Abstract
Disturbances in forests can kill mature trees, but also create the conditions necessary for the establishment of new tree cohorts and create micro-habitats for new plant and animal species, thereby increasing the species diversity compared to undisturbed stands. We review the types and intensities of disturbances on forests in three regions of the temperate zone of the northern hemisphere: northeastern North America, Central Europe, and East Asia. We focus on (1) the ways in which disturbances affect forest stand development; (2) the differences among the three areas in this regard; (3) the consequences for future forest management. In both northeastern North America and East Asia, hurricanes and typhoons represent the major mode of natural disturbance, while in Central Europe winter windstorms occur after deciduous trees have lost their leaves. Tornadoes can have even greater destructive power (but affect relatively narrow strips of land), and the more severe of these mainly occur in North America. The general disturbance patch system therefore is relatively large in northeastern North America, small in Central Europe, and of intermediate size in temperate East Asia. In addition to wholly natural disturbance factors, human commerce and globalization have enabled new disturbance types by introducing pests and diseases from one region to another. In North America especially, several of the most important foundation species in temperate forests are strongly affected, so that not just the species composition but also the whole forest structure is changing fundamentally. In all three areas in the past the change in land use by growing human populations strongly affected the structure as well as the species composition of forests. Nearly all the recent forest stands of the temperate zone had been used in the past in a particular way, and many of today’s forests had previously been converted into agricultural land. Finally climate change is superimposing itself on forest development worldwide. Nevertheless, climate change is not a new phenomenon, so forest ecosystems in all time periods have been exposed to changing climatic conditions and have had to adapt. Each forest stand therefore represents a unique recent expression of the interaction of environmental conditions and plant species, a “snapshot” of the relevant abiotic and biotic factors, including human impact.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Abrams MD (1992) Fire and the development of oak forests. In eastern North America, oak distribution reflects a variety of ecological paths and disturbance conditions. Bioscience 45:346–353
Abrams MD (1998) The red maple paradox. What explains the widespread expansion of red maple in eastern forests? Bioscience 48:355–364
Abrams MD (2001) Eastern white pine versatility in the presettlement forest. Bioscience 51:967–979
Adams AS, Aylward FO, Adams SM, Erbilgin N, Aukema BH, Currie CR, Suen G, Raffa K (2013) Mountain pine beetles colonizing historical and naïve host trees are associated with a bacterial community highly enriched in genes contributing to terpene metabolism. Appl Environ Microbiol 79:3468–3475
Apffelstaedt F, Bernhardt K-G (1996) Vegetations- und populationsbiologische Untersuchungen zur Dynamik von Naturwaldzellen und Windwurfflächen in Nordrhein-Westfalen. Tuexenia 16:43–63
Barnosky AD, Matzke N, Tomiya S, Wogan GO, Swartz B, Quental TB, Marshall Ch, McGuire JL, Lindsey EL, Maguire KC, Mersey B, Ferrer EA (2011) Has the Earth’s sixth mass extinction already arrived? Nature 471:51–57
Bauer ML, Fischer A, El Kateb H, Mosandl R (2008) Verjüngungsdynamik nach großflächigem Borkenkäferbefall in den Fichtenwäldern der Hochlagen des Bayerischen Waldes. Allg Forst J Ztg 179:43–52
Bayer. LWF (1995) Waldbauliche Dokumentation der flächigen Sturmschäden des Frühjahrs 1990 in Bayern und meteorologische Situation zur Schadenszeit. Ber Bayer Landesanst Wald Forstwirtschaft (LWF) 2:336
