TY - JOUR
T1 - Contributions of North American endophytes to the phylogeny, ecology, and taxonomy of Xylariaceae (Sordariomycetes, Ascomycota)
AU - U'Ren, Jana M.
AU - Miadlikowska, Jolanta
AU - Zimmerman, Naupaka B.
AU - Lutzoni, François
AU - Stajich, Jason E.
AU - Arnold, A. Elizabeth
N1 - Funding Information: For funding we thank the National Science Foundation ( DEB-0640996 and DEB-1045766 to AEA; DEB-0640956 and DEB-1046065 to FL; an NSF Doctoral Dissertation Improvement Grant by U’Ren, to AEA: DEB-1010675 ); NSF 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); the College of Agriculture and Life Sciences and the School of Plant Sciences at The University of Arizona; and the IGERT program for funding JMU during her dissertation work. The Mycological Society of America’s Clark T. Rogerson student research award and MSA Graduate Fellowship to JMU also supported this work. NBZ was funded by the Gordon and Betty Moore Foundation through Grant GBMF 2550.03 to the Life Sciences Research Foundation. The authors thank J. Rogers, C. Davis, M. McMahon, and M. Beilstein for helpful discussion and advice on the project; E. Gaya, K. Molnár, B. Hodkinson, V. Wong, T. Truong, T. Abbey, T. Gleason, A. Ndobegang, J. Riddle, F. Santos, M. Gunatilaka, M. Hoffman, M. del Olmo-Ruiz, D. Sandberg, and D. L. Taylor for field and laboratory assistance; D.R. Maddison for sharing pre-release versions of Mesquite and ChromaSeq; I. Carbone, F. Kauff, and B. Hurwitz for computational assistance; and J. Lendemer, R. Harris, B. Hodkinson, E. Gaya, B. McCune, and S. Heidmarsson for assistance with lichen identification. Publisher Copyright: © 2016 Elsevier Inc.
PY - 2016/5/1
Y1 - 2016/5/1
N2 - The Xylariaceae (Sordariomycetes) comprise one of the largest and most diverse families of Ascomycota, with at least 85 accepted genera and ca. 1343 accepted species. In addition to their frequent occurrence as saprotrophs, members of the family often are found as endophytes in living tissues of phylogenetically diverse plants and lichens. Many of these endophytes remain sterile in culture, precluding identification based on morphological characters. Previous studies indicate that endophytes are highly diverse and represent many xylariaceous genera; however, phylogenetic analyses at the family level generally have not included endophytes, such that their contributions to understanding phylogenetic relationships of Xylariaceae are not well known. Here we use a multi-locus, cumulative supermatrix approach to integrate 92 putative species of fungi isolated from plants and lichens into a phylogenetic framework for Xylariaceae. Our collection spans 1933 isolates from living and senescent tissues in five biomes across the continental United States, and here is analyzed in the context of previously published sequence data from described species and additional taxon sampling of type specimens from culture collections. We found that the majority of strains obtained in our surveys can be classified in the hypoxyloid and xylaroid subfamilies, although many also were found outside of these lineages (as currently circumscribed). Many endophytes were placed in lineages previously not known for endophytism. Most endophytes appear to represent novel species, but inferences are limited by potential gaps in public databases. By linking our data, publicly available sequence data, and records of ascomata, we identify many geographically widespread, host-generalist clades capable of symbiotic associations with diverse photosynthetic partners. Concomitant with such cosmopolitan host use and distributions, many xylariaceous endophytes appear to inhabit both living and non-living plant tissues, with potentially important roles as saprotrophs. Overall, our study reveals major gaps in the availability of multi-locus datasets and metadata for this iconic family, and provides new hypotheses regarding the ecology and evolution of endophytism and other trophic modes across the family Xylariaceae.
AB - The Xylariaceae (Sordariomycetes) comprise one of the largest and most diverse families of Ascomycota, with at least 85 accepted genera and ca. 1343 accepted species. In addition to their frequent occurrence as saprotrophs, members of the family often are found as endophytes in living tissues of phylogenetically diverse plants and lichens. Many of these endophytes remain sterile in culture, precluding identification based on morphological characters. Previous studies indicate that endophytes are highly diverse and represent many xylariaceous genera; however, phylogenetic analyses at the family level generally have not included endophytes, such that their contributions to understanding phylogenetic relationships of Xylariaceae are not well known. Here we use a multi-locus, cumulative supermatrix approach to integrate 92 putative species of fungi isolated from plants and lichens into a phylogenetic framework for Xylariaceae. Our collection spans 1933 isolates from living and senescent tissues in five biomes across the continental United States, and here is analyzed in the context of previously published sequence data from described species and additional taxon sampling of type specimens from culture collections. We found that the majority of strains obtained in our surveys can be classified in the hypoxyloid and xylaroid subfamilies, although many also were found outside of these lineages (as currently circumscribed). Many endophytes were placed in lineages previously not known for endophytism. Most endophytes appear to represent novel species, but inferences are limited by potential gaps in public databases. By linking our data, publicly available sequence data, and records of ascomata, we identify many geographically widespread, host-generalist clades capable of symbiotic associations with diverse photosynthetic partners. Concomitant with such cosmopolitan host use and distributions, many xylariaceous endophytes appear to inhabit both living and non-living plant tissues, with potentially important roles as saprotrophs. Overall, our study reveals major gaps in the availability of multi-locus datasets and metadata for this iconic family, and provides new hypotheses regarding the ecology and evolution of endophytism and other trophic modes across the family Xylariaceae.
KW - Daldinia loculata
KW - Endolichenic fungi
KW - Symbiosis
KW - Systematics
KW - Xylaria cubensis
KW - Xylariomycetidae
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U2 - 10.1016/j.ympev.2016.02.010
DO - 10.1016/j.ympev.2016.02.010
M3 - Article
C2 - 26903035
SN - 1055-7903
VL - 98
SP - 210
EP - 232
JO - Molecular Phylogenetics and Evolution
JF - Molecular Phylogenetics and Evolution
ER -