References

Adams, J.M. and Woodward, F.I. (1989). Patterns in tree species richness as a test of the Glacial Extinction Hypothesis. Nature, 339, 699-701.

Adams, T.J.H., Williams, E.N.D., Todd, N.K. and Rayner, A.D.M. (1984). A species-specific method of analyzing populations of basidiospores. Transactions of the British Mycological Society, 82, 359-361.

Ahti, T., Hamet-Ahti, L. and Jalas, J. (1968). Vegetation zones and their sections in northwestern Europe. Annales Botanici Fennici, 5, 169-211.

Allmer, J., Vasiliauskas, R., Ihrmark, K., Stenlid, J. and Dahlberg, A. (2006). Wood-inhabiting fungal communities in woody debris of Norway spruce (Picea abies (L.) Karst.), as reflected by sporocarps, mycelial isolations and T-RFLP-identification. FEMS Microbiology Ecology, 55, 57-67.

Bader, P., Jansson, S. and Jonsson, B.G. (1995). Wood-inhabiting fungi and substratum decline in selectively logged boreal spruce forests. Biological Conservation, 72, 355-362.

Baier, R., Ettl, R., Hahn, C. and Gottlein, A. (2006). Early development and nutrition of Norway spruce (Picea abies (L.) Karst.) seedlings on different seedbeds in the Bavarian limestone Alps—A bioassay. Annals of Forest Science, 63, 339-348.

Bengtsson, J., Angelstam, P., Elmqvist, T., Emanuelsson, U., Folke, C., Ihse, M., Moberg, F. and Nystrom, M. (2003). Reserves, resilience and dynamic landscapes. Ambio, 32, 389-396.

Bergeron, Y., Leduc, A., Harvey, B.D. and Gauthier, S. (2002). Natural fire regime: A guide for sustainable management of the Canadian boreal forest. Silva Fennica, 36(1), 81-95.

Berglund, H., Edman, M. and Ericson, L. (2005). Temporal variation of wood-fungi diversity in boreal old-growth forests: Implications for monitoring. Ecological Applications, 15, 970-982.

Berglund, H. and Jonsson, B.G. (2003). Nested plant and fungal communities: The importance of area and habitat quality in maximizing species capture in boreal old-growth forests. Biological Conservation, 112, 319-328.

Boddy, L. (2001). Fungal community ecology and wood decomposition processes: From standing tree to complete decay of coarse woody debris. In: Ecology of Woody Debris in Boreal Forests (B.G. Jonsson and N. Kruys, eds.). Ecological Bulletins 49, 43-56.

Boddy, L. and Watkinson, S.C. (1995). Wood decomposition, higher fungi, and their role in nutrient redistribution. Canadian Journal of Botany, 73(Suppl. 1 E-H), S1377-S1383.

Bonan, G.B. and Vancleve, K. (1992). Soil-temperature, nitrogen mineralization, and carbon source sink relationships in boreal forests. Canadian Journal of Forest Research, 22, 629-639.

Brais, S., Pare, D. and Lierman, C. (2006). Tree bole mineralization rates of four species of the Canadian eastern boreal forest: Implications for nutrient dynamics following stand-replacing disturbances. Canadian Journal of Forest Research, 36, 2331-2340.

Brunner, A. and Kimmins, J.P. (2003). Nitrogen fixation in coarse woody debris of Thuja plicata and Tsuga heterophylla forests on northern Vancouver Island. Canadian Journal of Forest Research, 33, 1670-1682.

Byler, J.W., Marsden, M.A. and Hagle, S.K. (1990). The probability of root disease on the Lolo National Forest, Montana. Canadian Journal of Forest Research, 20, 987-994.

Castello, J., Leopold, D. and Smallidge, P. (1995). Pathogens, patterns, and processes in forest ecosystems. Bioscience, 45(1), 16-24.

Cooke, R.C. and Rayner, A.D.M. (1984). Ecology of Saprotrophic Fungi. Longman, London.

