Abstract
We analysed the role of topography, tree stand characteristics and management on the susceptibility of forest stands to abiotic natural disturbances. In 1996, stands of Börzsöny Mts, Hungary were hit by a severe ice storm, then by strong winds three years later. Affected areas were mapped on aerial photos, and we built a GIS database containing variables describing topography and tree stand characteristics. The role of variables in predicting ice break and windfall was investigated by non-parametric statistical tests and by a series of C&RT (Classification and Regression Tree) analyses. Elevation, aspect and slope proved to have strong statistical relationships with the distribution of both ice break and windfall, with misclassification error (MER) of 18% and 15%, respectively, if studied without stand descriptors. Mixing ratio and age of beech were the most important stand descriptors to explain the distribution of ice break (MER=15%), whereas that of windfall was best described by the age and height of the two dominant tree species (MER=11%). The explanatory power could be increased if all variables (topographic + stand descriptors) were considered, though the increase in explanatory power was higher in the case of ice break (MER decreased from 15% to 11%) than for windfall (MER decreased from 11% to 10%). Since management related stand variables (beech mixture ratio, age, height, amount of recently felled stock, slenderness) and susceptibility to disturbance events seemed to be related, our results suggest that the sensitivity of tree stands could be decreased by increasing compositional and structural heterogeneity.
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Abbreviations
- C&RT:
-
Classification and Regression Tree
- MER:
-
Misclassification Error Rate
- GIS:
-
Geographic Information System
- DEM:
-
Digital Elevation Model
- RelAgeSlen:
-
Relative Age-specific Slenderness
- fs:
-
amount of felled stock
- totcut:
-
total cut
- plancut:
-
planned cut
References
Angelstam, P. 2002. Reconciling the linkages of land management with natural disturbance regimes to maintain forest biodiversity in Europe. In: J. A. Bissonette and I. Storch (eds.), Landscape Ecology and Resource Management: Linking Theory with Practice. Island Press, Covelo CA and Washington, D.C. pp. 193–226.
Bragg, D. C., M. G. Shelton and B. Zeide. 2003. Impacts and management implications of ice storms on forests in the southern United States. Forest Ecol. Manag. 186: 99–123.
Breiman, L., J. H. Friedman, R. A. Olshen and C. J. Stone. 1984. Classification and Regression Trees. Wadsworth, Belmont, CA.
Canham, C. D. and O. L. Loucks. 1984. Catastrophic windthrow in the presettlement forests of Wisconsin. Ecology 65: 803–809.
Canham, C. D., M. J. Papaik and E. F. Latty. 2001. Interspecific variation in susceptibility to windthrow as a function of tree size and storm severity for northern temperate tree species. Can. J. Forest Res. 31: 1–10.
Dobbertin, M. 2002. Influence of stand structure and site factors on wind damage comparing the storms Vivian and Lothar. Forest Snow and Landscape Res. 77: 187–205.
Dorland, C., R. S. J. Tol and J. P. Palutikof. 1999. Vulnerability of the Netherlands and Northwest Europe to storm damage under climate change: a model approach based on storm damage in the Netherlands. Climatic Change 43: 513–535.
Duguay, S. M., K. Arii, M. C. Hooper and M. J. Lechowicz. 2001. Ice storm damage and early recovery in an old-growth forest. Environmental Monitoring and Assessment 67: 97–108.
Foster, D. R. and E. R. Boose. 1992. Patterns of forest damage resulting from catastrophic wind in Central New-England, USA. J. Ecol. 80: 79–98.
Foster, D. R. and E. R. Boose. 1995. Hurricane disturbance regimes in temperate and tropical forest ecosystems. In: M. P. Coutts and J. Grace (eds.), Wind and Trees. Cambridge University Press, Cambridge. pp. 305–339.
Glatzel, G. 1999. Historic forest use and its possible implication to recently accelerated tree growth in Central Europe. In: T. Karjaleinen, H, Spieker O. and Laroussine (eds.), Causes and Consequences of Accelerated Tree Growth in Europe - Proceedings of the International Seminar held in Nancy, France 14–16 May 1998. European Forest Institute. pp. 65–74.
Gyalog, L. 2005. Magyarország Földtani Térképe (1:100 000) (The 1:100 000 Geological Map Series of Hungary). Magyar Állami Földtani Intézet, Budapest.
Holmsgaard, E. 1986. Historical development of wind damage in conifers in Denmark. In: Commission of the European Communities (ed.), Minimizing Wind Damage to Coniferous Stands. Denmark, Lovenholm Castle. pp. 2–4.
Lässig, R. and S. A. Močalov . 2000. Frequency and characteristics of severe storms in the Urals and their influence on the development, structure and management of the boreal forests. Forest Ecol. Manag. 135: 179–194.
Lindenmayer, D. B. and J. F. Franklin. 2002. Conserving Forest Biodiversity: A Comprehensive Multiscaled Approach. Island Press, Washington-Covelo-London.
Lohmander, P. and F. Helles. 1987. Windthrow probability as a function of stand characteristics and shelter. Scandinavian J. Forest Res. 2: 227–238.
Matthews, J. D. 1991. Silvicultural Systems. Calderon Press, Oxford.
Melancon, S. and M. J. Lechowicz. 1987. Differences in the damage caused by glaze ice on codominant Acer saccharum and Fagus grandifolia. Can. J. Bot. 65: 1157–1159.
