ABSTRACT
Panax notoginseng is one of the important economic crops under the forest, which is widely planted in Yunnan Province, China. In August of 2022, a survey in Xundian county (25º26' N, 12 103°7' E), was accomplished to verify the occurrence of wilt disease in P. notoginseng and understand its aetiology. The site is an underforest of organic P. notoginseng, covering an area of over 40 ha. Disease symptoms included severe stunting, leaf chlorosis, red or yellow stalks, and rotting roots. The entire plant gradually wilted and died with disease progression (Fig. 1). To identify the causal agent, we collected more than 30 wilted P. notoginseng plants and got the plant tissues from the symptomatic leaves, stalks, and roots. The tissues surface sterilised with 0.5% sodium hypochlorite for 2 min, followed by 75% alcohol for 1 min, and rinsed in sterilised water three times. Upon drying, samples were placed onto potato dextrose agar (PDA) incubated in the dark at 25°C (Bilgi et al. 2011). Isolates were then transferred to carnation leaf agar (CLA) to induce sporulation. Colonies on PDA were yellow, orange to red, with abundant fluffy aerial mycelia with a dark red pigment on the undersides; Colonies on CLA were orange to yellow (Fig. 2). Fusiform macroconidia and bottle-shaped conidiogenous cells were visible under a microscope. Microconidia were not observed. Macroconidia were measured as 18.5-40.5 µm × 3-4.7 µm (n = 60) (Fig. 3), and possessed 2 to 6 septa. These are similar to previously reported morphological characteristics of Fusarium graminearum (Shikur et al. 2018; Martinez et al. 2019). Cetyltrimethylammonium bromide rapid plant genome extraction kit-DN14 was used to obtain genomic DNA from two representative isolate, the ITS, TEF1 and RPB2 gene were amplified by Polymerase Chain Reaction using primers ITS5/ITS4 (White et al, 1990), EF1-983F/EF1-2218R (Rehner et al, 2005), bRPB2-6F/bRPB2-7.1R (Matheny et al, 2002), respectively. BLAST homology search for nucleotide sequences revealed > 99% similarity to F. graminearum ITS (550bp; MG274308, KU847854), TEF1 (1000bp; MH572248, MH572252) and RPB2 (1000bp; KT855203, KT855206) sequences. All sequences from this study were deposited in GenBank (OP617343 and OP617344 for ITS; OP930951 and OP930952 for TEF1; OP930953 and OP930954 for RPB2). In the phylogenetic tree, the isolates (SWFU 0000116, SWFU 0000117) clustered with the representative strains of F. graminearum. The morphology and multi-gene phylogenetic analysis indicated that the new isolate is F. graminearum. Koch's postulates were used to confirm that the symptoms in wilted P. notoginseng were attributable to F. graminearum. First, healthy leaves were gently wounded with a needle and sprayed with spore suspension (1.0 × 106 spores mL-1) in a hand sprayer (Martinez et al, 2019). All P. notoginseng plants were then replanted in pots with a diameter of 20 cm (1 plants/pot) filled with mixture of sterilised soil, and incubated at 25-27°C. The blank control comprised sterile cotton soaked in sterile water and inactivated mycelia sprayed on the leaves. After 7d of incubation, all inoculated leaves and stalks developed necrosis and developed pale red mycelia, while control plants remained symptomless (Fig. 4-5). The pathogen was successfully isolated from these inoculated plants and identified as F. graminearum. Koch's postulates were implemented. To the best of our knowledge, this is the first report from China with evidence of F. graminearum infecting P. notoginseng.