Bebi P, Kulakowski D, Rixen C (2009) Snow avalanche disturbances in forest ecosystems. State of research and implications for management. For Ecol Manag 257:1883–1892
Begon M, Harper JL, Townsend CR (1995) Ecology: individuals, populations and communities, 3rd edn. Βlackwell Science, Oxford
Bennett KD (1985) The spread of Fagus grandifolia across eastern North America during the last 18000 years. J Biogeogr 12:147–164
Berger S, Walther G-R (2007) Immergrüne Laubwälder—Indikatoren des Klimawandels? Ber Reinh-Tüxen-Ges 19:44–59
Bhiry N, Filion L (1996) Mid-Holocene hemlock decline in eastern North America linked with phytophagous insect activity. Quat Res 45:312–320
Binkley D (1999) Disturbance in temperate forests of the Northern Hemisphere. In: Walker LR (ed) Ecosystems of disturbed ground. Elsevier, Amsterdam, pp 453–466
Blank SM, Hara H, Mikulás J, Csóka G, Ciornei C, Constantineanu R, Constantineanu I, Roller L, Altenhofer E, Huflejt T, Vétek G (2010) Aproceros leucopoda (Hymenoptera: Argidae): an East Asian pest of elm (Ulmus ssp.) invading Europe. Eur J Entomol 107:357–367
Bohlen PJ, Scheu S, Hale CM, McLean MA, Migge S, Groffman PM, Parkinson D (2004) Non-native invasive earthworms as agents of change in northern temperate forests. Front Ecol Environ 2:427–435
Boose ER, Foster DR, Fluet M (1994) Hurricane impacts to tropical and temperate forest landscapes. Ecol Monogr 64:369–400
Boose ER, Chamberlin KE, Foster DR (2001) Landscape and regional impacts of hurricanes in New England. Ecol Monogr 71:27–48
Bork HR, Bork H, Dalchow C, Faust B, Piorr HP, Schatz T (1998) Landschaftsentwicklung in Mitteleuropa. Klett-Perthes, Gotha
Box EO, Crumpacker DW, Hardin ED (1999) Predicted effects of climate change on distribution of ecologically important native tree and shrub species in Florida. Clim Change 41:213–248
Boyer WD (1990) Pinus palustris Mill. Longleaf pine. In: Burnsand RM, Honkala BH (eds) Silvics of North America, vol 1: conifers. USDA Forest Service, Washington, DC, pp 405–412
Bradshaw RHW, Lindbladh M, Hannon GE (2010) The role of fire in southern Scandinavian forests during the late Holocene. Int J Wildland Fire 19:1040–1049
Brändli UB, Dowhanytsch J (2003) Urwälder im Zentrum Europas. WSL, Birmensdorf
Bromley SW (1935) The original forest types of southern New England. Ecol Monogr 5:61–89
Brunner A (2002) First results from a new experiment on natural restocking of storm-felled forests in Denmark. In: Brunner A (ed) Restocking of storm-felled forests: new approaches. Skov & Landkab Report 12, pp 61–66
Calcote R (2003) Mid-Holocene climate and the hemlock decline: the range limit of Tsuga canadensis in the western Great Lakes region, USA. Holocene 13:215–224
Callaway RM, Cipollini D, Barto K, Thelen GC, Hallett SG, Prati D, Stinson K, Klironomos J (2008) Novel weapons: invasive plant suppresses fungal mutualists in America but not in its native Europe. Ecology 89:1043–1055
Canham CD, Loucks OL (1984) Catastrophic windthrow in the presettlement forests of Wisconsin. Ecology 65:803–809
Canham CD, Papaik MJ, Latty EF (2001) Interspecific variation in susceptibility to windthrow as a function of tree size and storm severity for northern temperate tree species. Can J For Res 31:1–10
Chen H, Tang M, Ye H-M, Yuan F (1999) Niche of bark beetles within Pinus armandi ecosystem in Qinling Mountains. Sci Sil Sin 35:40–44 (in Chinese language with English abstract)
Cheng X–X, Yan X-D (2007) Effects of global climate change on forest succession in Daxing’ Anling of Northeast China. Sheng Tai Xue Zuzhi 26:1277–1284
Clements FE (1936) Nature and structure of the climax. J Ecol 24:252–284
Cogbil CV (2005) Historical biogeography of American beech. In: Evans CA, Lucas JA (eds) Beech bark disease. Proceedings of the beech bark disease symposium, 2004. USDA Forest Service, General Technical Report NE-331, pp 16–24
Cooper-Ellis S, Foster DR, Carlton G, Lezberg A (1999) Forest response to catastrophic wind: results from an experimental hurricane. Ecology 80:2683–2696
