First Report of Paraphoma chrysanthemicola Causing Crown and Leaf Rot of Atractylodes lancea in China

is an important traditional Chinese medicinal plant whose rhizome is used for treating complaints such as rheumatic diseases, digestive disorders, night blindness and influenza. Jiangsu Province is the optimal cultivation location for high-quality rhizome. Since June 2019, symptoms of crown rot and leaf rot were observed in about 10-20% of the in a plantation (31° 36' 1" N, 119° 6' 40" W) in Lishui, Jiangsu, China. Lesions occurred on the stem near the soil line and on the leaves (Fig. 1A). Disease incidence reached approximately 80-90% by September, 2021 (Fig. 1B) and resulted in severe loss of rhizome and seed yields. For pathogen isolation, ten samples of symptomatic stem segments and ten diseased leaves were collected, surface-sterilized using 5% NaClO solution, rinsed with sterile water, cut into 0.5-2 cm segments, and plated to potato dextrose agar (PDA), and then incubated at 30°C in darkness. Pure cultures of four isolates showing morphological characteristics of spp. were obtained, identified as a single strain, and named LSL3f2. Newly formed colonies initially consisted of white mycelia; the five-day-old colonies developed a layer of whitish grey mycelia with a grey underside. 20-day-old colonies had white mycelium along the margin and with a faint yellow inner circular part with irregular radial furrows, and the reverse side looking caramel and russet (Fig. 1C). Pycnidia were subglobose (diameter: 5 to 15 μm; Fig. 1D). Unicellular, bicellular or strings of globose or subglobose chlamydospores developed from hyphal cells (Fig. 1E and 1F). The internal transcribed spacer (ITS) region and large subulin-28S of LSL3f2 were cloned using primers ITS1/ITS4 and LR0R/LR7 (Aveskamp et al. 2010, Li et al. 2013), and deposited in GenBank (OK559658 and OK598973, respectively). BLASTn search and phylogenetic analysis showed the highest identity between LSL3f2 and sequences (Fig. 1G) and confirmed LSL3f2 as . Koch's postulates were completed using one-month-old vegetatively propagated plantlets growing on autoclaved vermiculite/peat mixture at 26°C with a light/dark cycle of 12/12 hours. Each plantlet was inoculated with 5 ml of conidial suspension in water (1 × 108 cfu/ml) by applying to soil close to the plantlet, with sterile water used as a mock control (n = 10). By 20 days post-inoculation, inoculated plantlets showed a range of disease symptoms consistent to those observed in infested fields (Fig. 1H). Pathogenicity was additionally confirmed using detached leaves inoculated with a colonized agar plug of LSL3f2 or an uninoculated control comparison (diameter = 5 mm) and incubated at 26℃ in the dark. Five to seven days post-inoculation, detached leaves showed leaf rot symptoms including lesions, yellowing and withering consistent with those in infested fields, while control leaves remained healthy (n = 10, Fig. 1I). The pathogen was reisolated from the diseased plantlets and detached leaves, in both cases demonstrating the micromorphological characteristics of LSL3f2. has been reported to cause leaf and crown rot on other plants such as (Moslemi et al. 2018), and leaf spot on (Ge et al. 2016). However, this is the first report of causing crown and leaf rot on in China.