-A794G were resistant to boscalid. We adopted a cleaved amplified polymorphic sequence-based method and screened more than 500 field samples collected from five Hungarian wine regions in two consecutive years. The sdhB-A794G marker was detected in all wine regions and in both years, altogether in 61.7% of samples, including 20.5% in which both sdhB-A794G and the wild-type were present. The frequency of sdhB-A794G was higher in SDHI-treated vineyards than in vineyards without any SDHI application. A significant difference in the presence of the marker was detected among wine regions; its prevalence ranged from none to 100%. We identified significant co-occurrence of sdhB-A794G with the CYP51-A495T (Y136F) mutation of the CYP51 gene, a known marker of resistance to DMIs. The monitoring of fungicide resistance is fundamental for the successful control of E. necator. Our rapid, cost-effective diagnostic method will support decision-making and fungicide resistance monitoring and management.
RESUMEN
Pyrenophora teres f. teres (Ptt), the causal agent of net form net blotch (NFNB) disease, is an important and widespread pathogen of barley. This study aimed to quantify and characterize the virulence of Ptt isolates collected from experimental fields of barley in Hungary. Infection responses across 20 barley differentials were obtained from seedling assays of 34 Ptt isolates collected from three Hungarian breeding stations between 2008 and 2018. Twenty-eight Ptt pathotypes were identified. Correspondence analysis followed by hierarchical clustering on the principal components and host-by-pathogen GGE biplots suggested a continuous range of virulence and an absence of specific isolate × barley differential interactions. The isolates were classified into four isolate groups (IG) using agglomerative hierarchical clustering. One IG could be distinguished from other IGs based on avirulence/virulence on one to five barley differentials. Several barley differentials expressed strong resistance against multiple Ptt isolates and may be useful in the development of NFNB-resistant barley cultivars in Hungary. Our results emphasize that the previously developed international barley differential set needs to be improved and adapted to the Hungarian Ptt population. This is the first report on the pathogenic variations of Ptt in Hungary.