Courchamp, F., Clutton-Brock, T. and Grenfell, B. (1999). Inverse density dependence and the Allee effect. Trends in Ecology and Evolution, 14, 405-410.

Dahlberg, A. and Stokland, J.N. (2004). Substrate requirements of wood-inhabiting species. (In Swedish with English summary). Reports 7: 2004 Skogsstyrelsen, Jonkping, Sweden.

Dai, Y.C. (1996). Polypore flora and diversity in Ghangbai Mts., northeastern China. Academic dissertation, Publications in Botany from the University of Helsinki, 25, 1-23.

Dai, Y.C. (2000). A checklist of polypores from Northeast China. Karstenia, 40, 23-29.

Dai, Y.C. and Penttila, R. (2006). Polypore diversity of Fenglin Nature Reserve, northeastern China. Annales Botanici Fennici, 43, 81-96.

Dickman, A. and Cook, S. (1989). Fire and fungus in a mountain hemlock forest. Canadian Journal of Botany, 67, 2005-2016.

DeLuca, T.H., Zackrisson, O., Nilsson, M.C. and Sellstedt, A. (2002). Quantifying nitrogen-fixation in feather moss carpets of boreal forests. Nature, 419, 917-920.

Edman, M., Gustafsson, M., Stenlid, J. and Ericson, L. (2004a). Abundance and viability of fungal spores along a forestry gradient: Responses to habitat loss and isolation? Oikos, 104, 35-42.

Edman, M., Gustafsson, M., Stenlid, J., Jonsson, B.G. and Ericson, L. (2004b). Spore deposition of wood-decaying fungi: Importance of landscape composition. Ecography, 27, 103-111.

Edman, M., Kruys, N. and Jonsson, B.G. (2004c). Local dispersal sources strongly affect colonisation patterns of wood-decaying fungi on spruce logs. Ecological Applications, 14, 893-901.

Edman, M., Moller, R. and Ericson, L. (2006). Effects of enhanced tree growth rate on the decay capacities of three saprotrophic wood-fungi. Forest Ecology and Management, 232, 12-18.

Engelmark, O. (1999). Boreal forest disturbances. In: Ecosystems of Disturbed Ground. Ecosystems of the World 16 (L.R. Walker, ed.), pp. 161-186. Elsevier, Amsterdam.

Eriksson, J. (1958). Studies in the heterobasidiomycetes and homobasidiomycetes—Aphyllophorales of Muddus National Park in North Sweden. Symbolae Botanicae Upsaliensis, 16(1), 1-172.

Esseen, P.-A., Ehnstrom, B., Ericson, L. and Sjoberg, K. (1997). Boreal forests. Ecological Bulletins, 46,16-47.

Franklin, J.F., Lindenmayer, D.B., MacMahon, J.A., McKee, A., Magnusson, J., Perry, D.A., Waide, R. and Foster, D.R. (2000). Threads of continuity: Ecosystem disturbances, biological legacies and ecosystem recovery. Conservation Biology in Practice, 1, 8-16.

Fridman, J. and Walheim, M. (2000). Amount, structure, and dynamics of dead wood on managed forestland in Sweden. Forest Ecology and Management, 131, 23-36.

Froelich, R.C., Hodges, C.S. Jr. and Sackett, S.S. (1978). Prescribed burning reduces severity of annosus root rot in the south. Forest Science, 24(1), 93-100.

Gardenfors, U., Hall, R. Hallingback, T., Hansson, H.G. and Hedstrom, L. (2003). Animals, Fungi and Plants in Sweden. (In Swedish with English summary). Swedish Species Information Center, Uppsala, Sweden ISBN 92-88506-27-4, pp. 1-89.

Gilbertson, R. (1980). Wood-rotting fungi of North America. Mycologia, 72, 1-50.

Gilbertson, R.L. (1981). North American wood-rotting fungi that cause brown rots. Mycotaxon, XII, 372-416.

Gilbertson, R.L. and Ryvarden, L. (1986). North American Polypores 1. Fungiflora, Oslo.

Gilbertson, R.L. and Ryvarden, L. (1987). North American Polypores 2. Fungiflora, Oslo.

