Abstract
In broadleaved temperate forests in Europe, oak (Quercus robur/Q. petraea) regeneration is reported to be weak or absent. However, most work concern seedlings or saplings, studied relatively few years. We studied a Picea abies stand in Sweden, windthrown and logged (all stems harvested) in 1969, testing the hypothesis that oaks regenerate in the long term among competing tree species after catastrophic disturbance. In 2011, after 40 years/growth seasons, we recorded live and dead trees in the new stand and investigated the surroundings, competition, and succession. The following trees, up to 26 m tall, colonized: Sorbus aucuparia, Betula pendula/B. pubescens, Fagus sylvatica, Q. robur/Q. petraea, and Corylus avellana (a shrub). Betula dominated, and only Fagus was regenerating in 2011. Sorbus had produced most of the dead trees, mainly or partly through intraspecific competition. In the stand, compared to the surroundings, Quercus, Picea, and Alnus glutinosa were under-represented, and Sorbus, Betula, and Fagus were over-represented. Yet, the density of Quercus was far from negligible; 48 large trees/ha. Most of the oaks (74 %) were co-dominant trees and many grew near Sorbus. Thus, oaks can survive and grow fast among pioneer trees and browsing animals, a conclusion which is supported by the literature (nine studies identified). High mortality of Sorbus is part of a long-term succession, where Fagus might come to dominate. However, Quercus likely will persist, in low density. We propose three key traits contributing to long-term persistence of Q. robur/Q. petraea in European temperate forests: long life span, ecological plasticity, and resistance to disturbances.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Alvarez M, Seis K, Möseler BM (2012) Floristic composition and spatial distribution of germinable seeds in a spruce plantation. Ann For Sci 69:557–567
Atkinson MD (1992) Betula pendula Roth (B. verrucosa Ehrh.) and B. Pubescens Ehrh. J Ecol 80:837–870
Bergquist J, Löf M, Örlander G (2009) Effects of roe deer browsing and site preparation on performance of planted broadleaved and conifer seedlings when using temporary fences. Scand J For Res 24:308–317
Bossema I (1979) Jays and oaks: an eco-ethological study of a symbiosis. Behaviour 70:1–117
Bradshaw RHW, Hannon GE (2004) The Holocene structure of north-west European temperate forest induced from paleoecological data. In: Honnay O, Verheyen K, Bossuyt B, Hermy M (eds) Forest biodiversity: lessons from history for conservation. CAB International, Wallingford, pp 11–25
Brandel G (1990) Volymfunktioner för enskilda träd. Tall, gran och björk. (Volume functions for individual trees. Pine, spruce and birch.) SLU, Institutionen för skogsproduktion Rapport 26, Garpenberg, pp 72 (In Swedish)
Brudvig LA, Asbjornsen H (2009) Dynamics and determinants of Quercus alba seedling success following savanna encroachment and restoration. For Ecol Manage 257:876–884
Cederlund G, Liberg O (1995) Rådjuret: Viltet, ekologin och jakten (Roe deer: game, ecology and culling). Spånga, Svenska Jägareförbundet (In Swedish)
Dobrowolska D (2006) Oak natural regeneration and conversion processes in mixed Scots pine stands. Forestry 79:503–513
Dobrowolska D (2007) Vitality of oak stands in the central Odra valley damaged during flood in 1997. Sylwan 151:39–48
Drobyshev I, Nihlgård B (2000) Growth response of spruce saplings in relation to climatic conditions along a gradient of gap size. Can J For Res 30:930–938
Fischer A, Fischer HS (2012) Individual-based analysis of tree establishment and forest stand development within 25 years after wind throw. Eur J For Res 131:493–501
Frost I, Rydin H (2000) Spatial pattern and size distribution of the animal-dispersed tree Quercus robur in two spruce-dominated forests. Ecoscience 7:38–44
Götmark F (2007) Careful partial harvesting in conservation stands and retention of large oaks favour oak regeneration. Biol Conserv 140:349–358
Götmark F (2013) Habitat management alternatives for conservation forests in the temperate zone: review, synthesis, and implications. For Ecol Manage 306:292–307
Götmark F (2014) Samarbete mellan Ekprojektet och Skogsstyrelsen: studie av hygge där gran avvecklats. In: Newsletter ‘Bland ekar och arter’, p 34. http://www.bioenv.gu.se/digitalAssets/1472/1472203_nb8helasistacc.pdf
Götmark F, Berglund Å, Wiklander K (2005) Browsing damage on broadleaved trees in semi- natural temperate forest in Sweden, with focus on oak regeneration. Scand J For Res 20:223–234
