First Report of Powdery Mildew Caused by Podosphaera xanthii on Verbena brasiliensis in Korea

First Report of Powdery Mildew Caused by Podosphaera xanthii on Verbena bonariensis in Korea

Verbena bonariensis L. (Verbenaceae), known as purple-top vervain or Argentinian vervain, is a perennial, herbaceous plant, native to tropical South America. It is widely grown as an ornamental worldwide. During summer and autumn of 2022, V. bonariensis of an unknown cultivar with purple-violet flowers was found infected by powdery mildew fungus with 100% disease incidence in a public garden in Jeonju, Korea. White, superficial mycelia developed on infected plants and subsequently covered whole surfaces of leaves and stems, resulting in leaf discoloration and early defoliation. High disease severity caused poor growth of the plants, resulting in premature senescence and reduced flowering. A representative voucher specimen was submitted in the Korea University herbarium (KUS-F33160). Morphological characterization and measurements of the fungus were carried out using a fresh sample. Appressoria on the mycelium were poorly developed, nipple-shaped or nearly absent. Conidiophores were 90 to 246 × 10 to 12 μm and produced 2 to 7 immature conidia in chains with a crenate outline. Foot-cells of conidiophores were straight, cylindrical, relatively short, 42 to 64 μm long, and constricted at the branching point from the hypha. Conidia were hyaline, ellipsoid to ovate, measured 28 to 40 × 18 to 22 μm (length/width ratio of 1.4 to 2.0), and contained conspicuous fibrosin bodies. Germ tubes were produced from the lateral position of conidia. No chasmothecia were observed throughout the growingseason. These diagnostic structures were typical to the anamorph of the genus Podosphaera. The morphological characteristics and measurements were consistent with those of P. xanthii (Castagne) U. Braun & Shishkoff (Braun & Cook 2012). To confirm morphology-based identification, the nucleotide sequences of the internal transcribed specer region (ITS1 and ITS2) and large subunit gene (LSU) of the rDNA were determined in this study outlined by Bradshaw and Tobin (2020). The resulting sequences were submitted to GenBank (OQ061318 for ITS, OQ061319 for LSU) and were 100% identical with sequences of Podosphaera xanthii (MT242593, LC371331 etc.) for both ITS and LSU gene from the BLAST'n search results. Thus, based on morphology and results of molecular analysis, the isolate on V. bonariensis in Korea was identified as P. xanthii. The pathogenicity test was carried out by touching a diseased leaf onto healthy leaves of five pot-grown plants. Five non-inoculated plants were used as controls. After 7 days, typical powdery mildew colonies started to appear on the inoculated leaves. All control plants remained symptomless. The fungus isolated from the inoculated leaves was morphologically identical to that observed on the originally diseased leaves, which supports Koch's postulates. Hitherto, powdery mildew of Verbena spp. associated with Podosphaera sp. (including Sphaerotheca sp.) has been globally reported (Farr & Rossman 2022). Podosphaera xanthii on V. bonariensis was recorded from China and Japan (Hong et al. 2021, Farr & Rossman 2022), while in Korea, this fungus was recorded on Verbena brasiliensis (Cho et al. 2014), but not on V. bonariensis. To our knowledge, this is the first report of powdery mildew disease caused by P. xanthii on V. bonariensis in Korea. Our field observations suggest that this powdery mildew occurs on V. bonariensis planted in the shade. This finding could be useful for the breeding programme of Verbena spp. and for planting strategies in gardens.

First Report of Powdery Mildew Caused by Podosphaera xanthii on Glandularia tenera in China