Goodale, C.L., Apps, M.J., Birdsey, R.A., Field, C.B., Heath, L.S., Houghton, R.A., Jenkins, J.C., Kohlmaier, G.H., Kurz, W., Liu, S.R., Nabuurs, G.J., Nilsson, S. and Shvidenko, A.Z. (2002). Forest carbon sinks in the Northern Hemisphere. Ecological Applications, 12, 891-899.

Gower, S.T., Krankina, O., Olson, R.J., Apps, M., Linder, S. and Wang, C. (2001). Net primary production and carbon allocation patterns of boreal forest ecosystems. Ecological Applications, 11, 1395-1411.

Gray, A. and Spies, T. (1997). Microsite controls on tree seedling establishment in conifer forest canopy gaps. Ecology, 78(8), 2458-2473.

Gromtsev, A. (2002). Natural disturbance dynamics in the boreal forests of European Russia: A review. Silva Fennica, 36, 41-55.

Groven, R., Rolstad, J., Storaunet, K.O. and Rolstad, E. (2002). Using forest stand reconstructions to assess the role of structural continuity for late-successional species. Forest Ecology and Management, 164, 39-55.

Hallenberg, N. (1991). Speciation and distribution in Corticiaceae (Basidiomycetes). Plant Systematics and Evolution, 177, 93-110.

Hallenberg, N. (1998). Evolutionary processes on species level in wood-inhabiting Basidiomycetes. Folia Cryptogamica Estonica, 33, 35-40.

Hansen, L. and Knudsen, H. (eds.). (1997). Nordic Macromycetes Vol. 3, Heterobasidioid, Aphyllophporoid and Gastromycetoid Basidiomycetes. Nordsvamp, Copenhagen.

Harmon, M.E., Ferrell, W.K. and Franklin, J.F. (1990). Effects on carbon storage of conversion of old-growth forests to young forests. Science, 247, 699-702.

Harper, K.A., Bergeron, Y., Drapeau, P., Gauthier, S. and De Grandpre, L. (2006). Changes in spatial pattern of trees and snags during structural development in Picea mariana boreal forests. Journal of Vegetation Science, 17, 625-636.

Harvey, A., Larsen, M. and Jurgenson, M. (1976). Distribution of ectomycorrhizae in a mature Douglas-fir/larch forest soil in western Montana. Forest Science, 22, 393-398.

Hofgaard, A. (1993). Structure and regeneration patterns in a virgin Picea-abies forest in Northern Sweden. Journal of Vegetation Science, 4, 601-608.

Heijari, J., Nerg, A.M., Kaakinen, S., Vapaavuori, E., Raitio, H., Levula, T., Viitanen, H., Holopainen, J.K. and Kainulainen, P. (2005). Resistance of Scots pine wood to Brown-rot fungi after long-term forest fertilization. Trees: Structure and Function, 19, 728-734.

Holmer, L., Renvall, P. and Stenlid, J. (1997). Selective replacement between species of wood-rotting basidiomycetes, a laboratory study. Mycological Research, 101, 714-720.

Holmer, L. and Stenlid, J. (1993). The importance of inoculum size for the competitive ability of wood decomposing fungi. FEMS Microbiology Ecology, 12, 169-176.

Holmer, L. and Stenlid, J. (1997). Competitive hierarchies of wood decomposing basidiomycetes in artificial systems based on variable inoculum sizes. Oikos, 79, 77-84.

Holub, S.M., Spears, J.D.H. and Lajtha, K. (2001). A reanalysis of nutrient dynamics in coniferous coarse woody debris. Canadian Journal of Forest Research, 31, 1894-1902.

Hornberg, G., Ohlson, M. and Zackrisson, O. (1997). Influence of bryophytes and microrelief conditions on Picea abies seed regeneration patterns in boreal old-growth swamp forests. Canadian Journal of Forest Research, 27, 1015-1023.

Hyvonen, R., Agren, G.I. and Dalias, P. (2005). Analysing temperature response of decomposition of organic matter. Global Change Biology, 11, 770-778.