Cullingham CI, Cooke JEK, Dang S, Davis CD, Cooke BJ, Coltman DW (2011) Mountain pine beetle host-range expansion threatens the boreal forest. Mol Ecol 20:2157–2171
Dale VH, Joyce LA, McNulty S, Neilson RP (2000) The interplay between climate change, forests, and disturbances. Sci Total Environ 262:201–204
Davis MB (1969) Climatic changes in southern Connecticut recorded by pollen deposition at Rogers Lake. Ecology 50:409–422
Davis MA (2009) Invasion biology. Oxford University Press, Oxford
Day GM (1953) The Indian as an ecological factor in the northeastern forest. Ecology 34:329–346
De la Cretaz AL, Kelty MJ (2002) Development of tree regeneration in fern-dominated forest understories after reduction of deer browsing. Restor Ecol 10:416–426
Delcourt PA, Delcourt HR (2004) Prehistoric native Americans and ecological change. Cambridge University Press, Cambridge
Donahue B (2007) Another look from Sanderson’s farm: a perspective on New England environmental history and conservation. Environ Hist 12:24
Drößler L, von Lübke B (2005) Canopy gaps in two virgin beech forest reserves in Slovakia. J For Sci 51:446–457
Dyer JM, Baird PR (1997) Wind disturbance in remnant forest stands along the prairie-forest ecotone, Minnesota. USA Plant Ecol 129:121–134
Ellis MA, Horst L (2010) White pine blister rust on currants and gooseberries. Fact Sheets Agriculture Natural Resources HYG-3205-10, pp 2
Ellison AM, Bank MS, Clinton BD, Colburn EA, Elliott K, Ford CR, Foster DR, Kloeppel BD, Knoepp JD, Lovett GM, Mohan J, Orwig DA, Rodenhouse NL, Sobczak WV, Stinson KA, Stone JK, Swan CM, Tompson J, von Holle B, Webster J (2005) Loss of foundation species: consequences for the structure and dynamics of forested ecosystems. Front Ecol Environ 3:479–486
Falinski JB (1986) Vegetation dynamics in temperate lowland primeval forests. Junk Publication, Dordrecht
Fischer A (1987) Untersuchungen zur Populationsdynamik am Beginn von Sekundärsukzessionen. Diss. Bot. 110. Cramer, Berlin
Fischer A (2011) Disturbances and biodiversity in forest ecosystems: a temperate zone perspective. Botanica Orientalis—J Plant Sci 8:1–9
Fischer A, Fischer HS (2009) 25 Jahre Vegetationsentwicklung nach Sturmwurf. Eine Dauerbeobachtungstudie im Bayerischen Wald. Forstarchiv 80:163–172
Fischer A, Fischer HS (2011) Individual-based analysis of tree establishment and forest stand development within 25 years after wind throw. Eur J For Res 131:493–501
Fischer A, Fischer H (2012) Restoration of temperate forests: an European approach. In: van Andel J, Aronson J (eds) Restoration ecology: the new frontier, 2nd edn. Blackwell Publ. Ltd, Oxford, pp 145–160
Fischer A, Abs G, Lenz F (1990) Natürliche Waldentwicklung von Waldbeständen nach Windwurf. Ansätze einer „Urwaldforschung“in der Bundesrepublik. Forstwiss Cbl 109:309–326
Fischer A, Lindner M, Abs C, Lasch P (2002) Vegetation dynamics in Central European forest ecosystems (near-natural as well as managed) after storm events. Folia Geobot 37:17–32
Fischer A, Fischer HS, Lehnert U (2012) Avalanches creating high structural and floristic diversity in mountain mixed forests in the Alps. Biodivers Conserv 21:641–654
Ford CR, Vose JM (2007) Tsuga canadensis (L.) Carr. mortality will impact hydrologic processes in southern Appalachian forest ecosystems. Ecol Appl 17:1156–1167
Foster DR (1988) Species and stand response to catastrophic wind in central New England, USA. J Ecol 76:135–151
Foster DR, Aber JD (2004) Forests in time: the environmental consequences of 1,000 years of change in New England. Yale University, New Haven
Foster DR, Boose ER (1992) Patterns of forests damage resulting from catastrophic wind in central New England, USA. J Ecol 80:79–98
Foster DR, Orwig DA (2006) Preemptive and salvage harvesting of New England forests: when doing nothing is a viable alternative. Conserv Biol 20:959–979
Foster DR, Knight DH, Franklin JF (1998) Landscape patterns and legacies resulting from large, infrequent forest disturbances. Ecosystems 1:497–510
