Airborne fungal colonisation of coarse woody debris in North Temperate Picea abies forest: impact of season and local spatial scale

Rimvydas VASILIAUSKAS; Vaidotas LYGIS; Karl-Henrik LARSSON; Jan STENLID

doi:10.1017/S0953756204002084

Abstract

Coarse woody debris is important for mycodiversity in forest ecosystems, but its availability in managed stands is reduced. Leaving dead wood during felling is suggested as an option to sustain and restore the diversity. However, little is known what fungi would colonise freshly cut wood left on managed sites, and how the colonisation process is influenced by ecological factors. During summer and autumn, 120 freshly cut Picea abies stem sections over 8 cm in diameter were placed upright in mapped locations over two discrete plots separated by 100 m in a north-temperate forest. After seven weeks the sections were collected, and isolation and identification of fungi was done from their upper surfaces. In all 943 fungal strains were isolated, representing 97 species. Species richness in the summer survey was 42.5% higher than during the autumn survey. Low species similarity characterized the different seasons (Sorensen indices: SS=0.36 and SN=0.34) and for 21 species (22%) observation frequency was significantly affected by season. As a result, community structures in summer and autumn differed notably (z-test; P<0.001). Species richness between the two plots differed by less than 10%, but there were 64 species (66%) found only in one of them, thus qualitative similarity was low (SS=0.49). Quantitative similarity was higher (SN=0.63), indicating that the dominant species colonised wood to a similar extent in both areas. Fungal community structure differed significantly among the two plots (z-test; P<0.001). Our data showed that freshly cut CWD contributed to mycodiversity in managed north-temperate forest, providing habitats for numerous individuals from over 100 species. The fungal community within a single stand differed markedly both across small distances and over the seasons. In order to sustain and enhance mycodiversity in managed stands, coarse wood should always be left during harvesting. This study also demonstrates the importance of molecular identification and ITS sequence databases for exploring fungal diversity in natural communities.

Crossref Citations

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Kauserud, Håvard Lie, Marit Stensrud, Øyvind and Ohlson, Mikael 2005. Molecular characterization of airborne fungal spores in boreal forests of contrasting human disturbance. Mycologia, Vol. 97, Issue. 6, p. 1215.

Woods, Caroline M. Woodward, Stephen Pinard, Michelle A. and Redfern, Derek B. 2006. Colonization of Sitka spruce stumps by decay-causing hymenomycetes in paired inoculations. Mycological Research, Vol. 110, Issue. 7, p. 854.

Koukol, O. Mrnka, L. Kulhánková, A. and Vosátka, M. 2006. Competition ofScleroconidioma sphagnicolawith fungi decomposing spruce litter needles. Canadian Journal of Botany, Vol. 84, Issue. 3, p. 469.

Hood, I. A. Beets, P. N. Gardner, J. F. Kimberley, M. O. Power, M. W.P. and Ramsfield, T. D. 2008. Basidiomycete decay fungi within stems of Nothofagus windfalls in a Southern Hemisphere beech forest. Canadian Journal of Forest Research, Vol. 38, Issue. 7, p. 1897.

Yamashita, Satoshi Hattori, Tsutomu Kuniyasu, Momose Nakagawa, Michiko Aiba, Masahiro and Nakashizuka, Tohru 2008. Effects of Forest Use on Aphyllophoraceous Fungal Community Structure in Sarawak, Malaysia. Biotropica, Vol. 40, Issue. 3, p. 354.

Saul, Nathan Krockenberger, Mark and Carter, Dee 2008. Evidence of Recombination in Mixed-Mating-Type and α-Only Populations of Cryptococcus gattii Sourced from Single Eucalyptus Tree Hollows . Eukaryotic Cell, Vol. 7, Issue. 4, p. 727.

Brischke, Christian and Rapp, Andreas Otto 2008. Influence of wood moisture content and wood temperature on fungal decay in the field: observations in different micro-climates. Wood Science and Technology, Vol. 42, Issue. 8, p. 663.

Lonsdale, David Pautasso, Marco and Holdenrieder, Ottmar 2008. Wood-decaying fungi in the forest: conservation needs and management options. European Journal of Forest Research, Vol. 127, Issue. 1, p. 1.

Samils, Nicklas Vasaitis, Rimvydas and Stenlid, Jan 2009. Impact of the biological control agentPhlebiopsis giganteaon its resident genetic structure in the Baltic Sea area. Biocontrol Science and Technology, Vol. 19, Issue. 3, p. 263.

EDWARDS, IVAN P. and ZAK, DONALD R. 2010. Phylogenetic similarity and structure of Agaricomycotina communities across a forested landscape. Molecular Ecology, Vol. 19, Issue. 7, p. 1469.

Fukasawa, Yu Osono, Takashi and Takeda, Hiroshi 2010. Beech log decomposition by wood‐inhabiting fungi in a cool temperate forest floor: a quantitative analysis focused on the decay activity of a dominant basidiomycete Omphalotus guepiniformis. Ecological Research, Vol. 25, Issue. 5, p. 959.

Robledo, Gerardo Lucio and Renison, Daniel 2010. Wood-decaying polypores in the mountains of central Argentina in relation to Polylepis forest structure and altitude. Fungal Ecology, Vol. 3, Issue. 3, p. 178.

Arhipova, N. Gaitnieks, T. Donis, J. Stenlid, J. and Vasaitis, R. 2011. Butt rot incidence, causal fungi, and related yield loss in Picea abies stands of Latvia. Canadian Journal of Forest Research, Vol. 41, Issue. 12, p. 2337.

Arhipova, N. Gaitnieks, T. Donis, J. Stenlid, J. and Vasaitis, R. 2011. Decay, yield loss and associated fungi in stands of grey alder (Alnus incana) in Latvia. Forestry, Vol. 84, Issue. 4, p. 337.

Lindner, Daniel L. Vasaitis, Rimvydas Kubartová, Ariana Allmér, Johan Johannesson, Hanna Banik, Mark T. and Stenlid, Jan 2011. Initial fungal colonizer affects mass loss and fungal community development in Picea abies logs 6yr after inoculation. Fungal Ecology, Vol. 4, Issue. 6, p. 449.

Junninen, Kaisa and Komonen, Atte 2011. Conservation ecology of boreal polypores: A review. Biological Conservation, Vol. 144, Issue. 1, p. 11.

Kristiansen, Anja Saunders, Aaron M. Hansen, Aviaja A. Nielsen, Per H. and Nielsen, Jeppe L. 2012. Community structure of bacteria and fungi in aerosols of a pig confinement building. FEMS Microbiology Ecology, Vol. 80, Issue. 2, p. 390.

Reanprayoon, Pradub and Yoonaiwong, Wattanachai 2012. Airborne concentrations of bacteria and fungi in Thailand border market. Aerobiologia, Vol. 28, Issue. 1, p. 49.

Arhipova, Natalija Gaitnieks, Talis Donis, Janis Stenlid, Jan and Vasaitis, Rimvydas 2012. Heart-rot and associated fungi inAlnus glutinosastands in Latvia. Scandinavian Journal of Forest Research, Vol. 27, Issue. 4, p. 327.

Liu, Weijie Schaefer, Douglas Qiao, Lu and Liu, Xianbin 2013. What controls the variability of wood-decay rates?. Forest Ecology and Management, Vol. 310, Issue. , p. 623.

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Airborne fungal colonisation of coarse woody debris in North Temperate Picea abies forest: impact of season and local spatial scale

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Airborne fungal colonisation of coarse woody debris in North Temperate Picea abies forest: impact of season and local spatial scale

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