James, T.Y. and Vilgalys, R. (2001). Abundance and diversity of Schizophyllum commune spore clouds in the Caribbean detected by selective sampling. Molecular Ecology, 10, 471-479.

Johannesson, H. and Stenlid, J. (1999). Molecular identification of wood-inhabiting fungi from a primeval forest in Sweden. Forest Ecology and Management, 115, 203-211.

Johannesson, H., Vasiliauskas, R., Dahlberg, A., Penttila, R. and Stenlid, J. (2001). Genetic differentiation in Eurasian populations of the postfire ascomycete Daldinia loculata. Molecular Ecology, 10, 1665-1677.

Jonsson, B.G. and Jonsell, M. (1999). Exploring potential biodiversity indicators in boreal forests. Biodiversity and Conservation, 8, 1417-1433.

Jonsson, B.G., Kruys, N. and Ranius, T. (2005). Ecology of species living on dead wood—Lessons for dead wood management. Silva Fennica, 39, 289-309.

Junninen, K., Kouki, J. and Renvall, P. (2007). Restoration of natural legacies of fire in European boreal forests: Experimental approach to the effects on wood-decaying fungi. Submitted manuscript, (Unpublished).

Junninen, K., Simila, M., Kouki, J. and Kotiranta, H. (2006). Assemblages of wood-inhabiting fungi along the gradients of succession and naturalness in boreal pine-dominated forests in Fennoscandia. Eco-graphy, 29, 75-83.

Jurgenson, M., Larsen, M. and Harvey, A. (1977). Effects of timber harvesting on soil biology. In: Forests for People. A Challenge in World Affairs (eds.), pp. 244-250. Proceedings of Annual Meetings, Society of American Foresters.

Kirby, J.J.H., Stenlid, J. and Holdenrieder, O. (1990). Population structure and responses to disturbance of the basidiomycete Resinicium bicolor. Oecologia, 85, 178-184.

Koljalg, U., Larsson, K.H., Abarenkov, K., Nilsson, R.H., Alexander, I.J., Eberhardt, U., Erland, S., Hoiland, K., Kjoller, R., Larsson, E., Pennanen, T., Sen, R., Taylor, A.F.S., Tedersoo, L., Vralstad, T. and Ursing, B.M. (2005). UNITE: A database providing web-based methods for the molecular identification of ectomycorrhizal fungi. New Phytologist, 166, 1063-1068.

Korhonen, K. and Stenlid, J. (1998). Biology of Heterobasidion annosum In: Heterobasidion annosum Biology, Ecology, Impact and Control (S. Woodward, J. Stenlid, R. Karjalainen and A Huttermann, eds.), pp. 43-70. CAB International, Wallingford, UK.

Krankina, O.N. and Harmon, M.E. (1995). Dynamics of the dead wood carbon pool in northwestern Russian boreal forests. Water Air and Soil Pollution, 82, 227-238.

Kruys, N., Fries, C., Jonsson, B.G., Lamas, T. and Stahl, G. (1999). Wood-inhabiting cryptogams on dead Norway spruce (Picea abies) trees in managed Swedish boreal forests. Canadian Journal of Forest Research, 29, 178-186.

Kueppers, L.M., Southon, J., Baer, P. and Harte. J. (2004). Dead wood biomass and turnover time, measured by radiocarbon, along a subalpine elevation gradient. Oecologia, 141, 641-651

Kuuluvainen, T. (2002). Natural variability of forests as a reference for restoring and managing biological diversity in boreal Fennoscandia. Silva Fennica, 36, 97-125.

Kuuluvainen, T. and Kalmari, R. (2003). Regeneration microsites of Picea abies seedlings in a wind-throw area of a boreal old-growth forest in southern Finland. Annales Botanici Fennici, 40, 401-413.

Kuuluvainen, T., Syrjanen, K. and Kalliola, R. (1998). Structure of a pristine Picea abies forest in northeastern Europe. Journal of Vegetation Science, 9, 563-574.

