Abstract
Pseudostellaria heterophylla is one of the traditional medicines in China. From 2020 to 2022, postharvest wet root rot disease was observed with an incidence of 2~5% on the tuberous roots of the harvested P. heterophylla in Zherong county, Fujian province, China, which usually occurs under damp and unventilated conditions. The symptoms of the disease were as follows: white mycelia grew on the surface of tuberous root initially and gradually wrapped around the roots, the internal root tissue turned yellow and became wet decay finally. To identify the causal agent, a total of 20 samples with symptomatic tuberous roots were collected. Small pieces (3 mm2) were treated by surface disinfection with 75% ethanol and 1% NaOCl, then rinsed 3 times with sterile water. These treated pieces were transferred onto potato dextrose agar (PDA) and incubated at 25°C in the dark for 7 d. Ten pure cultures were obtained using single-spore isolation method. The fungus colonies initially produced white aerial mycelium, subsequently exhibited yellow pigmentation. Mycelia were consisted of smooth, hyaline, branched, and septate hyphae. The conidia were solitary or clustered, brown or dark brown, smooth, ellipsoidal to spherical, 6.66 (5.50-7.81)×5.65 (4.17-7.22) µm (n=50) in size. The conidiophores were hyaline or pale brown and produced conidiogenous cells, which were pale brown, smooth, ampulliform, and 10.14 (8.82-15.30) um long (n=50). Based on these morphological characteristics, the fungus was identified as the genus Apiospora (Arthrinium). The rDNA-ITS region and partial β-tubulin gene (BenA) were amplified using the primers ITS1/ITS4 (White et al. 1990) and Bt2a/Bt2b (Glass and Donaldson 1995), respectively. The sequences of isolates FJAT-32563 and FJAT-32564 were deposited in GenBank (ITS, OM920984 and OM920985; BenA, OM953823 and OM953824). All sequences had more than 99% similarity with those of A. arundinis strain CBS:106.12 (ITS, KF144883; BenA, KF144973). In the multilocus phylogenetic analysis (ITS + BenA), the two isolates clustered together with other strains of A. arundinis with 100% bootstrap support. The isolates were therefore identified as A. arundinis based on both morphological and molecular characteristics. To confirm the pathogenicity, fresh tuberous roots were selected and surface disinfected, then the roots were immersed with a quarter length in the conidial suspension (106/mL) for 30 min, whereas the control roots were immersed with sterile water (n=30). They were placed in petri dish with wet filter paper at 25±2℃, maintaining 80% relative humidity in the dark. The white aerial mycelium appeared at 5 days after inoculation, and wet root rot decaying occurred after inoculation for 21 days. The symptoms were similar to those described above, whereas the control roots were asymptomatic. The same fungus was re-isolated from the infected roots, showing similar morphological characteristics and molecular traits. Koch's postulates were completed and the pathogenicity test for the isolates has been repeated thrice. Previously, A. arundinis was reported to infect peach and sugarcane (Ji et al. 2020; Liao et al. 2022). To our knowledge, this is the first report of A. arundinis causing wet root rot of P. heterophylla in China. The disease would be a potentially new threat to this medicinal plant.
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