First report of Fusarium ussurianum causing leaf spot on Hemerocallis citrina in Sichuan Basin of China.

Hemerocallis citrina is a popular vegetable crop in China, due to abundant nutrients in its edible flower buds. In March 2021, serious symptoms of leaf spot were observed on nearly 90% cultivated H. citrina seedlings in the fields of Dazhou city (31°17'56″ N, 107°31'59″ E), Sichuan, China. Symptomatic leaves were collected from 15 seedlings in five different sampling sites (3 seedlings per site). Small pieces (5 × 3 mm) of lesion margin were excised, surface disinfected in 70% ethanol for 20 s and 1% sodium hypochlorite (NaClO) for 40 s, washed, dried, placed on potato dextrose agar (PDA) amended with streptomycin sulfate (50 mg/L) and incubated in dark at 25 ℃ for two days. Finally, eight purified isolates, HHC-FL22, HHC-FL23, HHC-FL25, HHC-FL26, HHC-FL27, HHC-FL28, HHC-FL29 and HHC-FL30, showing similar morphology were obtained through transferring hyphal tips to fresh PDA plates. On PDA plates, mycelia were initially white but gradually became light yellow, and scarlet diffusible pigments were also produced with time. On carnation leaf agar, our isolates produced slightly curved macroconidia with 4 to 8 septa that measured 3.1 to 5.7 × 36.8 to 69.3 µm (n = 30). Microconidia and chlamydospores were not observed. Our isolates were initially identified as Fusarium species based on morphological features (Leslie and Summerell 2006). To further confirm accurate identity, primers EF1/EF2 (O'Donnell et al. 2010), TRI1015B/TRI1013E (Hao et al. 2017), RPB1-F5/RPB1-G2R (O'Donnell et al. 2010), and fRPB2-5F/fRPB2-11aR and RPB2-5f2/RPB2-7cr (O'Donnell et al. 2012) were used to amplify gene sequences of translation elongation factor-1 alpha (TEF1), 3-O-acetyltransferase (Tri101), and DNA-directed RNA polymerase II largest (RPB1) and second largest subunit (RPB2), respectively. Our sequences were deposited in GenBank under accession numbers OQ860946 to OQ860953 (TEF1), OR393245 to OR393252 (Tri101), OP131893 to OP131900 (RPB1), and OQ860954 to OQ860961 and OP131885 to OP131892 (RPB2), respectively. BLASTN searches of our sequences showed 99 ~ 100% identity with TEF1 (FJ240301.1), Tri101 (FJ240345.1), RPB1 (MW233297.1) and RPB2 (KM361666.1) of F. ussurianum NRRL 45681, and 99.05 ~ 100% identity with TEF1 (FJ240305.1) and Tri101 (FJ240349.1) of F. ussurianum NRRL 45833, respectively. Two independent maximum-likelihood phylogenetic trees based on different combined datasets of TEF1, Tri101, RPB1 and RPB2 of Fusarium species confirmed that our isolates were F. ussurianum. To test pathogenicity, conidial suspension from HHC-FL23 (106 conidia / mL) were sprayed to seedlings of cultivar "chuanhuanghua No.1" (n = 3) and incubated in a greenhouse (25°C under 90% relative humidity, 16/8 h light/dark cycle). Controls were treated with ddH2O. Ten days post-inoculation, natural symptoms appeared on leaves inoculated with HHC-FL23, but control group seedlings remained disease-free. This experiment was repeated three times. All re-isolated pathogens from diseased leaves were molecularly and morphologically identified using methods described above. Consequently, the re-isolated fungi were identical to these inoculated. The leaf spot disease could cause foliar damage and even drastic yield loss of flower buds under severe conditions. To our knowledge, this is the first report of F. ussurianum causing leaf spot in H. citrina worldwide. Our study will assist in monitoring causal agent diversity of leaf spot and breeding new resistant varieties in H. citrina.