Fox TH, Hugenholtz CH, Bender D, Gates CC (2012) Can bison play a role in conserving habitat for endangered sandhills species in Canada? Bodivers Conserv 21:1441–1455
Fraver S, White AS (2005) Disturbance dynamics of old growth Picea rubens forests of northern Maine. J Veg Sci 16:597–610
Frelich LE (2002) Forest dynamics and disturbance regimes. Cambridge University Press, Cambridge
French DW, Ascerno ME, Stienstra WC (1980) The Dutch elm disease. AG-BU-0518. Minnesota Extension Service, St. Paul
Fukui D, Hirao T, Murakami M, Hirakawa H (2011) Effects of treefall gaps created by windthrow on bat assemblages in temperate forest. For Ecol Manag 261:1546–1552
Gardiner B, Blennow K, Carnus J-M, Fleischer P, Ingemarson F, Landmann G, Lindner M, Marzano M, Nicoll B, Orazia C, Peyron J-L, Reviron M-P, Schelhaas M-J, Schuck A, Spielmann M, Usbeck T (2011) Destructive storms in European forests: past and forthcoming impacts. European Forest Institute, Final Report to European Commission, p 138. http://www.sifi.se/wp-content/uploads/2011/01
Global Invasive Species Databases, managed by the Invasive Species Specialist Group ISSG. http://issg.org/databases/species/ecology. Accessed 23 Dec 2011
Gordon IJ, Prins HHT (2008) The ecology of browsing and grazing. Springer, Berlin
Gottfried M, Pauli H et al (2012) Continent-wide response of mountain vegetation to climate change. Nat Clim Change. doi:10.1038/NCLIMATE1329
Grabherr G, Gottfried M, Pauli H (1994) Climate effects on mountain plants. Nature 369:448
Graham RT, Jain TB, Kingery JL (2010) Ameliorating conflicts among deer, elk, cattle and/or other ungulates and other forest uses: a synthesis. Forestry 83:245–255
Guo L-P, Ji L-Z, W-D Zhang, Zhang Y, Xue J-G (2010) Forest recovery state in wind disaster area of Changbai Mountains, Northeast China. Chin J Appl Ecol 21:1381–1388 (in Chinese language with English abstract)
Harper RM (1918) Changes in the forest area of New England in three centuries. J For 16:442–452
Harrington TB, Bluhm A (2001) Tree regeneration responses to microsite characteristics following a severe tornado in the Georgia Piedmont, USA. For Ecol Manag 140:265–275
Heinken T, Schmidt M, von Oheimb G, Kriebitzsch W-U, Ellenberg H (2006) Soil seed banks near rubbing trees indicate dispersal of plant species into forests by wild boar. Basic Appl Ecol 7:31–44
Heinrichs S, Schulte U, Schmidt W (2012) Eisbruch im Buchenwald—Untersuchungen zur Vegetationsdynamik der Naturwaldzelle „Ochsenberg“(Eggegebirge/Nordrhein-Westfalen) Tuexenia 32:7–29
Heske F (1938) German forestry. Yale University Press, New Haven
Heyward F (1939) The relation of fire to stand composition of longleaf pine forests. Ecology 20:287–304
Hjältén J, Gibb H, Ball P (2010) How will low-intensity burning after clear-felling affect mid-boreal insect assemblages? Basic Appl Ecol 11:363–372
Hobbs RJ, Higgs E, Harris JA (2009) Novel ecosystems: implications for conservation and restoration. Trends Ecol Evol 24:599–605
Houston DR (2005) Beech bark disease 1934 to 2004: what’s new since Ehrlich? In: Evans CA, Lucas JA (eds) Beech bark disease. Proceedings of the beech bark disease symposium, 2004. USDA Forest Service, General Technical Report NE-331, pp 2–13
Houston DR, Rubin BD, Twery MJ, Steinman JR (2005) Spatial and temporal development of beech bark disease in the northeastern United States. In: Evans CA, Lucas JA (eds) Beech bark disease. Proceedings of the beech bark disease symposium, 2004. USDA Forest Service, General Technical Report NE-331, pp 43–47
Hunter ML Jr (2007) Climate change and moving species: furthering the debate on assisted colonization. Conserv Biol 21:1356–1358
Hyvärinen E, Kouki J, Martikainen P, Lappalainen H (2005) Short-term effects of controlled burning and green-tree retention on beetle (Coleoptera) assemblages in managed boreal forests. For Ecol Manag 212:315–332
IPCC (2007) Summary for policymakers. A report of Working Group I of the Intergovernmental Panel on Climate Change. IPCC, Geneva
