First Report of Leaf Spot Caused by on in China.

Polygonatum sibiricum Redouté, a perennial herb in the genus of Polygonatum, is extensively used as a medicinal plant in China. In May 2023, serious leaf spot disease of P. sibiricum with incidence of thirty percent in a 0.4-ha field was observed in the Maojian District of Shiyan City (110°43'51"E 32°32'6"N), Hubei Province, China. Symptoms first appeared as yellowish brown spots throughout the middle portion as well as around the margin of leaves. Lesions often had a brown border and could be surrounded by a yellow halo. Symptoms ranged from a few lesions scattered across leaves to lesions densely covering large sections of leaves. Six samples of symptomatic leaves were cut into 5-mm pieces, surface disinfected with 70% ethanol for 30 s and 1% NaClO for 5 min, washed three times with sterile distilled water, dried on sterilized filter paper and then cultured on potato dextrose agar (PDA) for 3 to 5 days at 26°C. The hyphal tips were cut from the fungal mycelium and transferred to new PDA for further purification. Twelve colonies (HJZ 1-12) with similar morphology were obtained from the purified samples after 7 days. Colonies on PDA were initially grayish white, and then turned Olive gray with concentric zonation. The conidiophores were brown, erect, and geniculate branched with an average of 4.88 μm (n=20) in width. Conidia were oblong or ovate, obtuse round on both sides, straight, 2 to 3 transverse septations and three or four cells with 13.75 to 26.61×6.17 to 9.83 μm (n=50) in size. Morphological characteristics of the representative isolate HJZ-2 and HJZ-3 were consistent with the description of Curvularia sp (Tan et al. 2018). The internal transcribed spacer (ITS) region, glyceraldehyde-3-phosphate dehydrogenase (GAPDH) were amplified using primers ITS1/ITS4 and Gpd1-LM/Gpd2-LM (White et al. 1990; Berbee et al. 1999). Sequences were deposited in GenBank with accession numbers PQ269826/PQ732211 for ITS and PQ280046/PQ738619 for GAPDH. BLAST analysis in GenBank showed that the sequences ITS and GAPDH had >99 to 100% nucleotide identities (ITS: 99.18%, 610/608 bp, MG250427.1; 100%, 577/608 bp, MG250427.1; GAPDH: 100%, 509/509 bp MT515338.1; 100% 524/530 bp, MT515298.1) with C. buchloes. Also, the phylogenetic tree based on genes of ITS and GAPDH by the neighbor joining method showed that isolate HJZ-2 and HJZ-3 clustered together with C. buchloes. Based on morphological and molecular characteristics, isolate HJZ-2 and HJZ-3 were determined to be C. buchloes. For the pathogenicity test, fifteen leaves of two-year-old ten healthy P. sibiricum plants were inoculated with a spore suspension (1×106 spores/ml). Sterilized distilled water was used to inoculate the other ten plants as control. All inoculated plants were put in a greenhouse with 80% relative humidity at 25°C. After 5 days, the leaves of inoculated pathogen revealed similar symptoms with those observed in the field and the control group showed no symptoms. The pathogens were reisolation from the infected leaves and identified as C. buchloes by morphological characteristics and sequencing data of ITS and GAPDH genes. The experiments were repeated three times. Previously, C. buchloes was reported causing leaf spots on alfalfa in Pakistan (Haq et al. 2021). This is the first report of C. buchloes causing leaf spots on P. sibiricum in China. This study will provide an important reference for the control of the disease. The epidemiology of this disease should be investigated in further research.