Abstract
Wildfires play a critical role in maintaining biodiversity and shaping ecosystem structure in fire-prone regions, and successional patterns involving numerous plant and fungal species in post-fire events have been elucidated. Evidence is growing to support the idea that some post-fire fungi can form endophytic/endolichenic relationships with plants and lichens. However, no direct observations of fire-associated fungal–moss interactions have been visualized to date. Therefore, physical interactions between a post-fire fungus, Pholiota carbonaria, and a moss, Polytrichum commune, were visually examined under laboratory conditions. Fungal appressoria were visualized on germinating spores and living protonemata within two weeks of inoculation in most growth chambers. Appressoria were pigmented, reddish gold to braun, and with a penetration peg. Pigmented, reddish gold to braun fungal hyphae were associated with living tissue, and numerous mature rhizoids contained fungal hyphae at six months. Inter-rhizoidal hyphae were pigmented and reddish gold to braun, but no structures were visualized on mature gametophyte leaf or stem tissues. Based on our visual evidence and previous work, we provide additional support for P. carbonaria having multiple strategies in how it obtains nutrients from the environment, and provide the first visual documentation of these structures in vitro.
Highlights
Wildfires play a critical role in shaping ecosystems, maintaining biodiversity, and influencing ecological processes in fire-prone regions [1]
Post-fire fungi are categorized into two main categories based on their response to fruiting in burnt habitats [5]: (1) fruiting occurs only after a fire, and (2) fruiting can occur at any time, but fruiting is enhanced after a fire
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Summary
Wildfires play a critical role in shaping ecosystems, maintaining biodiversity, and influencing ecological processes in fire-prone regions [1]. Post-fire colonizers include fire-associated fungal and bryophyte species that often occur in close spatial proximity [2,3,4]. Colonizers are believed to be important in ecosystem recovery through nutrient retention, binding soil particles, and serving as mycorrhizal inoculants [2,3]. There is a knowledge gap in our understanding of post-fire early colonizer life strategies, with respect to post-fire fungi. Post-fire fungi are categorized into two main categories based on their response to fruiting in burnt habitats [5]: (1) fruiting occurs only after a fire, and (2) fruiting can occur at any time, but fruiting is enhanced after a fire. Pearson and Dennis, Pholiota carbonaria (Fr.) Singer, Pyronema spp., and Rhizina undulata Fr. are some species that require fire to fruit. Fungal species with enhanced fruit body production after a fire include Hygrocybe conica (Schaeff.) P. Kumm., Mycena galericulata (Scop.) Gray, Sphaerosporella spp., and Thelephora terrestris Ehrh. [5]
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