Jantsch M, Fischer HS, Winter S, Fischer A (2013) Shift in plant species composition reveals environmental changes during the last decades: a long-term study in beech (Fagus sylvatica L.) forests in Bavaria, Germany. Folia Geobot. doi:10.1007/s12224-012-9148-7
Jung T (2004) Phytophthora schädigt Buchenbestände in ganz Bayern. LWF aktuell 43(2004):36–38
Kajimoto T, Daimaru H, Okamoto T, Otani T, Onodera H (2004) Effects of snow avalanche disturbance on regeneration of subalpine Abies mariesii forest, Northern Japan. Arct Antarct Alp Res 36:436–445
Kirisitis T (2007) Der Stroben-Blasenrost, p 15. http://www.waldwissen.net
Klötzli F (1965) Qualität und Quantität der Rehäsung in Wald- und Grünland-Gesellschaften des nördlichen Schweizer Mittellandes. Veröff Geobot Inst ETH Stiftung Rübel 38:1–186
Kompa T, Schmidt W (2006) Zur Verjüngungssituation in südniedersächsischen Buchen-Windwurfgebieten nach einem lokalen Orkan 1997. Forstarch 77:3–19
Kooijman AM, Emmer IM, Fanta J, Sevink J (2000) Natural regeneration potential of the degraded Krkonoše forests. Land Degrad Dev 11:459–473
Korpeľ Š (1995) Die Urwälder der Westkarpaten. G. Fischer, Stuttgart
Krueger LM, Peterson CJ (2006) Effects of white-tailed deer on Tsuga canadensis regeneration: evidence for microsites as refugia from browsing. Am Midl Nat 156:353–362
Küster HJ (1992) Postglaziale Vegetationsgeschichte Südbayerns. Akademie Verlag, Berlin
Lang G (1994) Quartäre Vegetationsgeschichte Europas. G. Fischer, Jena
Lässig R, Močalov A (2000) Frequency and characteristics of severe storms in the Urals and their influence on the development, structure and management of the boreal for forests. For Ecol Manag 135:179–194
Li X-F, Zhu JJ, Wang Q-L, Liu Z-G, Hou C-S, Yang H-J (2004) Snow/wind damage in natural secondary forests in Liaodong mountainous regions of Liaoning Province. Chin J Appl Ecol 15:941–946 (in Chinese language with English abstract)
Li Y-M, Wang J-A, Lei Y-H, Zhou H-J, Xia M-Y (2005) Risk assessment of forest fire based on hazard bearing body (forest tree composition) in China. J Beijing Norm Univ (Nat Sci) 41:92 (in Chinese language with English abstract)
Lin C-H (2010) Study on the space-time variation law of forest fires in the Ningde region. J Ningde Teach Coll (Nat Sci) 22:258–260 (in Chinese language with English abstract)
Little S (1979) Fire and plant succession in the New Jersey pine barrens. In: Forman RTT (ed) Pine barrens: ecosystem and landscape. Academic Press, New York, pp 297–314
Little S, Garrett PW (1990) Pinus rigida Mill. Pitch pine. In: Burns RM, Honkala BH (eds) Silvics of North America, vol 1: conifers. USDA Forest Service, Washington, DC, pp 456–462
Logan JA, Régnière J, Powell JA (2003) Assessing the impacts of global warming on forest pest dynamics. Front Ecol Environ 1:130–137
Lombard K, Bofinger J (1999) White pine blister rust: infection incidence for selected areas of New Hampshire. UNH Cooperative Extension, Durham
Lorimer CG (1980) Age structure and disturbance history of a southern Appalachian virgin forest. Ecology 61:1169–1184
Louis RI, Prasad AM, Matthews SN, Peters M (2008) Estimating potential habitat for 134 eastern US tree species under six climate scenarios. For Ecol Manag 254:390–406
Lovett GM, Christenson LM, Groffman PM, Hart JM, Mitchell MJ (2002) Insect defoliation and nitrogen cycling in forests. Bioscience 52:335–341
Lovett GM, Canham CD, Arthur MA, Weathers KC, Fitzhugh RD (2006) Forest ecosystem responses to exotic pests and pathogens in Eastern North America. Bioscience 56:395–405
Lu A-F (2011) Study on the relationship among forest fire, temperature and precipitation and its spatial-temporal variability in China. Agric Sci Technol 12:1396–1400
Luo J-C (2002) Influence of forest fire disaster on forest ecosystem in Great Xing Anling. J Beijing For Univ 24:101–107 (in Chinese language with English abstract)
Lutz HJ (1940) Disturbance of forest soil resulting from the uprooting of trees. Yale University School Forestry Bulletin 45. Yale University, New Haven
