Reports

Seasonal Dynamics of Previously Unknown Fungal Lineages in Tundra Soils

Christopher W. Schadt,^1* Andrew P. Martin,¹ David A. Lipson,² Steven K. Schmidt¹

The finding that microbial communities are active under snow has changed the estimated global rates of biogeochemical processes beneath seasonal snow packs. We used microbiological and molecular techniques to elucidate the phylogenetic composition of undersnow microbial communities in Colorado, the United States. Here, we show that tundra soil microbial biomass reaches its annual peak under snow, and that fungi account for most of the biomass. Phylogenetic analysis of tundra soil fungi revealed a high diversity of fungi and three novel clades that constitute major new groups of fungi (divergent at the subphylum or class level). An abundance of previously unknown fungi that are active beneath the snow substantially broadens our understanding of both the diversity and biogeochemical functioning of fungi in cold environments.

¹ Department of Ecology and Evolutionary Biology, University of Colorado, Boulder, CO 80309–0334, USA.
² Department of Biology, San Diego State University, San Diego, CA 92182–4614, USA.

^* Present address: Environmental Sciences Division, Oak Ridge National Laboratory, Oak Ridge, TN 37831–6038, USA.

To whom correspondence should be addressed. E-mail: schmidts{at}spot.colorado.edu

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The Ascomycota Tree of Life: A Phylum-wide Phylogeny Clarifies the Origin and Evolution of Fundamental Reproductive and Ecological Traits.

C. L. Schoch, G.-H. Sung, F. Lopez-Giraldez, J. P. Townsend, J. Miadlikowska, V. Hofstetter, B. Robbertse, P. B. Matheny, F. Kauff, Z. Wang, et al. (2009)
Syst Biol
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The earliest stages of ecosystem succession in high-elevation (5000 metres above sea level), recently deglaciated soils.

S.K Schmidt, S. C Reed, D. R Nemergut, A Stuart Grandy, C. C Cleveland, M. N Weintraub, A. W Hill, E. K Costello, A.F Meyer, J.C Neff, et al. (2008)
Proc R Soc B 275, 2793-2802
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Molecular diversity assessment of arctic and boreal Agaricus taxa.

J. Geml, G. A. Laursen, and D. L. Taylor (2008)
Mycologia 100, 577-589
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Analysis of Fungal Flora in Indoor Dust by Ribosomal DNA Sequence Analysis, Quantitative PCR, and Culture.

M. Pitkaranta, T. Meklin, A. Hyvarinen, L. Paulin, P. Auvinen, A. Nevalainen, and H. Rintala (2008)
Appl. Envir. Microbiol. 74, 233-244
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Impact of Plant Functional Group, Plant Species, and Sampling Time on the Composition of nirK-Type Denitrifier Communities in Soil.

C. Bremer, G. Braker, D. Matthies, A. Reuter, C. Engels, and R. Conrad (2007)
Appl. Envir. Microbiol. 73, 6876-6884
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Metagenomic and Small-Subunit rRNA Analyses Reveal the Genetic Diversity of Bacteria, Archaea, Fungi, and Viruses in Soil.

N. Fierer, M. Breitbart, J. Nulton, P. Salamon, C. Lozupone, R. Jones, M. Robeson, R. A. Edwards, B. Felts, S. Rayhawk, et al. (2007)
Appl. Envir. Microbiol. 73, 7059-7066
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Mobility of Nitrogen-15-Labeled Nitrate and Sulfur-34-Labeled Sulfate during Snowmelt.

J. L. Campbell, M. J. Mitchell, B. Mayer, P. M. Groffman, and L. M. Christenson (2007)
Soil Sci. Soc. Am. J. 71, 1934-1944
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Seasonal Dynamics of Arbuscular Mycorrhizal Fungal Communities in Roots in a Seminatural Grassland.

J. C. Santos-Gonzalez, R. D. Finlay, and A. Tehler (2007)
Appl. Envir. Microbiol. 73, 5613-5623
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Microbiological and molecular determination of mycobiota in fresh and ensiled maize silage.

M.A. Mansfield and G.A. Kuldau (2007)
Mycologia 99, 269-278
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Diversity of Basidiomycetes in Michigan Agricultural Soils.

