TY - JOUR
T1 - Community Analysis Reveals Close Affinities Between Endophytic and Endolichenic Fungi in Mosses and Lichens
AU - U'Ren, Jana M.
AU - Lutzoni, François
AU - Miadlikowska, Jolanta
AU - Arnold, A. Elizabeth
N1 - Funding Information: We gratefully acknowledge the National Science Foundation for supporting this research (DEB-0640996 to AEA, DEB-0640956 to FL, and an NSF-supported IGERT Fellowship in Genomics to JMU) and for fostering discussion that informed this work through the Fungal Environmental Sampling and Informatics Network (FESIN; DEB-0639048 to T. Bruns, K. Hughes, and AEA). We thank E. Gaya, A. Laetsch, F. Santos, M. Gunatilaka, M. Hoffman and M. del Olmo R. for technical assistance, D. R. Maddison for sharing pre-release versions of Mesquite and ChromaSeq, T. Wheeler and J. Stajich for computational assistance, R. J. Steidl for helpful discussion, R. Harris, B. Hodkinson, E. Gaya and S. Heidmarsson for assistance with lichen identifications, and J. Bronstein for helpful comments on the manuscript.
PY - 2010
Y1 - 2010
N2 - Endolichenic fungi live in close association with algal photobionts inside asymptomatic lichen thalli and resemble fungal endophytes of plants in terms of taxonomy, diversity, transmission mode, and evolutionary history. This similarity has led to uncertainty regarding the distinctiveness of endolichenic fungi compared with endophytes. Here, we evaluate whether these fungi represent distinct ecological guilds or a single guild of flexible symbiotrophs capable of colonizing plants or lichens indiscriminately. Culturable fungi were sampled exhaustively from replicate sets of phylogenetically diverse plants and lichens in three microsites in a montane forest in southeastern Arizona (USA). Intensive sampling combined with a small spatial scale permitted us to decouple spatial heterogeneity from host association and to sample communities from living leaves, dead leaves, and lichen thalli to statistical completion. Characterization using data from the nuclear ribosomal internal transcribed spacer and partial large subunit (ITS-LSU rDNA) provided a first estimation of host and substrate use for 960 isolates representing five classes and approximately 16 orders, 32 families, and 65 genera of Pezizomycotina. We found that fungal communities differ at a broad taxonomic level as a function of the phylogenetic placement of their plant or lichen hosts. Endolichenic fungal assemblages differed as a function of lichen taxonomy, rather than substrate, growth form, or photobiont. In plants, fungal communities were structured more by plant lineage than by the living vs. senescent status of the leaf. We found no evidence that endolichenic fungi are saprotrophic fungi that have been "entrapped" by lichen thalli. Instead, our study reveals the distinctiveness of endolichenic communities relative to those in living and dead plant tissues, with one notable exception: we identify, for the first time, an ecologically flexible group of symbionts that occurs both as endolichenic fungi and as endophytes of mosses.
AB - Endolichenic fungi live in close association with algal photobionts inside asymptomatic lichen thalli and resemble fungal endophytes of plants in terms of taxonomy, diversity, transmission mode, and evolutionary history. This similarity has led to uncertainty regarding the distinctiveness of endolichenic fungi compared with endophytes. Here, we evaluate whether these fungi represent distinct ecological guilds or a single guild of flexible symbiotrophs capable of colonizing plants or lichens indiscriminately. Culturable fungi were sampled exhaustively from replicate sets of phylogenetically diverse plants and lichens in three microsites in a montane forest in southeastern Arizona (USA). Intensive sampling combined with a small spatial scale permitted us to decouple spatial heterogeneity from host association and to sample communities from living leaves, dead leaves, and lichen thalli to statistical completion. Characterization using data from the nuclear ribosomal internal transcribed spacer and partial large subunit (ITS-LSU rDNA) provided a first estimation of host and substrate use for 960 isolates representing five classes and approximately 16 orders, 32 families, and 65 genera of Pezizomycotina. We found that fungal communities differ at a broad taxonomic level as a function of the phylogenetic placement of their plant or lichen hosts. Endolichenic fungal assemblages differed as a function of lichen taxonomy, rather than substrate, growth form, or photobiont. In plants, fungal communities were structured more by plant lineage than by the living vs. senescent status of the leaf. We found no evidence that endolichenic fungi are saprotrophic fungi that have been "entrapped" by lichen thalli. Instead, our study reveals the distinctiveness of endolichenic communities relative to those in living and dead plant tissues, with one notable exception: we identify, for the first time, an ecologically flexible group of symbionts that occurs both as endolichenic fungi and as endophytes of mosses.
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U2 - 10.1007/s00248-010-9698-2
DO - 10.1007/s00248-010-9698-2
M3 - Article
C2 - 20625714
SN - 0095-3628
VL - 60
SP - 340
EP - 353
JO - Microbial ecology
JF - Microbial ecology
IS - 2
ER -