Mackenzie M (2005) Survival of the fittest: beech bark disease-resistant beech will leave more offspring. In Evans CA, Lucas JA (eds) Beech bark disease. Proceedings of the beech bark disease symposium, 2004. USDA Forest Service, General Technical Report NE-331, pp 65–67
Man X–X, Mi X-C, Ma K-P (2011) Effects of an ice storm on community structure of an evergreen broad-leaved forest in Gutianshan National Nature Reserve, Zhejian Province. Biodivers Sci 19:197–205 (in Chinese language with English abstract)
Marshall P (2011) The historical and physiological ecology of eastern white pine (Pinus strobus L.) in northeast Connecticut, 1700–2000. PhD Thesis, Yale University, New Haven
Mayer H, Neumann M, Sommer H-G (1980) Bestandesaufbau und Verjüngungsdynamik unter dem Einfluß natürliche Wilddichten im kroatischen Urwaldreservat Corkova Uvala/Plitvicer See. Schweiz Z Forstwes 131:45–70
McCarthy J (2001) Gap dynamics of forest trees: a review with particular attention to boreal forests. Environ Res 9:1–59
McCullough DG, Werner RA, Neumann D (1998) Fire and insects in northern and boreal forest ecosystems of North America. Annu Rev Entomol 43:107–127
McLachlan JS, Hellmann JJ, Schwartz MW (2007) A framework for debate of assisted migration in an ear of climate change. Conserv Biol 21:297–302
Meyer P, Tabaku V, von Lüpke B (2003) Structural characteristics of Albanian beech (Fagus sylvatica L.) virgin forests. Deductions for semi-natural forestry. Forstw Cbl 122:47–58
Močalov SA, Lässig R (2002) Development of two boreal forests after large scale windthrow in central Urals. For Snow Landsc Res 77:171–186
Mysteru A, Aaserud R, Hansen LO, Åkra K, Olberg S, Austrheim G (2010) Large herbivore grazing and invertebrates in an alpine ecosystem. Basic Appl Ecol 11:320–328
Naiman RJ, Melillo JM, Hobbie JE (1986) Ecosystem alteration of boreal forest streams by beaver (Castor canadensis). Ecology 67:1254–1269
Nealis V, Peter B (2008) Risk assessment of the threat of mountain pine beetle to Canada’s boreal and eastern pine forests. Report BC-X-417. Canadian Forest Service, Pacific Forest Centre, Victoria
Norris LA (1990) An overview and synthesis of knowledge concerning natural and prescribed fire in Pacific Northwest forests. In: Walstad JD, Radosevich SR, Sandberg DV (eds) Matural and prescribed fire in Pacific Northwest forests. Oregon State University Press, Corvallis
Oliver CD, Stephens EP (1977) Reconstruction of a mixed-species forest in central New England. Ecology 58:562–572
Oosting HJ, Humphreys ME (1940) Buried viable seeds in a successional series of old field and forest soils. Bull Torrey Bot Club 67:253–273
Ou Y-D, Su Z-Y, Xie D–D, Ke X-D, Li Z-K (2011) Dynamics of dominant tree seedlings in mountain evergreen broadleaved forest following a snow disaster in North Guangdong. Acta Ecol Sin 31:2708–2715 (in Chinese language with English abstract)
Paillet Y, Bergès L, Hjältén J, Odor P, Avon C, Bernhardt-Römermann M, Bijlsma R-J, de Bryn L, Fuhr M, Grandin U, Kanka R, Lundin L, Luque S, Magur T, Matesanz S, Mészaros L, Sebastia M-T, Schmidt W, Standovár T, Tóthmérész B, Uotilia A, Valladares F, Vellak K, Virtanen R (2009) Biodiversity differences between managed and unmanaged forests: meta-analysis of species richness in Europe. Conserv Biol 24:101–112
Papaik MJ, Canham CD (2006) Species resistance and community response to wind disturbance regimes in northern temperate forests. J Ecol 94:1011–1026
Patterson WA, Sassaman KE (1988) Indian fires in the prehistory of New England. In: Nicholas GP (ed) Holocene human ecology in northeastern North America. Plenum, New York, pp 107–135
Pausas JG, Vallejo VR (1999) The role of fire in European Mediterranean ecosystems. In: Chuvieco E (ed) Remote sensing of large wildfires in the European Mediterranean basin. Springer, Berlin, pp 3–16
Peñuelas J, Boada M (2003) A global change-induced biome shift in the Montseny mountains (NE Spain). Glob Change Biol 9:131–142