Kulhankova, A., Beguiristain, T., Moukoumi, J., Berthelin, J. and Ranger, J. (2006). Spatial and temporal diversity of wood decomposer communities in different forest stands, determined by ITS rDNA targeted TGGE. Annals of Forest Science, 63, 547-556.

Laiho, R. and Prescott, C.E. (2004). Decay and nutrient dynamics of coarse woody debris in northern coniferous forests: A synthesis. Canadian Journal of Forest Research, 34, 763-777.

Larsen, M., Jurgenson, M. and Harvey, A. (1979). N2 fixation associated with wood decayed by some common fungi in western Montana. Canadian Journal of Forest Research, 8, 341-345.

Latham, R.E. and Ricklefs, R.E. (1993). Continental comparisons of temperate-zone tree species diversity. In: Species Diversity in Ecological Communities: Historical and Geographical Perspectives (R.E. Ricklefs and D. Schluter, eds.), pp. 294-314. The University of Chicago Press, Chicago, IL.

Leake, J.R., Donnelly, D.P., Saunders, E.M., Boddy, L. and Read, D.J. (2001). Rates and quantities of carbon flux to ectomycorrhizal mycelium following C-14 pulse labelling of Pinns sylvestris seedlings: Effects of litter patches and interaction with a wood-decomposer fungus. Tree Physiology, 21, 71-82.

Lindblad, I. (1998). Wood-inhabiting fungi on fallen logs of Norway spruce: Relations to forest management and substrate quality. Nordic Journal of Botany, 18, 243-255.

Lindahl, B.D. and Finlay, R.D. (2006). Activities of chitinolytic enzymes during primary and secondary colonisation of wood by basidiomycetous fungi. New Phytologist, 169, 389-397.

Lindahl, B.D., Ihrmark, K., Boberg, J., Trumbore, S.E., Hogberg, P., Stenlid, J. and Finlay, R.D. (2007). Spatial separation of litter decomposition and mycorrhizal nitrogen uptake in a boreal forest. New Phytologist, 173, 611-620.

Lindahl, B.D., Stenlid, J. and Finlay, R.D. (2001). Effects of resource availability on mycelial interactions and P-32 transfer between a saprotrophic and an ectomycorrhizal fungus in soil microcosms. FEMS Microbiology Ecology, 38, 43-52.

Lindahl, B.D., Stenlid, J., Olsson, S. and Finlay, R.D. (1999). Interactions between ectomycorrhizal fungi and wood decomposing fungi. New Phytologist, 144, 183-193.

Lindner, D.L., Burdsall, H.H. and Stanosz, G.R. (2006). Species diversity of polyporoid and corticioid fungi in northern hardwood forests with differing management histories. Mycologia, 98, 195-217.

Liski, J., Lehtonen, A., Palosuo, T., Peltoniemi, M., Eggers, T., Muukkonen, P. and Makipaa, R. (2006). Carbon accumulation in Finland's forests 1922-2004: An estimate obtained by combination of forest inventory data with modelling of biomass, litter and soil. Annals of Forest Science, 63, 687-697.

Liu, G.H. and Hytteborn, H. (1991). Gap structure, disturbance and regeneration in a primeval Picea-abies forest. Journal of Vegetation Science, 2, 391-402.

Loman, A. (1965). The lethal effect of periodic high temperatures on certain lodgepole pine slash decaying basidiomycetes. Canadian Journal of Botany, 43, 334-338.

Lygis, V., Vasiliauskas, R., Stenlid, J. and Vasiliauskas, A. (2004). Silvicultural and pathological evaluation of Scots pine plantations, established to avoid the infections by Heterobasidion annosum. Forest Ecology and Management, 201, 275-285.

Makinen, H., Hynynen, J., Siitonen, J. and Sievanen, R. (2006). Predicting the decomposition of Scots pine, Norway spruce and birch stems in Finland. Ecological Applications, 16, 1865-1879.

Menkis, A., Allmer, J., Vasiliauskas, R., Lygis, V., Stenlid, J. and Finlay, R. (2004). Ecology and molecular characterization of dark septate fungi from roots, live stems, coarse and fine woody debris. Mycological Research, 108, 965-973.

