Pseudorobillarda camelliae-sinensis Rathnayaka, C.H. Kuo & K.D. Hyde, 2021

Pseudorobillarda camelliae-sinensis Rathnayaka, C.H. Kuo & K.D. Hyde View in CoL , sp. nov.

Index Fungorum number: IF558144; Facesoffungi number: FoF 0952; FIGURE 5 View FIGURE 5 .

Etymology: In reference to Camellia sinensis , the host where the fungus was collected

Holotype: MFLU 21-0007

Saprobic on dead leaves of Camellia sinensis (L.) Kuntze. Sexual morph: undetermined. Asexual morph: Conidiomata pycnidial, 106–120 μm diam., 120–155 μm high (x̄ = 112 × 140 μm; n = 10), foliicolous, scattered, semi-immersed in the host leaf, globose to subglobose, black. Conidiomatal wall 7–20 μm wide, composed of thick-walled, 2–3 layers, pale brown to hyaline cells of textura prismatica. Conidiophores reduced to conidiogenous cells. Paraphyses 2–4 μm wide, hyaline, filiform, aseptate, unbranched, mixed with conidiophores. Conidiogenous cells 5–15 × 2–4 (x̄ = 10 × 3 μm; n = 20) μm, hyaline, enteroblastic, phialidic, subcylindrical, thick- and smooth-walled. Conidia 13–14 × 2–4 μm (x̄ = 13.4 × 3 μm; n = 35) subcylindrical, rounded at apex, truncated at base, hyaline, aseptate, thick-walled, smooth, bearing 2–4-unbranched, flexuous, extracellular, apical appendages (10–16 μm long).

Culture characteristics: Conidia germinated on PDA within 24 hours, germ tube produced one-end of the conidia. Colonies on PDA, reached up to 3–4 cm diam. after 1 weeks at 25 °C, colony from above: flat, scant cottony surface, initially white, gradually becoming pale grey to orange in middle and grey at the margin; from below: filamentous, pale orange at the middle and dark grey at the margin.

Material examined: TAIWAN, Alishan Mountain, on dead leaves of Camellia sinensis (Theaceae) , 16 August 2019, Achala Rathnayaka (MFLU 21-0007, holotype); ex-type living culture NCYUCC 19-0408.

GenBank accession numbers: SSU: MW478590 View Materials , LSU : MW478592 View Materials , ITS : MW478596 View Materials , rpb 2: MW478492 View Materials

Notes: Pseudorobillarda camelliae-sinensis fits within the generic concept of Pseudorobillarda in having pycnidial conidiomata and subcylindrical conidia with apical appendages ( Tangthirasunun et al. 2014). Based on multi-gene phylogeny (SSU, LSU, ITS and rpb 2), P. camelliae-sinensis constitutes a distant lineage basal to P. eucalypti , P. parasiamensis , P. siamensis and P. sojae , with 92% ML and 0.99 PP bootstrap support. Pseudorobillarda camelliaesinensis shows a close phylogenetic affinity with P. parasiamensis ( FIGURE 1 View FIGURE 1 ). Detailed morphological comparison of this species is provided in TABLE 1. Some Pseudorobillarda species , such as P. agrostidis , P. aquatica , P. asparagus , P. bolusanthi , P. indica , P. jaczewskii , P. magna , P. monica , P. peltigerae , P. phragmitis , P. texana and P. setariae have paraphyses, while others, P. bambusae , P. eucalypti , P. muhlenbergiae , P. parasiamensis , P. siamensis , P. sojae and P. subfusca not exist paraphyses. Pseudorobillarda camelliae-sinensis also have paraphyses.

The length/width (L/W) ratio of conidia in Pseudorobillarda species ranges from 2.8–7.7. Pseudorobillarda camelliae-sinensis shows L/W of 4.3 closer to P. bolusanthi (4.1), P. indica (4.2) and P. monica (4.4). When considering the conidial septation, most of the Pseudorobillarda species have septate conidia. Pseudorobillarda eucalypti , P. parasiamensis , P. siamensis and P. texana have aseptate conidia similar to our new taxon, P. camelliae-sinensis . Pseudorobillarda aquatica has aseptate and rarely septate conidia. However, the L/W ratio of Pseudorobillarda camelliae-sinensis (4.3) is different from other Pseudorobillarda species with aseptate conidia ( TABLE 1). Base pair differences between Pseudorobillarda spp. are shown in TABLE 2. When considering the base pair comparison between our strain with other Pseudorobillarda strains, LSU shows around 7% average base pair differences, while ITS shows around 20% average base pair differences (without gaps). A very few Pseudorobillarda species have rpb 2 sequences and it shows 20% of average base pair difference between P. camelliae-sinensis and other Pseudorobillarda strains ( TABLE 2). Pseudorobillarda parasiamensis shows the highest ITS base pair differences (28.3%), while P. sojae (MFLUCC 12-0421) shows the lowest value (16.3%) with P. camelliae-sinensis . Due to the distinct morphology and phylogenetic evidence, we introduce P. camelliae-sinensis as a new species in Pseudorobillarda .

*Species with molecular data

Notes: ‘-‘ do not have sequences