Götmark F, Åsegård E, Franc N (2011) How we improved a landscape study of species richness of beetles in woodland key habitats, and how model output can be improved. For Ecol Manage 262:2297–2305
Granström A (1987) Seed viability of fourteen species during 5 years of storage in a forest soil. J Ecol 75:321–331
Hagberg E, Matérn B (1975) Volume tables for oak and beech. Research Notes 14. Department of Forest Biometry, Royal College of Forestry, Stockholm
Harmer R, Morgan G (2007) Development of Quercus robur advance regeneration following canopy reduction in an oak woodland. Forestry 80:137–149
Harmer R, Morgan G (2009) Storm damage and the conversion of conifer plantations to native broadleaved woodland. For Ecol Manage 258:879–886
Healy WJ (2003) Influence of deer on the structure and composition of oak forests in central Massachusetts. In: McShea WJ, Underwood HB, Rappole JH (eds) The science of overabundance. Smithsonian Institution Press, Washington DC, pp 249–265
Hester AJ, Millard P, Baillie GJ, Wendler R (2004) How does timing of browsing affect above- and below-ground growth of Betula pendula, Pinus sylvestris and Sorbus aucuparia? Oikos 105:536–550
Hibbs DE (1983) Forty years of forest succession in central New England. Ecology 64:1394–1401
Johnson DH (1999) The insignificance of statistical significance testing. J Wildl Manage 63:763–772
Johnson PS, Shifley SR, Rogers R (2009) The ecology and silviculture of oaks, 2nd edn. CABI Publishing, New York
Jonasova M, van Hees A, Prach K (2006) Rehabilitation of monotonous exotic coniferous plantations: a case study of spontaneous establishment of different tree species. Ecol Engineer 28:141–148
Jonasova M, Vavrova E, Cudlın P (2010) Western Carpathian mountain spruce forest after a windthrow: natural regeneration in cleared and uncleared areas. For Ecol Manage 259:1127–1134
Jones EW (1959) Quercus L. J Ecol 47:169–222
Karlsson M, Nilsson U (2005) The effects of scarification and shelterwood treatments on naturally regenerated seedlings in southern Sweden. For Ecol Manage 205:183–197
Kelly DL (2002) The regeneration of Quercus petraea (sessile oak) in southwest Ireland: a 25-year experimental study. For Ecol Manage 166:207–226
Kjellander P, Hewison AJM, Liberg O, Angibault J-M, Bideau E, Cargnelutti E (2004) Experimental evidence for density-dependence of home-range size in roe deer (Capreolus capreolus L.): a comparison of two long-term studies. Oecologia 139:478–485
Kramer K, Vreugdenhil SJ, van der Werf DC (2008) Effects of flooding on the recruitment, damage and mortality of riparian tree species: a field and simulation study on the Rhine floodplain. For Ecol Manage 255:3893–3903
Kullberg Y, Bergström R (2001) Winter browsing by large herbivores on planted deciduous seedlings in southern Sweden. Scand J For Res 16:371
Lawesson JE, Oksanen J (2002) Niche characteristics of Danish woody species as derived from coenoclines. J Veg Sci 13:279–290
Leuschner C, Hertel D, Coners H, Büttner V (2001) Root competition between beech and oak: a hypothesis. Oecologia 126:276–284
Lew MJ (2014) Stat Boss. http://www.pharmacology.unimelb.edu.au/statboss/home.html
Lindbladh M, Foster DR (2010) Dynamics of long-lived foundation species: the history of Quercus in southern Scandinavia. J Ecol 2010:1330–1345
Lindenmayer DB, Burton PJ, Franklin JF (2008) Salvage logging and its ecological consequences. Island Press, Washington
Lindquist B (1939) Eken vid Norra Kvill. Bygd och Natur, issue 6-8, p. 357–359 (In Swedish)
Lorimer CG, Chapman JW, Lambert WD (1994) Tall understorey vegetation as a factor in the poor development of oak seedlings beneath mature stands. J Ecol 82:227–237
Magnusson E (1978) Description to the Quartenary map, Göteborg SO. Sveriges Geologiska Undersökning Serie Ae Nr 26. Stockholm (In Swedish, English summary)
Miller GR, Kinnaird JW, Cummins RP (1982) Liability of saplings to browsing on a red deer range in the Scottish highlands. J Appl Ecol 19:941–951
Morrissey RC, Jacobs DF, Seifert JR, Fischer BC, Kershaw JA (2008) Competitive success of natural oak regeneration in clearcuts during the stem exclusion stage. Can J For Res 38:1419–1430
Murtaugh PA (2010) Performance of several variable-selection methods applied to real ecological data. Ecol Lett 12:1061–1068
Niinemets Ü, Valladares F (2006) Tolerance to shade, drought, and waterlogging of temperate Northern Hemisphere trees and shrubs. Ecol Monogr 76:521–547 and Appendix A, Ecol Archives M076-020-A1