Montes, F. and Canellas, I. (2006). Modelling coarse woody debris dynamics in even-aged Scots pine forests. Forest Ecology and Management, 221, 220-232.

Moser, M. (1949). Untersuchungen über den Einfluss von Waldbränden auf die Pilzvegetation 1. Summary: Observations on the influence of forest-fire in the vegetation of fungi 1. Sydowia, 3(1), 336-383.

Narukawa, Y., Iida, S., Tanouchi, H., Abe, S. and Yamamoto, S. (2003). State of fallen logs and the occurrence of conifer seedlings and saplings in boreal and subalpine old-growth forests in Japan. Ecological Research, 18, 267-277.

Niemela, T., Renvall, P. and Penttila, R. (1995). Interactions of fungi at late stages of wood decomposition. Annales Botanici Fennici, 32, 141-152.

Niemela, T., Wallenius, T. and Kotiranta, H. (2002). The kelo tree, a vanishing substrate of specified wood-inhabiting fungi. Polish Botanical Journal, 47, 91-101.

Niemela, T. (2005). Polypores, lignicolous fungi. (In Finnish with English summary). Helsinki University Press, Helsinki, Finland.

Nunez, M. and Ryvarden, L. (2000). East Asian Polypores 1. Ganodermataceae and Hymen-ochaetaceae. Synopsis Fungorum, 13, 1-168.

Nunez, M. and Ryvarden, L. (2001). East Asian Polypores 2. Synopsis Fungorum, 14, 170-522.

Nunez, M. and Stokland, J. (2000). Biogeographical affinities of East Asian polypores. Karstenia, 40, 123-128.

Osono, T. and Takeda, H. (2002). Comparison of litter decomposing ability among diverse fungi in a cool temperate deciduous forest in Japan. Mycologia, 94, 421-427.

Parmasto, E. (1963). On the Fungus-Flora of Kamtchatka. Issledovanie prirody Dalnego Vostoka. 1, 221-289.

Penttila, R. (2004). The Impacts of Forestry on Polyporous Fungi in Boreal Forests. Academic dissertation, University of Helsinki, Faculty of Biosciences, Department of Biological and Environmental Sciences.

Penttila, R. and Kotiranta, H. (1996). Short-term effects of prescribed burning on wood-rotting fungi. Silva Fennica, 30, 399-419.

Penttila, R., Lindgren, M., Miettinen, O., Rita, H. and Hanski, I. (2006). Consequences of forest fragmentation for polyporous fungi at two spatial scales. Oikos, 114, 225-240.

Penttila, R., Siitonen, J. and Kuusinen, M. (2004). Polypore diversity in managed and old-growth boreal Picea abies forests in southern Finland. Biological Conservation, 117, 271-283.

Perry, D. and Amaranthus, M. (1997). Disturbance, recovery, and stability. In: Creating a Forestry for the 21st Century (K.A. Kohm and J.F. Franklin, eds.), pp. 31-56. Island Press, Washington, DC.

Pugh, G.J.F. and Boddy, L. (1988). A view of disturbance and life strategies in fungi. In: Fungi and Ecological Disturbance (L. Boddy, R. Watling and A.J.E. Lyon, eds.). Proceedings of the Royal Society of Edinburgh, 94B, 3-11.

Qian, H. and Ricklefs, R.E. (2000). Large-scale processes and the Asian bias in species diversity of temperate plants. Nature, 407, 180-182.

Rayner, A. and Boddy, L. (1988). Fungal decomposition of wood: Its biology and ecology. Wiley, Bath.

Renvall, P. (1995). Community structure and dynamics of wood-rotting Basidiomycetes on decomposing conifer trunks in northern Finland. Karstenia, 35, 1-51.

Rolstad, J., Saetersdal, M., Gjerde, I. and Storaunet, K.O. (2004). Wood-decaying fungi in boreal forest: Are species richness and abundances influenced by small-scale spatiotemporal distribution of dead wood? Biological Conservation, 117, 539-555.

