Kondoa myxariophila J.P. Sampaio, Q.M. Wang & F.Y. Bai, 2020

Kondoa myxariophila J.P. Sampaio, Q.M. Wang & F.Y. Bai View in CoL sp. nov. MycoBank MB828799. Figs 12P View Fig and 13 View Fig .

Etymology: the specific epithet myxariophila refers to the association of the novel taxon with the fruiting bodies of Myxarium nucleatum ( Auriculariales ).

Sexual characteristics: The sexual stage is observed PDA and MYP plates incubated at 20 °C for 8 – 12 wk and occurs in individual strains in the absence of mating. Hyphae are 3– 5 μm in diameter and have clamp connections. Basidia are cylindrical, transversely-septate, usually four-celled and measure 40– 60 × 7.5– 5 μm ( Fig. 13A, C View Fig ). Basidiospores are formed at the end of basidial sterigmata, measuring 10– 5 μm in length. Basidiospores are oval, measure 11 –9 × 7 –5 μm ( Fig. 13B View Fig ), are forcefully ejected (ballistospores) and germinate by budding. Haustorial branches are conspicuously formed and occur laterally on hyphae ( Fig. 13C, D View Fig ).

Culture characteristics: In YM broth, after 7 d at 17 °C, cells are ellipsoidal to ovoid, measure 3 – 4 × 4 – 6 μm and occur single or in pairs and budding is polar ( Fig. 12P View Fig ). A sediment is formed. After 1 mo at 17 °C, a pellicle and a sediment are present. On YM agar, after 1 mo at 17 °C, the streak culture is pale yellow, butyrous, semi-glossy and smooth. The margin is entire. In Dalmau plate culture on corn meal agar, pseudohyphae are not formed. Ballistoconidia can be produced in solid medium (CMA) but are rare and measure 4 – 5 × 5 – 8 μm ( Fig. 13E View Fig ).

Physiological and biochemical characteristics: Glucose fermentation is absent. Glucose, sucrose, maltose, trehalose, melibiose (variable), cellobiose (variable), raffinose (variable), melezitose, soluble starch, D-xylose, L-arabinose (delayed and weak), Darabinose (delayed and weak), D-ribose (variable), L-rhamnose (delayed and weak), D-glucosamine (variable), glycerol (delayed and weak), ribitol (variable), salicin (variable), D-mannitol (delayed and weak), D-glucitol (delayed and weak), succinate (delayed and weak) and citrate (weak) are assimilated as sole carbon sources. Galactose, L-sorbose, lactose, inulin, methanol, ethanol, erythritol, galactitol, Methyl-α- D-glucoside, DL-lactate, myo-inositol and hexadecane are not assimilated. Ammonium sulfate, potassium nitrate (variable), sodium nitrite (variable), ethylamine hydrochloride (delayed and weak) and cadaverine dihydrochloride (delayed and weak) are assimilated as sole nitrogen sources. L-lysine is not assimilated. Maximum growth temperature is 22– 25 °C. Growth in vitamin-free medium is positive. Starch-like substances are not produced. Growth on 50 % (w/w) glucose-yeast extract agar is negative. Urease activity is positive. Diazonium Blue B reaction is positive.

Physiologically, Kon. myxariophila differs from its closest relatives, Kon. daliangziensis, Kon. ribitolophobia and Kon. gutianensis , in its inability to assimilate L-lysine and its ability to assimilate soluble starch and D-xylose ( Table S1.17 View Table 1 ).

Typus: Portugal, Sesimbra, obtained from the fruiting body of Myxarium nucleatum ( Auriculariales ), Nov. 1992, J.P. Sampaio

(holotype PYCC 5509 T preserved in a metabolically inactive state, ex-type CBS 8379 = ZP 337).

Note: Besides several sexual strains isolated with the ballitoconidium-fall method from basidiocarps of Myxarium nucleatum in Portugal (PYCC 5509 = ZP 337; PYCC 8354 = ZP 338; and PYCC 8305 = ZP 352) in 1992 and 1996, another strain was isolated from the leaf of an unidentified plant, collected in Germany in September 2005 (CGMCC 2.3106 = CBS 15468). Although a sexual stage has not been reported for the culture isolated in Germany, these four strains have similar ITS sequences. Therefore, Kon. myxariophila appears to be capable to engage in mycoparasitism because it produces haustorial branches and is ecologically associated with other fungi. Nevertheless, the mycoparasitic strategy might be combined with a saprobe lifestyle in the phylloplane since Kon. myxariophila is also able to produce ballistoconidia and is also found in association with plant leafs. Similarly to the other two sexual species in the genus, Kon. aeria and Kon. malvinella , Kon. myxariophila does not produce teliospores, produces transversely-septate basidia and its basidiospores are forcefully discharged (ballistospores).