Nilsson SG (1985) Ecological and evolutionary interactions between reproduction of beech Fagus sylvatica and seed eating animals. Oikos 44:157–164
Nilsson SG (1997) Forests in the temperate-boreal transition: natural and man-made features. Ecol Bull 46:61–70
Nilsson C, Stjernquist I, Bärring L, Schlyter P, Jönsson AM, Samuelsson H (2004) Recorded storm damages in Swedish forests 1901–2000. For Ecol Manage 199:165–173
Nyland RD (2002) Silviculture—concepts and applications, 2nd edn. McGraw-Hill, Boston
Oliver CD, Burkhardt EC, Skojac DA (2005) The increasing scarcity of red oaks in Mississippi River floodplain forests: Influence of the residual overstory. For Ecol Manage 210:393–414
Packham JR, Thomas PA, Atkinson MD, Degen T (2012) Biological Flora of the British Isles: Fagus sylvatica. J Ecol 100:1557–1608
Perea R et al (2012) Effects of seed quality and seed location on the removal of acorns and beechnuts. Eur J For Res 131:623–631
Peterken GF, Jones EW (1989) Forty years of change in Lady Park Wood: the young- growth stands. J Ecol 77:401–429
Proenca V, Pereira HM, Vicente L (2010) Resistance to wildfire and early regeneration in natural broadleaved forest and pine plantation. Acta Oecol 36:626–633
Raspé O, Findlay C, Jaquemart A-L (2000) Sorbus aucuparia L. J Ecol 88:910–930
Rohner B, Bigler C, Wunder J, Brang P, Bugmann H (2012) Fifty years of natural succession in Swiss forest reserves: changes in stand structure and mortality. J Veg Sci 23:892–905
Schlyter P, Stjernquist I, Bärring L, Jönsson AM, Nilsson C (2006) Assessment of the impacts of climate change and weather extremes on boreal forests in northern Europe, focusing on Norway spruce. Clim Res 31:75–84
Schnitzler A, Closset D (2003) Forest dynamics in unexploited birch (Betula pendula) stands in the Vosges (France): structure, architecture and light patterns. For Ecol Manage 183:205–220
Schütz J-P, Götz M, Schmid W, Mandallaz D (2006) Vulnerability of spruce (Picea abies) and beech (Fagus sylvatica) forest stands to storms and consequences for silviculture. Eur J For Res 125:291–302
Stoll P, Newbery DM (2005) Evidence of species-specific neighborhood effects in the dipterocarpaceae of a Bornean rain forest. Ecology 86:3048–3062
Tyler M (2008) British oaks: a concise guide. Crowood Press, Marlborough
Vivås J, Saether B-E (1987) Interactions between a generalist herbivore, the moose Alces alces and its food source: an experimental study of winter foraging behaviour in relation to browse availability. J Anim Ecol 56:509–520
Vodde F, Jogiste K, Gruson L, Ilisson T, Koster K, Stanturf JA (2010) Regeneration in windthrow areas in hemiboreal forests: the influence of microsite on the height growths of different tree species. J For Res 15:55–64
von Oheimb G et al (2011) Individual-tree radial growth in a subtropical broad-leaved forest: the role of local neighbourhood competition. For Ecol Manage 261:499–507
Wam HK, Hjeljord O (2010) Moose summer and winter diets along a large scale gradient of forage availability in southern Norway. Eur J Wildl Res 56:745–755
Zerbe S (2001) On the ecology of Sorbus aucuparia (Rosaceae) with special regard to germination, establishment and growth. Polish Bot J 46:229–239
Zywiec M, Holeksa J (2012) Sprouting extends the lifespan of tree species in a seedling bank: a 12 year study. For Ecol Manage 284:205–212
Zywiec M, Ledwon M (2008) Spatial and temporal patterns of rowan (Sorbus aucuparia L.) regeneration in West Carpathian subalpine spruce forest. Plant Ecol 194:283–291
Acknowledgments
We thank Ralph Harmer, Igor Drobyshev, Anna Monrad Jensen, associate editor, and anonymous reviewers for valuable comments on the manuscript. Daniel Kelly kindly provided unpublished data; Ralph Harmer also kindly provided additional information. Mats Niklasson and Igor Drobyshev helped us with dendrochronology. The stand and nature reserve was studied under permission from the Härryda municipality. The municipality also provided the aerial photograph of the forest, and helped us in studies of archives.
Author information
Authors and Affiliations
Corresponding author
Additional information
Communicated by J. D. A. Millington.
Rights and permissions
About this article
Cite this article
Götmark, F., Kiffer, C. Regeneration of oaks (Quercus robur/Q. petraea) and three other tree species during long-term succession after catastrophic disturbance (windthrow). Plant Ecol 215, 1067–1080 (2014). https://doi.org/10.1007/s11258-014-0365-4
Received:
Accepted:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s11258-014-0365-4