Epicoccum nigrum Link, Mag. Ges. Naturf. Freunde Berlin

Epicoccum nigrum Link, Mag. Ges. Naturf. Freunde Berlin 7: 32 (1816) ( Figure 8 View FIGURE 8 )

Index Fungorum number: IF226758

Endophytic on fresh leaves of Coriaria nepalensis Sexual morph: Unknown. Asexual morph on PDA: Mycelium composed of 2–7 µm (x = 5 µm; n = 15) wide, branched, hyaline, smooth and thick-walled hyphae, constricted at the septum. Conidiophores micronematous, inconspicuous. Conidiogenous cells 3–6.5 × 3–6 μm (x = 5.5 × 4.5 µm; n = 20), phialidic, hyaline, rounded ends, thin-walled. Conidia 16–21 × 15–20 μm (x = 18.5 × 18 µm; n = 20), brown to dark brown, mostly ellipsoid, rarely globose to subglobose, septate, apparently constricted at the septum, verrucose and sometimes with a basal cell.

Culture characteristics: Colonies on PDA, reaching around 20 mm diameter after 2 weeks at 20–25 ℃. Obverse: cream and yellowish mycelia, raised, lowly dense, effuse, irregular, fluffy. Reverse: sunk, dark brown at the centre, light brown at the margin. With golden brown pigments produced in PDA.

Distribution: Russia ( Hyde et al. 2018); China (This study).

Substratum: Acer negundo (Sapindaceae) ( Hyde et al. 2018); Coriaria nepalensis (This study).

Material examined: China, Yunnan Province, Kunming, Kunyang, an abandoned and Open-Pit Phosphate Mine , on fresh leaves of Coriaria nepalensis , 22August 2022, C. J. Dao, 2 MS1 L2 ( HKAS 129062 View Materials ), living culture KUNCC23- 13352 . GenBank number: ITS: OR094462 , LSU: OR094457 About LSU , rpb2: OR095636, tub2: OR095641 .

Notes: Our isolate shares similar conidia with the Epicoccum nigrum forming brown to dark brown, ellipsoid, globose to subglobose, septate, verrucose conidia ( Hyde et al. 2018). Based on the BLASTn search results of multi genes ( LSU, ITS, rpb2 and tub2), our isolate ( KUNCC 23-13352) show 99–100% similarity to E. nigrum strains ( CBS 231.59, CBS 125.82, CPO 10.815, LC 5180, MFLUCC 17-1171). In addition, the multi gene phylogenetic trees ( ML and BI) indicate our isolate clusters with the E. nigrum strains ( Figure 7 View FIGURE 7 ). Therefore, we introduce our isolate as a new host record of E. nigrum based on BLASTn search results, morphological study and phylogenetic analyses.