Aureobasidium aerium N. Jiang, 2022

Wang, Cheng-Bin, Jiang, Ning, Tu, Yan, Zhu, Ya-Quan, Xue, Han & Li, Yong, 2022, Aureobasidium aerium (Saccotheciaceae, Dothideales), a new yeast-like fungus from the air in Beijing, China, Phytotaxa 544 (2), pp. 185-192 : 187-188

publication ID

https://doi.org/ 10.11646/phytotaxa.544.2.4

DOI

https://doi.org/10.5281/zenodo.6503886

persistent identifier

https://treatment.plazi.org/id/D412CF14-FFFE-FF9D-FF06-F909FEB944D5

treatment provided by

Plazi

scientific name

Aureobasidium aerium N. Jiang
status

sp. nov.

Aureobasidium aerium N. Jiang View in CoL , sp. nov. FIGURE 2 View FIGURE 2 .

MycoBank no: 843527

Etymology: Referring to air where the ex - type strain originated.

Colonies moderately grow on PDA medium, attaining diameter of 30 mm after 7 days of incubation at 25 °C. Colonies are darkly olivaceous, flat, smooth green-yellow and fimbriate margins, often covered in slimy masses of conidia, with no aeriuml mycelium. Hyphae septate, smooth, thin-walled, soon becoming melanized and thick-walled. Conidia 7.3–11.6 × 4–6.9 µm (av. = 8.5 × 5.1 µm), hyaline, aseptate, smooth walled, ellipsoidal to ovoid, variable in size, with rounded to subtruncate base and a flat indistinct hilum. Chlamydospores 12.8–19.5 × 7.9–11.9 µm (av. = 15.3 × 8.7 µm), dark brown, smooth to lightly rough walled, septate to aseptate, globose to ellipsoidal 1- to 2-celled.

Material examined: — CHINA, Beijing, Haidian District, Xiangshan Mountain , from air, H . Xue, 14 April 2015 (holotype CAF 800043 About CAF = JNH0039; ex - type culture CFCC 50324 ); ibid. (culture CFCC 56831 ) .

Notes: — Two isolates from air clustered into a well - supported clade ( Fig. 1 View FIGURE 1 ). Aureobasidium aerium is phylogenetically close to Aureobasidium subglaciale from subglacial ice in sea water; Aureobasidium leucosperm from Leucospermum leaves; Aureobasidium namibiae from dolomitic marble in Namib Desert; and Aureobasidium pini from pine needle surface. However, these five species can be distinguished by the sizes of conidia (12.8 – 19.5 × 7.9 – 11.9 µm in A. aerium vs. 5.5 – 28 × 2 – 6.5 µm in A. subglaciale vs. 8 – 13 × 5 – 9 / 8 – 24 × 2 – 10 µm in A. leucosperm vs. 7 – 17 × 3.5 – 7 µm in A. namibiae vs. 5.1 – 10.5 × 2.5 – 4.8 µm in A. pini ) ( Zalar et al. 2008; Crous et al. 2011; Jiang et al. 2019).

H

University of Helsinki

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