J. For. Sci., 2010, 56(9):397-405 | DOI: 10.17221/11/2010-JFS

Coarse woody debris carbon stocks in natural spruce forests of Babia hora

K. Merganičová1,2, J. Merganič1,2
1 Department of Forest Management, Faculty of Forestry and Wood Sciences, Czech University of Life Sciences Prague, Prague, Czech Republic
2 Forest Research, Inventory and Monitoring

Although coarse woody debris (CWD) represents one of the major carbon pools in natural forest ecosystems, little information is available about its CWD carbon stocks. This study demonstrates the importance of proper estimation of carbon stocks in CWD, which accounts for the decay process of CWD, on an example of a natural mountainous spruce forest located in Central Europe. The study accounts for aboveground coarse woody debris including standing dead trees, lying deadwood, and naturally formed stumps. Basic mensurational information (diameter, height, decay class) about dead wood was collected in the field during the inventory of the forests of the nature reserve Babia hora. The data were used for the calculation of CWD timber volume. In the next step, CWD timber volume was converted to carbon stock using the carbon proportion of 50.1% and density values of decay classes derived from the information published elsewhere. The analysis revealed that when CWD timber volume was converted to carbon stocks using the basic wood density of fresh wood, C stocks were overestimated by 40% or more depending on the developmental stage and elevation. The results also revealed that as the elevation increases, CWD carbon stocks decrease and the differences between the developmental stages diminish.

Keywords: Babia hora nature reserve; deadwood; decay; elevation; natural forest; wood density

Published: September 30, 2010  Show citation

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Merganičová K, Merganič J. Coarse woody debris carbon stocks in natural spruce forests of Babia hora. J. For. Sci. 2010;56(9):397-405. doi: 10.17221/11/2010-JFS.
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    References

