Multilocus phylogeny- and fruiting feature-assisted delimitation of European Cyclocybe aegerita from a new Asian species complex and related species

Cyclocybe aegerita (synonym: Agrocybe aegerita ) is a widely cultivated edible and reportedly almost cosmopolitan mushroom species that serves as a model fungus for basidiome formation and as producer of useful natural products and enzymes. Focusing on strains from different continents, here, we pre...

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Bibliographic Details
Published in:Mycological progress 2020, Vol.19 (10), p.1001-1016
Main Authors: Frings, Roman A., Maciá-Vicente, Jose G., Buße, Sandra, Čmoková, Adéla, Kellner, Harald, Hofrichter, Martin, Hennicke, Florian
Format: Article
Language:English
Subjects:
Basidiocarps
Basidiomes
Biomedical and Life Sciences
Ecology
Fungi
Geographical distribution
Life Sciences
Microbiology
Mushrooms
Natural products
Original
Original Article
Phylogenetics
Phylogeny
Plant Sciences
Species
Stipes
Topical collection on Basidiomycote Mycology in honor of Franz Oberwinkler who passed away in March 2018
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Summary:Cyclocybe aegerita (synonym: Agrocybe aegerita ) is a widely cultivated edible and reportedly almost cosmopolitan mushroom species that serves as a model fungus for basidiome formation and as producer of useful natural products and enzymes. Focusing on strains from different continents, here, we present a phylogenetic analysis of this species and some adjacent taxa that employs four phylogenetic markers. In addition, we tested the strains’ capability to fructify on agar media. Our analysis reveals that “ C. aegerita sensu lato ” splits up into the following two well-supported monophyletic geographic lineages: a European clade and an Asian clade. The European one is closely associated with the Chinese species Cyclocybe salicaceicola . In contrast, the Asian lineage, which we preliminarily designate as Cyclocybe chaxingu agg., may comprise several species (species complex) and clusters with the Pacific species Cyclocybe parasitica (New Zealand). In addition, fruiting properties differ across C. aegerita and its Asian and Pacific relatives; however, strains from the Asian clade and C. parasitica tend to form larger basidiomes with relatively big caps and long stipes and strains from the European clade exhibit a more variable fruiting productivity with the tendency to form more basidiomes, with smaller caps and shorter stipes. Moreover, some strains showed individual fruiting patterns, such as the preference to fruit where they were exposed to injuring stimuli. In conclusion, the delimitation of the newly delimited Asian species complex from our multilocus phylogeny of “ C. aegerita sensu lato ”, which is supported by phenotypic data, depicts an exemplary case of biogeographic diversity within a previously thought homogeneous species of near worldwide distribution.
ISSN:1617-416X
1861-8952
DOI:10.1007/s11557-020-01599-z