Glandularia tenera (syn. Verbena tenera) is an herbaceous perennial ornamental plant used in gardens as an edging plant with beautiful white, red, or purple flowers. In autumn 2020 and 2021, severe powdery mildew infection was observed on G. tenera cultivar Xianghe in Renming Botanical garden in Shangqiu, Henan province, China (34.4568° N, 115.6640° E). Approximately 80% of leaves on each plant were symptomatic, and about 90% of the plants were infected. Powdery mildew colonies appeared as white spots on the adaxial surface of the leaves and stems of the plants in the initial infection stage. Later, mycelial growth was amphigenous, thick, forming irregular white patches, and effused to cover the whole leaf surface. Finally, leaves turned yellow and senescence occurred. Samples of symptomatic leaves were stained with trypan blue and examined under a Leica DM2500 microscope. Microscopic observations showed that conidia on infected leaves were hyaline and ellipsoid to oval with fibrosin bodies, measured 25 to 37 × 14 to 23 μm with a length/width ratio of 1.4 to 2.0. Conidiophores were unbranched, straight, 80 to 210× 10 to 14 µm in size, and produced two to five immature conidia in chains. Foot cells of conidiophores were cylindrical with slight constrictions at basal septa, and followed by one to three short cells. Fungal hyphae were septate, branched, and flexuous to straight and 4 to 7µm wide with indistinct to slightly nipple-shaped appressoria. Chasmothecia were not observed. These morphological characteristics were identical with the previous description of Podosphaera xanthii (Castagne) U. Braun & Shishkoff (Braun and Cook 2012). To confirm the identification, the sequence of ITS1-5.8s-ITS2 region of rDNA for the isolate SQVT was amplified from conidia collected from infected leaves with universal primers ITS1 and ITS4, sequenced and analyzed using the BLASTn search of GenBank. Amplicon was 565 bp (OM293967) and showed 99.82% similarity with sequence of P. xanthii from Eclipta prostrate (MT260063) in China (Xu et al. 2020), from Youngia denticulate (AB040351) in Japan (Hirata et al. 2000), and 99.65% with sequence of P. xanthii from V. brasiliensis in Korea (Cho et al. 2014). The domains D1 and D2 of the 28S rDNA for the isolate SQVTPX-1 was amplified with primer NL1/NL4. Amplicon was 613 bp (ON259308) and showed 100% similarity with sequence of P. xanthii from V. brasiliensis (AB936277) (Meeboon and Takamatsu, 2015). Pathogenicity tests were conducted by gently pressing the infected leaves onto leaves of five healthy G. tenera cultivar Xianghe plants. Five non-inoculated plants served as controls. Plants were maintained in a greenhouse at 25 ± 2°C. Eight days after inoculation, symptoms similar to those observed under natural conditions developed on the inoculated leaves of G. tenera plants, whereas the control plants remained symptomless. The fungus on inoculated leaves was morphologically identical to that first observed in the field. P. xanthii is a cosmopolitan powdery mildew fungus, parasitic on numerous plant species, especially Cucurbitaceae and Compositae plants. The pathogen has been reported infecting V. bonariensis (Hong et al. 2021), V. × hybrida in China (Zhuang 2005), and V. brasiliensis in Korea (Cho et al. 2014). Interestingly, G. tenera plants infected by P. xanthii were adjacent with V. × hybrida plants infected by P. xanthii in Renming Botanical garden. Incidence of P. xanthii on G. tenera add information on pathogen's host range and help us develop comprehensive survey and effective management of the disease. To our knowledge, this is the first report of P. xanthii on G. tenera in China (Farr and Rossman 2021). Braun, U., and Cook, R. T. A. 2012. Taxonomic Manual of the Erysiphales (Powdery Mildews). CBS Biodiversity Series No. 11. CBS, Utrecht, the Netherlands. Cho, S. E., et al. 2014. Plant Dis. 98: 1159. Farr, D. F., and Rossman, A. Y. 2021. Fungal Databases, Syst. Mycol. Microbiol. Lab., ARS, USDA. Hong, Q. Q., et al. 2021. Plant Dis. 105: 3297. Hirata, T., et al. 2000. Can. J. Bot. 78: 1521-1530. Meeboon, J. and Takamatsu, S. 2015. Mycoscience . 56: 243-251. Xu, D. D., et al. 2020. Plant Dis. 104: 3263. Zhuang, W. Y. 2005. Fungi of northwestern China. Mycotaxon, Ltd., Ithaca, NY.

Factors Influencing the Occurrence of Foliar Pathogens in Commercial Watermelon Fields in South Carolina Based on Stratified Cluster Sampling

The influence of environmental and management factors on the occurrence of foliar pathogens of watermelon was analyzed using survey-sampling data collected from commercial farms in South Carolina in spring 2015 and spring and fall 2016. A stratified two-stage cluster sampling design was used to sample symptomatic watermelon leaves from 56 fields of 27 growers in seven counties representing the main watermelon-producing areas in the state. In the sampling design, counties corresponded to strata, growers to first-stage clusters, and fields to second-stage clusters. Pathogens were identified on 100 leaves collected per field based on reproductive structures that formed on the leaves. Information about previous crops, fruit type, field size, transplanting date, first harvest date, and fungicides applied within 7 days and within 7 to 14 days prior to sampling was obtained from growers. Field alignment was determined with a compass. Survey-specific logistic regression procedures were used to analyze the effect of these factors on the probabilities of pathogen occurrence. Five fungal pathogens, Stagonosporopsis spp., Podosphaera xanthii, Cercospora citrullina, Colletotrichum orbiculare, and Myrothecium sensu lato (s.l.), and the oomycete Pseudoperonospora cubensis were included in the analyses. Among the factors we analyzed, there was a consistent increased probability of occurrence of Stagonosporopsis spp. in fields with a previous cucurbit crop, increasing probabilities of pathogen occurrence with increasing plant age, a lower probability of occurrence of some pathogens on triploid cultivars compared with diploid cultivars, and a decrease in probability of pathogen occurrence in fields aligned toward southwest or west. Application of fungicides significantly reduced the probability of observing C. citrullina, P. cubensis, and Stagonosporopsis spp. in 2015 and P. xanthii in spring 2016. This study emphasizes the importance of crop rotation and fungicide applications to manage foliar diseases of watermelon, particularly gummy stem blight, powdery mildew, and downy mildew. Crop age, cultivar type, and field alignment also were found to significantly influence the probability of pathogen occurrence. To the best of our knowledge, this is the first study examining the influence of various factors on foliar pathogens of watermelon with data collected from commercial fields.