    1. Bütler R., Patty L., Le Bayon R.-C., Guenat C., Schlaepfer R. (2007): Log decay of Picea abies in the Swiss Jura Mountains of Central Europe. Forest Ecology and Management, 242: 791-799. Go to original source...
    2. Chen X., Wei X., Scherer R. (2005): Influence of wildfire and harvest on biomass, carbon pool, and decomposition of large woody debris in forested streams of southern interior British Columbia. Forest Ecology and Management, 208: 101-114. Go to original source...
    3. Cienciala E., Tomppo E., Snorrason A., Broadmeadow M., Colin A., Dunger K., Exnerova Z., Lasserre B., Petersson H., Priwitzer T., Sanchez G., Ståhl G. (2008): Preparing emission reporting from forests: Use of National Forest Inventories in European countries. Silva Fennica, 42: 73-88. Go to original source...
    4. Coomes D.A., Allen R.B., Sčoty N.A., Goulding C., Beets P. (2002): Designing systems to monitor carbon stocks in forests and shrublands. Forest Ecology and Management, 164: 89-108. Go to original source...
    5. Feller M.C. (2003): Coarse woody debris in the old growth forests of British Columbia. Environmental Review, 11: 135-157. Go to original source...
    6. Ferris R., Humphrey J.W. (1999): A review of potential biodiversity indicators for application in British forests. Forestry-Oxford, 72: 313-328. Go to original source...
    7. Harmon M.E., Franklin J.F. (1989). Tree seedlings on logs in Picea-Tsuga forests of Oregon and Washington. Ecology, 70: 48-49. Go to original source...
    8. Harmon M.E., Franklin J.F., Swanson F.J., Sollins P., Gregory S.V., Lattin J.D., Anderson N.H., Cline S.P., Aumen N.G., Sedell J.R., Lienkaemper G.W., Cromack K., Cummins K.W. (1986): Ecology of coarse woody debris in temperate ecosystems. Advances in Ecological Research, 15: 133-302. Go to original source...
    9. Harmon M.E., Krankina O.N., Sexton J. (2000): Decomposition vectors: a new approach to estimating woody detritus decomposition dynamics. Canadian Journal of Forest Research, 30: 76-84. Go to original source...
    10. Harmon M.E., Sexton J. (1996). Guidelines for Measurements of Woody Detritus in Forest Ecosystems. US LTER Publication No. 20. Seattle, US LTER Network Office, University of Washington.
    11. Holeksa J. (2001): Coarse woody debris in a Carpathian subalpine spruce forest. Forstwissenschaftliches Centralblatt, 120: 256-270. Go to original source...
    12. Humphrey J.W., Sippola A.L., Lemperiere G., Dodelin B., Alexander K.N.A., Butler J.E. (2004): Deadwood as an indicator of biodiversity in European forests: from theory to operational guidance. EFI-Proceedings, 51: 193-206.
    13. IPCC (2003): Good practice guidance for land use, land-use change and forestry. Available at: http://www.ipcc-nggip.iges.or.jp/public/gpglulucf/gpglulucf_contents.htm (accessed January 20, 2010).
    14. Jankovský L., Lička D., Ježek K. (2004): Inventory of dead wood in the Kněhyně-Čertův mlýn National Nature Reserve, the Moravian-Silesian Beskids. Journal of Forest Science, 50: 171-180. Go to original source...
    15. Korpeľ Š. (1989): Virgin forests of Slovakia. Bratislava, SAV: 332 (in Slovak).
    16. Krankina O.N., Harmon M.E. (1995): Dynamics of the dead wood carbon pool in Northwestern Russian boreal forests. Water, Air and Soil Pollution, 82: 227-238. Go to original source...
    17. Krankina O.N., Harmon M.E., Griazkin A.V. (1999): Nutrient stores and dynamics of woody detritus in a boreal forest: modeling potential implications at the stand level. Canadian Journal of Forest Research, 29: 20-32. Go to original source...
    18. Kupferschmidt A.D., Brang P., Schönenberger W., Bugmann H. (2003): Decay of Picea abies snags stands on steep mountain slopes. The Forestry Chronicle, 79: 247-252. Go to original source...
    19. Lombardi F., Lasserre B., Tognetti R., Marchetti M. (2008): Deadwood in relation to stand management and forest type in Central Apennines (Molise, Italy). Ecosystems, 11: 882-894. Go to original source...
    20. Mai W. (1999): About the wet-nurse-like logs in a mountainous forest. LWF Aktuell, 18: 18-20 (in German).
    21. Merganič J., Vorčák J., Merganičová K., Ďurský J., Miková A., Škvarenina J., Tuček J., Minďáš J. (2003): Diversity monitoring in mountain forests of Eastern Orava. EFRA, Tvrdošín: 200. Available at http://www.forim.sk/index_soubory/Merganic_Vorcak_Merganicova_Dursky_Mikova_Skvarenina_Tucek_Mindas_2003.pdf (accessed January 20, 2010)
    22. Merganičová K., Merganič J., Vorčák J. (2004): Volume of dead wood in National Nature Reserve Babia hora. Beskydy, 17: 137-142 (in Slovak).
    23. Morelli S., Paletto A., Tosi V. (2007): Deadwood in forest stands: assessment of wood basic density in some tree species, Trentino, Italy. Forest@, 4: 395-406. Go to original source...
    24. Naesset E. (1999): Relationship between relative wood density of Picea abies logs and simple classification systems of decayed coarse woody debris. Scandinavian Journal of Forest Research, 14: 451-461. Go to original source...
    25. Petráš R. (1986): Mathematical model of stem shape. Lesnícky časopis, 32: 223-236 (in Slovak).
    26. Petráš R. (1989): Mathematical model of stem shape of coniferous tree species. Lesnictví, 35: 867-878 (in Slovak).
    27. Petráš R. (1990): Mathematical model of stem shape of broadleaved tree species. Lesnícky časopis, 36: 231-241 (in Slovak).
    28. Radtke P.J., Prisley S.P., Amateis R.L., Copenheaver C.A., Burkhart H.E. (2004): A proposed model for deadwood C production and decay in loblolly pine plantations. Environmental Management, 33 (Special Issue): Supplement 1: S56-S64. Go to original source...
    29. Rahman M.M., Frank G., Ruprecht H., Vacik H. (2008): Structure of coarse woody debris in Lange-Leitn Natural Forest Reserve, Austria. Journal of Forest Science, 54: 161-169. Go to original source...
    30. Saniga M., Saniga M. (2004): Influence of forest stand structure on the occurrence of bird community in Skalná Alpa National Nature Reserve in the Veľká Fatra Mts. (West Carpathians). Journal of Forest Science, 50: 219-234. Go to original source...
    31. Saniga M., Schütz J.P. (2002): Relation of dead wood course within the development cycle of selected virgin forests in Slovakia. Journal of Forest Science, 48: 513-528. Go to original source...
    32. Schuck A., Meyer P., Menke N., Lier M., Lindner M. (2004): Forest biodiversity indicator: dead wood - a proposed approach towards operationalising the MCPFE indicator. EFI-Proceedings, 51: 49-77.
    33. Sefidi K., Mohadjer M.R.M. (2010): Characteristics of coarse woody debris in successional stages of natural beech (Fagus orientalis) forests of Northern Iran. Journal of Forest Science, 56: 7-17. Go to original source...
    34. Stevens V. (1997): The ecological role of coarse woody debris, an overview of the ecological importance of CWD in BC forests. Working paper ministry of forest research program, British Columbia, No. 30/97.
    35. Ulbrichová I., Remeš J., Zahradník D. (2006): Development of the spruce natural regeneration on mountain sites in the Šumava Mts. Journal of Forest Science, 52: 446-456. Go to original source...
    36. Vorčák J., Merganič J., Merganičová K. (2005): Deadwood and spruce regeneration. Lesnická práce, 5: 18-19 (in Slovak).
    37. Vorčák J., Merganič J., Saniga M. (2006): Structural diversity change and regeneration processes of the Norway spruce natural forest in Babia hora NNR in relation to altitude. Journal of Forest Science, 52: 399-409. Go to original source...
    38. Weiss P., Schieler K., Schadauer K., Radunsky K., Englisch M. (2000): Carbon budget of Austrian Forests and Considerations about Kyoto Protocol. Monograph M-106. Wien, Federal Environment Agency. (in German).
    39. Woodall C.W., Heath L.S., Smith J.E. (2008): National inventories of down and dead woody material forest carbon stocks in the United States: Challenges and opportunities. Forest Ecology and Management, 256: 221-228. Go to original source...
    40. Woodall C.W., Liknes G.C. (2008): Climatic regions as an indicator of forest coarse and fine woody debris carbon stocks in the United States. Carbon Balance and Management, 3:5. Go to original source... Go to PubMed...
    41. Yatskov M. (2001): Chonosequence of wood decomposition in the boreal forests of Russia. [Ph.D. Thesis.] Available at http://andrewsforest.oregonstate.edu/pubs/webdocs/reports/wood_decomp.htm (accessed January 20, 2010)
    42. Zell J., Kandler G., Hanewinkel M. (2009): Predicting constant decay rates of coarse woody debris - a meta-analysis approach with a mixed model. Ecological Modelling, 220 (7): 904-912. Go to original source...

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