Romero, L.M., Smith, T.J. and Fourqurean, J.W. (2005). Changes in mass and nutrient content of wood during decomposition in a south Florida mangrove forest. Journal of Ecology, 93, 618-631.

Rouvinen, S., Kuuluvainen, T. and Siitonen, J. (2002). Tree mortality in a Pinus sylvestris dominated boreal forest landscape in Vienansalo wilderness, eastern Fennoscandia. Silva Fennica, 36, 127-145.

Runkle, J. (1985). Disturbance regimes in temperate forests. In: The Ecology of Natural Disturbance and Patch Dynamics (S.T.A. Pickett and P.S. White, eds.), pp. 17-33. Academic Press, Orlando, FL.

Ryvarden, L. (1993a). Distribution of Aphyllophoroid fungi in the taiga region of Fennoscandia. In: Fungi of Europe: Investigation, Recording and Conservation (D.N. Pegler, L. Boddy, B. Ing and P.M. Kirk, eds.), pp. 71-76. Royal Botanic Gardens, Kew.

Ryvarden, L. (1993b). Haploporus odorus and Amylocystis lapponica, two taiga species in Norway. (In Norwegian with an English abstract). Blyttia, 51, 145-159.

Ryvarden, L. and Gilbertson, R.L. (1993). European polypores 1. Synopsis Fungorum, 6, 1-387.

Ryvarden, L. and Gilbertson, R.L. (1994). European polypores 2. Synopsis Fungorum, 7, 388-743.

Sannikov, S. and Goldammer, J. (1996). Fire ecology of pine forests of Northern Eurasia. In: Fire in Ecosystems of Boreal Eurasia (J.G. Goldammer and V.V. Furyaev, eds.), pp. 151-167. Kluwer Academic Publishers, Dordrecht.

Selikhovkin, A.V. (2005). Main disturbance factors in north-west Russian forests: Structure and databases. Scandinavian Journal of Forest Research, 20, 27-32.

Sherman, R.J. and Warren, R.K. (1988). Factors in Pinus ponderosa and Calocedrus decurrens mortality in Yosemite Valley, USA. Vegetatio, 77, 79-85.

Siitonen, J. (2001). Forest management, coarse woody debris and saproxylic organisms: Fennoscandian boreal forests as an example. Ecological Bulletins, 49, 11-41.

Siitonen, J., Martikainen, P., Punttila, P. and Rauh, J. (2000). Coarse woody debris and stand characteristics in mature managed and old-growth boreal mesic forests in southern Finland. Forest Ecology and Management, 128, 211-225.

Siitonen, J., Penttila, R. and Kotiranta, H. (2001). Coarse woody debris, polyporous fungi and saproxylic insects in an old-growth spruce forest in Vodlozero National Park, Russian Karelia. Ecological Bulletins, 49, 231-242.

Sippola, A.-L., Lehesvirta, T. and Renvall, P. (2001). Effects of selective logging on coarse woody debris and diversity of wood-decaying polypores in eastern Finland. Ecological Bulletins, 49, 243-254.

Sippola, A.-L. and Renvall, P. (1999). Wood-decomposing fungi and seed-tree cutting: A 40-year perspective. Forest Ecology and Management, 115, 183-201.

Spies, T.A., Franklin, J.F. and Thomas, T.B. (1988). Coarse woody debris in Douglas-fir forests of western Oregon and Washington. Ecology, 69(6), 1689-1702.

Stokland, J.N. (2001). The coarse woody debris profile: An archive of recent forest history and an important biodiversity indicator. Ecological Bulletins, 49, 71-83.

Stokland, J.N. and Kauserud, H. (2004). Phellinus nigrolimitatus—A wood-decomposing fungus highly influenced by forestry. Forest Ecology and Management, 187, 333-343.

Storaunet, K. and Rolstad, J. (2002). Time since death and fall of Norway spruce logs in old-growth and selectively cut boreal forest. Canadian Journal of Forest Research, 32, 1801-1812.