Pereira HM, Leadley PW, Pronça V, Alcemade R, Scharlemann JPW, Fernadez-Manjarrė JF, Araujo MB, Balvanera P, Biggs R, Cheung WWL, Chini L, Cooper HD, Gilman EL, Guėnette S, Hurtt GC, Huntington HP, Mace GM, Oberdorff T, Revenga C, Rodrigues P, Scholes RJ, Sumaila UR, Walpole M (2010) Scenarios for global biodiversity in the 21st century. Science 330:1496–1501
Pickett STA, White PS (1985) The ecology of natural disturbances and patch dynamics. Academic Press, New York
Pompe S, Hanspach J, Badeck F, Klotz S, Thuiller W, Kühn I (2008) Climate and land use change impacts on plant distributions in Germany. Biol Lett 4:564–567
Průša E (1985) Die böhmischen und mährischen Urwälder—ihre Struktur und Ökologie. Academia, Praha
Qin XW, Li G, Wang DX, Liu RY, Yang GH, Feng YZ, Ren GX (2011) Determinism versus chance in canopy gap herbaceous species assemblages in temperate Abies–Betula forests. For Ecol Manag 262:1138–1145
Queloz V, Grünig CR, Berndt R, Kowalski T, Sieber TN, Holdenrieder O (2010) Cryptic speciation in Hymenoscyphus albidus. For Pathol. doi:10.1111/j.1439-0329.2010.00645.x
Raup HM (1966) The view from John Sanderson’s farm: a perspective for the use of the land. For Hist 10:2–11
Rixen C, Haag S, Kulakowski D, Bebi P (2007) Natural avalanche disturbance shapes plant diversity and species composition in subalpine forest belt. J Veg Sci 18:735–742
Romme WH (1982) Fire and landscape diversity in subalpine forests of Yellowstone National Park. Ecol Monogr 52:199–221
Russell EWB (1983) Indian-set fires in the forests of the northeastern United States. Ecology 64:78–88
Russell EWB (1987) Pre-blight distribution of Castanea dentata (Marsh.) Borkh. Bull Torrey Bot Club 114:183–190
Sala OE, Chapin FS, Armesto JJ, Berlow E, Bloomfield J, Dirzo R, Huber-Sanwald E, Huenneke LF, Jackson RB, Kinzig A, Leemans R, Lodge DM, Mooney HA, Oesterheld M, Poff NL, Sykes MT, Walker BH, Walker M, Wall D (2000) Global biodiversity scenarios for the year 2100. Science 287:1770–1774
Šamonil P, Král K, Hort L (2010) The role of tree uprooting in soil formation: a critical literature review. Geoderma 157:65–79
Schaetzl RJ, Johnson DL, Burns SF, Small TW (1989) Tree uprooting: review on terminology, process, and environmental implications. Can J For Res 19:1–11
Schmidt W (1978) Einfluß einer Rehpopulation auf die Waldvegetation. Ergebnisse von Dauerflächenversuchen im Rehgatter Stammham 1972 bis 1976. Phytocoenosis 7:43–59
Schmidt W, Heinrichs S (2012) 13 years after windthrow—vegetation dynamics of the strict beech forest reserve “Königsbuche” (southwestern Harz Mountain foothills, Lower Saxony). Hercynia NF 45:81–110
Schönenberger W, Fischer A, Ines JL (2002) Vivian’s legacy in Switzerland—impact of windthrow on forest dynamics. For Snow Landsc Res 77:1–224
Seligmann P, Mittermeier RA, da Fonseca AB, Gascon C, Crone N, Cardoso da Silva JM, Famolare L, Bensted-Smith R, Rajaobelina L, Beehhler B (2007) Centers for Biodiversity Conservation: bringing together science, partnerships, and human well-being to scale up conservation outcomes. Conservation International, Arlington
Sinton DS, Jones JA, Ohmann JL, Swanson FJ (2000) Windthrow disturbance, forest composition, and structure in the Bull Run Basin, Oregon. Ecology 81:2539–2556
Svoboda M, Janda P, Nagel TA, Fraver S, Rejzek J, Bače R (2012) Disturbance history of an old-growth sub-alpine Picea abies stand in the Bohemian Forest, Czech Republic. J Veg Sci 23:86–97
Taylor AH, Qin Z-H (1988) Regeneration patterns in old-growth Abies–Betula forests in the Wolong natural reserve, Sichuan. China. J Ecol 76:1204–1218
Taylor AH, Qin Z-H (1992) Tree regeneration after bamboo die-back in Chinese Abies–Betula forests. J Veg Sci 3:253–260
Townsend CR, Hildrew AG (1994) Species traits in relation to a habitat template for river systems. Freshw Biol 31:265–275
Turner JL, Fitzpatrick MC, Preisser E (2011) Simulating the dispersal of hemlock wolly adelgid in the temperate forest understory. Entomol Exp Appl 141:216–223
Ulanova N (2000) The effects of windthrow on forests at different special scales: a review. For Ecol Manage 135:155–167