Millward, A. A. and C. E. Kraft. 2004. Physical influences of landscape on a large-extent ecological disturbance: the northeastern North American ice storm of 1998. Landscape Ecol. 19: 99–111.
Morris, J. L. and W. D. Ostrofsky. 2005. Influence of stand thinning on ice storm injury in Maine hardwood stands. Northern J. Appl. Forestry 22: 262–267.
Mosandl, R. and B. Felbermeier. 1999. Auf dem Weg zum naturnahen Wald. AFZ/Der Wald54: 910–914.
Mou, P. and M. P. Warrillow. 2000. Ice storm damage to a mixed hardwood forest and its impacts on forest regeneration in the ridge and valley region of Southwestern Virginia. J. Torrey Bot. Club 127: 66–82.
Nagel, T. A. and J. Diaci. 2006. Intermediate wind disturbance in an old-growth beech-fir forest in southeastern Slovenia. Can. J. Forest Res. 36 (3): 629–638.
Nilsson, C, I. Stjernquist, L. Barring, P. Schlyter, A. M. Jonsson and H. Samuelsson. 2004. Recorded storm damage in Swedish forests 1901–2000. Forest Ecol. Manag. 199: 165–173.
Nykänen, M.-L., H. Peltola, C. P. Quine, S. Kellomäki and M. Broadgate. 1997. Factors affecting snow damage of trees with particular reference to European conditions. Silva Fennica 31 : 193–213.
Parviainen, J. 2005. Virgin and natural forests in the temperate zone of Europe. Forest Snow and Landscape Res. 79: 9–18.
Pellikka, P. and E. Järvenpää. 2003. Forest stand characteristics and snow and wind induced forest damage in boreal forests. In: B. Ruck (ed.), Proc. of the Int. Conf. on Wind Effects on Trees. Karlsruhe, Germany. pp. 269–276.
Peterken, G. F. 1996. Natural Woodland. Ecology and Conservation in Northern Temperate Regions. Cambridge University Press, Cambridge.
Peterken, G. F. 1999. Applying natural forestry concepts in an intensively managed landscape. Global Ecol. Biogeogr. 8: 321–328.
Pickett, S. T. A. and P. S. White (eds.) 1985. The Ecology of Natural Disturbance and Patch Dynamics. Academic Press, Orlando, Florida.
Proulx, O. J. and D. F. Greene. 2001. The relationship between ice thickness and northern hardwood tree damage during ice storms. Can. J. Forest Res. 31: 1758–1767.
Rhoads, A. G., S. P. Hamburg, T. J. Fahey, T. G. Siccama, E. N. Hane, J. Battles, C. Cogbill, J. Randall and G. Wilson. 2002. Effects of an intense ice storm on the structure of a northern hardwood forest. Can. J. Forest Res. 32: 1763–1775.
Schelhaas, M.-J., G.-J. Nabuurs and A. Schuck. 2003. Natural disturbances in the European forests in the 19th and 20th centuries. Global Change Biol. 9: 1620–1633.
Schiesser, H. H., C. Pfister and J. Bader. 1997. Winter storms in Switzerland North of the Alps 1864/1865–1993/1994. Theoretical and Applied Climatol. 58: 1–19.
Seischab, F. K., J. M. Bernard and M. D. Eberle. 1993. Glaze storm damage to Western New York forest communities. Bull. Torrey Bot. Club 120: 64–72.
SFSO and FOEFL. 1996. Forestry and Timber Industry in Switzerland, Yearbook. Swiss Federal Statistical Office, Bern.
Smits, A., A. M. G. Klein Tank and G. P. Können. 2005. Trends in storminess over The Netherlands, 1962–2002. Int. J. Climatol. 25: 1331–1344.
Splechtna, B. E., G. Gratzerand B. Black. 2005. Disturbancehistory of a European old-growth mixed-species forest - A spatial dendro-ecological analysis. J. Veg. Sci. 16: 511–522.
Standovár, T. and K. Kenderes. 2003. A review on natural stand dynamics in beechwoods of east central Europe. Appl. Ecol. Environ. Res. 1: 19–46.
StatSoft Inc. 2004. STATISTICA (data analysis software system), version 7.
Ulanova, N. G. 2000. The effects of windthrow on forests at different spatial scales: a review. Forest Ecol. Manag. 135: 155–167.
Van Dyke, O. 1999. A literature review of ice storm impacts on forests in Eastern North America. SCSS Technical Report 112: 1–29.
Warrillow, M. P. and P. Mou. 1999. Ice storm damage to forest tree species in the ridge and valley region of Southwestern Virginia. J. TorreyBot. Club 126: 147–158.
Wilson, J. S. and C. D. Oliver. 2000. Stability and density management in Douglas-fir plantations. Can. J. Forest Res. 30: 910–920.
Zar, J. H. 1999. Biostatistical Analysis. Prentice-Hall, Upper Saddle River, NJ.
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Kenderes, K., Aszalós, R., Ruff, J. et al. Effects of topography and tree stand characteristics on susceptibility of forests to natural disturbances (ice and wind) in the Börzsöny Mountains (Hungary). COMMUNITY ECOLOGY 8, 209–220 (2007). https://doi.org/10.1556/ComEc.8.2007.2.7
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DOI: https://doi.org/10.1556/ComEc.8.2007.2.7