Sverdrup-Thygeson, A. and Lindenmayer, D.B. (2003). Ecological continuity and assumed indicator fungi in boreal forest: The importance of the landscape matrix. Forest Ecology and Management, 174, 353-363.

Szewczyk, J. and Szwagrzyk, J. (1996). Tree regeneration on rotten wood and on soil in old-growth site. Vegetatio, 122, 37-46.

Takahashi, M., Sakai, Y., Ootomo, R. and Shiozaki, M. (2000). Establishment of tree seedlings and water-soluble nutrients in coarse woody debris in an old-growth Picea-abies forest in Hokkaido, northern Japan. Canadian Journal of Forest Research, 30, 1148-1155.

Tanesaka, E., Masuda, H. and Kinugawa, K. (1993). Wood degrading ability of basidiomycetes that are wood decomposers, litter decomposers, or mycorrhizal symbionts. Mycologia, 85, 347-354.

Tedersoo, L., Koljalg, U., Hallenberg, N. and Larsson, K.H. (2003). Fine scale distribution of ectomycorrhizal fungi and roots across substrate layers including coarse woody debris in a mixed forest. New Phytologist, 159, 153-165.

Toljander, Y.K., Lindahl, B.D., Holmer, L. and Hogberg, N.O.S. (2006). Environmental fluctuations facilitate species co-existence and increase decomposition in communities of wood decay fungi. Oecologia, 148, 625-631.

Tuhkanen, S. (1980). Climatic parameters and indices in plant geography. Acta Phytogeographica Suecica, 67, 1-105.

Tunlid, A., Jansson, H.B. and Nordbringhertz, B. (1992). Fungal attachment to nematodes. Mycological Research, 96, 401-412.

Urcelay, C. and Robledo, G. (2004). Community structure of polypores (Basidiomycota) in Andean alder wood in Argentina: Functional groups among wood-decay fungi? Austral Ecology, 29, 471-476.

Vainio, E.J. and Hantula, J. (2000). Direct analysis of wood living fungi using denaturing gradient gel electrophoresis of amplified ribosomal DNA. Mycological Research, 104, 927-936.

Vanderwel, M.C., Malcolm, J.R. and Smith, S.M. (2006). An integrated model for snag and downed woody debris decay class transitions. Forest Ecology and Management, 234, 48-59.

Vasiliauskas, R., Lygis, V., Thor, M. and Stenlid, J. (2004). Impact of biological (Rotstop) and chemical (urea) treatments on fungal community structure in freshly cut Picea abies stumps. Biological Control, 31, 405-413.

Vasiliauskas, R., Menkis, A., Finlay, R.D. and Stenlid, J. (2007). Wood-decay fungi in fine living roots of conifer seedlings. New Phytologist, 16: in press doi: 10.1111/j.1469-8137.2007.02014.

Watling, R. (1988). Larger fungi and some of Earth's major catastrophies. In: Fungi and Ecological Disturbance (L. Boddy, R. Watling and A.J.E. Lyon, eds.), pp. 49-59. Proceedings of the Royal Society of Edinburgh, 94B.

Worrall, J.J. and Harrington, T.C. (1988). Etiology of canopy gaps in spruce-fir forests at Crawford Notch, New Hampshire. Canadian Journal of Forest Research, 18, 1463-1469.

Zackrisson, O. (1977). Influence of forest fires on the North Swedish boreal forest. Oikos, 29, 22-32.

Zhang, W., Cui, Z.J. and Li, Y.H. (2006). Review of the timing and extent of glaciers during the last glacial cycle in the bordering mountains of Tibet and in East Asia. Quaternary International, 154, 32-43.

Zimmerman, J.K., Pulliam, W.M., Lodge, D.J., Quinonesofila, V., Fetcher, N., Guzmangrajales, S., Parrotta, J.A., Asbury, C.E., Walker, L.R. and Waide, R.B. (1995). Nitrogen immobilization by decomposing woody debris and the recovery of tropical wet forest from hurricane damage. Oikos, 72, 314-322.

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