van Andel J, Aronson J (2012) Getting started. In: van Andel J, Aronson J (eds) Restoration ecology: the new frontier, 2nd edn. Blackwell Publishing Ltd, Oxford, pp 103–114
Veblen TT, Hadley KS, Nel EM, Kitzberger T, Reid M, Villalba R (1994) Disturbance regime and disturbance interactions in a Rocky Mountain subalpine forest. J Ecol 82:125–135
Vickery PD, Dunwiddie P (eds) (1997) Grasslands of northeastern North America: ecology and conservation of native and agricultural landscapes. Massachusetts Audubon Society, Lincoln
Walsh SJ, Weiss DJ, Butler DR, Malanson GP (2004) An assessment of snow avalanche paths and forest dynamics using Ikonos satellite data. Geocarto Int 19:1–9
Wang W, Liu CR, Ma KP, Yu SL (1999) Population structure and dynamics of Quercus liaotungensis in two broad-leaved deciduous forests in Dongling Mountains, Northern China. Acta Bot Sin 41:425–432
Wang B, Zhang S-X, Yang XS (2010) Dynamics of landscape pattern at Huoditang forest region. For Res 23:544–553 (in Chinese language with English abstract)
Worrall JJ, Lee TD, Harrington TC (2005) Forest dynamics and agents that initiate and expand canopy gaps in Picea–Abies forests of Crawford Notch, New Hamshire, USA. J Ecol 93:178–190
Wright JP (2009) Linking populations to landscapes: richness scenarios resulting from changes in the dynamics of an ecosystem engineer. Ecology 90:3418–3429
Xiang Z-Q, Fu YC, Peng J, Liu YC (1999) A study of vegetation restoration on the storm-destructed slashes in the Jinyun Mountains of Chongqing. J Southwest Agric Univ 21:120–125 (in Chinese language with English abstract)
Xue J-G, Wu Y-X (2009) Investigation about vegetation restoration at typhoon ruined area in ′Jilin Changbai Mountain National Nature Reserve. Territ Nat Resour Study 1:95–96 (in Chinese language with English abstract)
Yang G-B, Tang X-M, Ning J–J, Yu D-Y (2009) Spatial and temporal distribution pattern of forest fire occurred in Beijing from 1986 to 2006. Sci Sil Sin 45:43–46 (in Chinese language with English abstract)
Ye J-R (2000) Current status and perspective on forest pests control in China. J Nanjing For Univ 22–6:1–5 (in Chinese language with English abstract)
Zeitler J (2012) Asiatische Ulmenblattwespe erstmals in Bayern nachgewiesen. LWF aktuell 88(2012):12–13
Zhang T-L (2008) Analysis and suggestion for impact of natural disasters on forest fire in Guangdong Province. For Invent Plan 33:79–83 (in Chinese language with English abstract)
Zhang J, Zhao F, Li X-M (2007) Cause analysis of forest fire in Taibai Mountains. Shaanxi For Sci Technol 2007:46–49 (in Chinese language with English abstract)
Zhao T et al (2003) Influence of temperature change on forest pests in China (in Chinese language with English abstract)
Zhu J–J, Liu Z-G, Li X-F, Matsuzaki T, Gonda Y (2004) Review: effects of wind on trees. J For Res 15:153–160
Zukrigl K, Eckhart G, Nather J (1963) Standortskundliche und waldbauliche Untersuchungen in Urwaldresten der niederösterreichischen Kalkalpen. Mitt Forstl Bundesversanst Mariabrunn 62:1–244
Acknowledgments
We thank Prof. Dr. Wang De-Xiang from Northwest University of Agriculture and Forestry, Yangling, Shaanxi Province, PR China as well as our former PhD student Zhang Qiao-Ming, now working at the Qinling National Forest Botanical Garden, Shaanxi Province, PR China for making a broad variety of Chinese papers on the topic available. We thank Dr. John O’Keefe from Harvard Forest for giving the opportunity to visit the Harvard Forest Hurricane Experiment.
Author information
Authors and Affiliations
Corresponding author
Rights and permissions
About this article
Cite this article
Fischer, A., Marshall, P. & Camp, A. Disturbances in deciduous temperate forest ecosystems of the northern hemisphere: their effects on both recent and future forest development. Biodivers Conserv 22, 1863–1893 (2013). https://doi.org/10.1007/s10531-013-0525-1
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10531-013-0525-1