M. D. J. Lynch and R. G. Thorn (2006)
Appl. Envir. Microbiol. 72, 7050-7056
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Early diverging Ascomycota: phylogenetic divergence and related evolutionary enigmas.

J. Sugiyama, K. Hosaka, and S.-O. Suh (2006)
Mycologia 98, 996-1005
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Four psychrotolerant species with high chemical diversity consistently producing cycloaspeptide A, Penicillium jamesonlandense sp. nov., Penicillium ribium sp. nov., Penicillium soppii and Penicillium lanosum.

J. C. Frisvad, T. O. Larsen, P. W. Dalsgaard, K. A. Seifert, G. Louis-Seize, E. K. Lyhne, B. B. Jarvis, J. C. Fettinger, and D. P. Overy (2006)
Int J Syst Evol Microbiol 56, 1427-1437
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Comparison of taxonomic, colony morphotype and PCR-RFLP methods to characterize microfungal diversity..

L. S. Watrud, K. Martin, K. K. Donegan, J. K. Stone, and C. G. Coleman (2006)
Mycologia 98, 384-392
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Introducing TreeClimber, a Test To Compare Microbial Community Structures.

P. D. Schloss and J. Handelsman (2006)
Appl. Envir. Microbiol. 72, 2379-2384
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Only a Few Fungal Species Dominate Highly Diverse Mycofloras Associated with the Common Reed.

K. Neubert, K. Mendgen, H. Brinkmann, and S. G. R. Wirsel (2006)
Appl. Envir. Microbiol. 72, 1118-1128
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Can rDNA analyses of diverse fungal communities in soil and roots detect effects of environmental manipulations--a case study from tallgrass prairie..

A. Jumpponen and L. C. Johnson (2005)
Mycologia 97, 1177-1194
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Unexpectedly High Bacterial Diversity in Arctic Tundra Relative to Boreal Forest Soils, Revealed by Serial Analysis of Ribosomal Sequence Tags.

J. D. Neufeld and W. W. Mohn (2005)
Appl. Envir. Microbiol. 71, 5710-5718
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Diversity of the Microeukaryotic Community in Sulfide-Rich Zodletone Spring (Oklahoma).

Q. Luo, L. R. Krumholz, F. Z. Najar, A. D. Peacock, B. A. Roe, D. C. White, and M. S. Elshahed (2005)
Appl. Envir. Microbiol. 71, 6175-6184
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Fungal Community Analysis by Large-Scale Sequencing of Environmental Samples.

H. E. O'Brien, J. L. Parrent, J. A. Jackson, J.-M. Moncalvo, and R. Vilgalys (2005)
Appl. Envir. Microbiol. 71, 5544-5550
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Automated Phylogenetic Taxonomy: An Example in the Homobasidiomycetes (Mushroom-Forming Fungi).

D. S. Hibbett, R. H. Nilsson, M. Snyder, M. Fonseca, J. Costanzo, and M. Shonfeld (2005)
Syst Biol 54, 660-668
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In Vivo Monitoring of Obligate Biotrophic Pathogen Growth by Kinetic PCR.

B. Boyle, R. C. Hamelin, and A. Seguin (2005)
Appl. Envir. Microbiol. 71, 1546-1552
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Assembling the fungal tree of life: progress, classification, and evolution of subcellular traits.

F. Lutzoni, F. Kauff, C. J. Cox, D. McLaughlin, G. Celio, B. Dentinger, M. Padamsee, D. Hibbett, T. Y. James, E. Baloch, et al. (2004)
Am. J. Botany 91, 1446-1480
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Seasonal Changes in an Alpine Soil Bacterial Community in the Colorado Rocky Mountains.

D. A. Lipson and S. K. Schmidt (2004)
Appl. Envir. Microbiol. 70, 2867-2879
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Molecular and Metabolic Characterization of Cold-Tolerant Alpine Soil Pseudomonas Sensu Stricto.

A. F. Meyer, D. A. Lipson, A. P. Martin, C. W. Schadt, and S. K. Schmidt (2004)
Appl. Envir. Microbiol. 70, 483-489
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