Panax notoginseng (Burk.) F. H. Chen is a perennial plant species in the family Araliaceae, and its roots and rhizome are precious materials for the production of traditional Chinese medicine. From April to June, 2018, new disease symptoms were detected on the mature leaves of 2- and 3-year-old Panax notoginseng (P. notoginseng) in Wenshan Autonomous Prefecture, Yunnan Province, China, and the disease incidence was about 10%-15% among the analyzed fields (3.6 ha, 23°49'46.99″ N, 104°06'12.99″ E, 1,631 m elevation). The diseased leaves had dark brown necrotic lesions (0.9-2.5 × 1.0-3.5 cm) and curled downward. As the disease progressed, the necrosis gradually spread along the vein to other leaf parts, eventually covering the whole leaf. In the late disease stage, the whole leaf was decayed and yellowed. For pathogen isolation, infected leaves (n=20) were surface sterilized in 1% sodium hypochlorite and washed with sterilized distilled water for 3 mins before being cut into smaller pieces (~1cm2), then placed onto potato dextrose agar (PDA) medium and incubated at 28°C under aseptic conditions for 3 days. The hypha around leaf discs were transferred onto the new PDA. A total of 20 colonies (SQ1~20) were obtained and purified by single spore culture for morphological characterization and molecular biological identification. The colonies of all isolates were nearly round, grayish white at the initial stage, and then turned to grayish brown. In addition, microscopic examination (100× magnification) of 20 isolates revealed dark, septate, and sparsely branched conidiophores as well as dark brown conidia with short conical beaks at their tip. Additionally, conidia (solitary or in short chains) were typically oval or club-shaped and had 0-2 longitudinal septa and 2-4 transverse septa (20-35 × 8-12 μm) (n = 50). Moreover, the conidia had a smooth or verrucose surface. Their morphological characteristics were similar to those descriptions given for members of section Alternaria by Lawrence et al. (2016). In order to further identify pathogenic species, genomic DNA was extracted from the colonies (SQ1~20) using a modified cetyltrimethylammonium bromide (CTAB) method (Loganathan et al. 2014). The sequences of internal transcribed spacer regions of ribosomal DNA (rDNA ITS) and partial RNA polymerase II second subunit gene (RPB2) were amplified by PCR using fungal universal primers ITS1/ITS4 (White et al. 1990) and fRPB2-5F/fRPB2-7cR (Liu et al. 1999), respectively. The DNA sequencing shows that ITS sequences from 20 isolates were totally same, and so did the RPB2 sequences (supplementary material). BLASTN analysis of NCBI database indicated that the RPB2 and ITS sequences have the highest nucleotide homology to A. Alternata ITS (MW008974) and RPB2 (LC132700), respectively. These two gene sequences were submitted to GenBank [Accession numbers ON075466 (ITS) and OP572232 (RPB2)]. Phylogenetic trees based on the combined ITS and RPB2 sequences were constructed by maximum parsimony method. The referenced ITS and RPB2 sequences of Alternaria were from three published articles (Rama et al. 2020; Sun et al. 2021; Wee et al. 2006). Phylogenetic analysis revealed that this isolate was clustered with A. alternata. Therefore, the morphology-based preliminary identification was verified by the phylogenetic analysis, and the isolate from diseased P. notoginseng leaves was A. alternata. To confirm its pathogenicity, the fungal isolate was assessed with 40 1-year-old healthy P. notoginseng plants in a greenhouse. Among them, the leaves of 20 of P. notoginseng plants were wounded using a sterile needle (seven or eight wounds per leaf) and then inoculated with 1mL conidial suspension (1 × 106 conidia/mL) prepared from 7-day-old fungal cultures grown on PDA medium. The inoculated plants were covered with plastic bags at 25°C for 24 h to maintain humidity, and then transferred to the greenhouse maintained at 28°C with a 16-h day/8-h night cycle and continuous misting. The other 20 control plants were only wounded and sprayed with sterile water. Typical necrotic lesions were detected on all of the inoculated P. notoginseng leaves cultivated in the greenhouse for 1 week post-inoculation. As the disease continued to develop, the necrotic lesions enlarged, and the infected leaves turned yellow and withered. These symptoms were similar to those observed on the naturally infected P. notoginseng. In contrast, the mock-inoculated control plants remained healthy. Furthermore, the fungus re-isolated from the infected P. notoginseng leaves in the pot experiment had similar morphological characteristics as the original strain. In addition, its genomic DNA was extracted for PCR analysis of ITS and RPB2 sequences, and the following DNA sequencing shows that the two DNA sequences were same as those of isolates SQ1~20, which confirmed that the re-isolated fungus was A. alternata. To the best of our knowledge, this is the first report of A. alternata causing a P. notoginseng leaf disease in China.