A plant growth-promoting symbiosis between Mycena galopus and Vaccinium corymbosum seedlings

• Published in: Mycorrhiza Vol. 27; no. 8; pp. 831 - 839
• Main Authors: Grelet, Gwen-Aëlle, Ba, Ren, Goeke, Dagmar F., Houliston, Gary J., Taylor, Andy F. S., Durall, Daniel M.
• Format: Journal Article
• Language: English
• Published: Berlin/Heidelberg Springer Berlin Heidelberg 01.11.2017; Springer Nature B.V
• Subjects: Agaricales - physiology; Agriculture; Ascomycota - physiology; Biomedical and Life Sciences; Blueberry Plants - growth & development; Blueberry Plants - microbiology; Ecology; Ericaceae; Flowers & plants; Forestry; Fungi; Life Sciences; Microbiology; Mycorrhizae - physiology; Plant growth; Plant roots; Plant Sciences; Plant species; Polyethylene glycol; Recruitment; Roots; Seedlings; Seedlings - growth & development; Seedlings - microbiology; Short Note; Species; Symbiosis; Vaccinium corymbosum; Trophic flexibity; Ericoid mycorrhizal symbiosis; Mycorrhizal evolution; genus; Trophic habit; Mycena genus
• ISSN: 0940-6360; 1432-1890
• DOI: 10.1007/s00572-017-0797-5

Typically, Mycena species are viewed as saprotrophic fungi. However, numerous detections of Mycena spp. in the roots of green plants suggest that a continuum from saprotrophy to biotrophy could exist. In particular, mycenoid species have repeatedly been found in Ericaceae plant roots. Our study asked whether (1) Mycena species are commonly found in the roots of green Ericaceae plants; (2) Mycena sequences are limited to a single group/lineage within the genus; and (3) a Mycena sp. can behave as a beneficial root associate with a typical ericoid mycorrhizal plant ( Vaccinium corymbosum ), regardless of how much external labile carbon is available. We detected Mycena sequences in roots of all sampled Ericaceae plants. Our Mycena sequences clustered in four different groups distributed across the Mycena genus. Only one group could be assigned with confidence to a named species ( M. galopus ). Our Mycena sequences clustered with other Mycena sequences detected in roots of ericoid mycorrhizal plant species collected throughout Europe, America, and Australia. An isolate of M. galopus promoted growth of V. corymbosum seedlings in vitro regardless of external carbon supply in the media. Seedlings inoculated with M. galopus grew as well as those inoculated with the ericoid mycorrhizal fungus Rhizoscyphus ericae. Surprisingly, this M. galopus isolate colonized Vaccinium roots and formed distinctive peg-like structures. Our results suggest that Mycena species might operate along a saprotroph–symbiotic continuum with a range of ericoid mycorrhizal plant species. We discuss our results in terms of fungal partner recruitment by Ericaceae plants.