Abstract
• Background
In the development of pure beech and pure spruce pristine forests, we assume there should be a continuous transition from full stocking to successive disintegration and, finally, total replacement of the first generational wave at the end of its lifetime, dependent on mortality due to overcrowding as well as ageing, leading newly recruited cohorts to grow up from below.
• Material and methods
A survey of stem number distribution from permanent plots measured repeatedly in six pristine beech reserves and four spruce reserves, mainly in Slovakia, was considered as well as surveys from yield plots in untouched stands in Switzerland on comparable site conditions. From 64 (54, respectively) surveys in virgin forests, we separated (if necessary) the original regeneration waves from successive waves for calculation of stand density development. Comparison with a previous model for full stand closure according to Reineke’s density rule allowed the risk of stand release to be evaluated and determined.
• Results
The risk of stand closure release is substantially higher for spruce than for beech because of differences in longevity and in vulnerability to storms. Decay does not seem to be the decisive factor, until advanced ageing is reached. Consequences for the understanding of natural forest dynamics, especially reinitiation through successive waves of regeneration are drawn on the basis of silvicultural expertise from continuous cover systems. The density threshold limit for the accession of a second growth in the upper storey is attained at an age of about 180 years for beech and 140 years for spruce. This corresponds to about 70% or 40% of the life cycle, respectively.
• Conclusion
Vulnerability to stand release should be considered as a gradual (discrete) rather than a continuous phenomenon that depends on the complex relationship between the collective cohesion within a stand and a propensity for weakening factors. This suggests that the establishment of large disclosure patches could be the driving force in the renewal of these virgin forests.
This is a preview of subscription content, log in via an institution to check access.
Similar content being viewed by others
References
Ammann PL (2004) Untersuchung der natürlichen Entwicklungsdynamik in Jungwaldbeständen: Biologische Rationalisierung der waldbaulichen Produktion bei Fichte, Esche, Bergahorn und Buche. PhD thesis Nr. 15761, ETH, Zürich
Bielec-Bąkowska Z (2003) Long-term variability of thunderstorm occurrence in Poland in the 20th century. Atmos Res 67–68:35–52
Dittmar O (1991) Der Seebach’sche Lichtungsbetrieb: Ein interessanter Aussenseiter der Buchenwirtschaft des 19. Jahrhunderts. Der Wald (Berlin) 41:165–168
Dobrovolny P, Brŕzdil R (2003) Documentary evidence on strong winds related to convective storms in the Czech Republic since AD 1500. Atmos Res 67–68:95–116
Drössler L, von Lüpke B (2005) Canopy gaps in two virgin beech forest reserves in Slovakia. J For Sci 51:446–457
Ďurskỳ J (1997) Modellierung der Absterbeprozesse in Rein- und Mischbeständen aus Fichte und Buche. Allg Forst Jagdeztg 168:131–134
Freist H (1962) Untersuchungen über den Lichtungszuwachs der Rotbuche und seine Ausnutzung im Forstbetrieb. Beiheft Forstwiss. Cbl. 17, München, p 78
Fröhlich FS (2011) Economic and ecologic advantages of small scale structured beech close to nature forest management: the case of group selection system. Zbornik gozdarstva in lesarstva 94:55–66
Gardiner BA, Stacey GR, Belcher RE, Wood CJ (1997) Field and wind tunnel assessments of the implications of respacing and thinning for tree stability. Forestry 70:233–252
Hanewinkel M, Hummel S, Albrecht A (2011) Assessing natural hazards in forestry for risk management: a review. Eur J For Res 130:329–351
Holeska J, Saniga M, Szwagrzyk J, Czerniak M, Staszynska K, Kapusta P (2009) A giant tree in the West Carpathians: an exception or a relic of formerly widespread mountain European forests? For Ecol Manage 257:1577–1585
Ivanov DE (2007) Stabilité et résistance individuelle et collective et phénomènes de désintégration collective face aux sollicitations de neige lourde au sein de peuplements de pin sylvestre (Pinus sylvestris L.): analyse et gestion du risqué de dégâts, conséquences pour la pratique d’éclaircies tardives. Thesis ETH Nr 17513, Zürich, p 237
Korpeľ Š (1995) Die Urwälder der Westkarpathen. Fischer, Stuttgart
Kucbel S, Jaloviar P, Saniga M, Vencurik J, Klimaš V (2010) Canopy gaps in an old-growth fir-beech forest remnant of Western Carpathian. Eur J For Res 129:249–259
Leibundgut H (1959) Über Zweck und Methodik der Struktur und Zuwachsanalyse von Urwäldern. Schweiz Z Forstwes 110:111–124
Lonsdale WM (1990) The self-thinning rule: dead or alive. Ecology 71:1373–1388
Mayer H (1978) Über die Bedeutung der Urwaldforschung für den Gebirgswaldbau. Allg Forstz 24:691–693
Moorby J, Wareing PF (1963) Ageing in woody plants. Ann Bot 27:291–308
Nagel TA, Diaci J (2006) Intermediate wind disturbance in an old-growth beech-fir forest in southeastern Slovenia. Can J For Res 36:629–638
Nagel TA, Svoboda M (2008) Gap disturbance regime in an old-growth Fagus-Abies forest in the Dinaric Mountains. Bosnia-Herzegovina. Can J For Res 38:2728–2737
Nagel TA, Levanic T, Diaci J (2007) A dendroecological reconstruction of disturbance in an old-growth Fagus-Abies forest in Slovenia. Ann For Sci 64:891–897
Ozenda P (1994) Végétation du continent européen. Delachaux et Niestlé, Lausanne, p 271
Pintarič K (1978) Urwald Peručisa als natürliches Forschungslaboratorium. Allg Forstz 24:702–707
Pretzsch H (2006) Species-specific allometric scaling under self-thinning: evidence from long-term plots in forest stands. Oecologia 146:572–583
Pretzsch H, Schütze G (2005) Crown allometry and growing space efficiency of Norway spruce (Picea abies [L.] Karst.) and European beech (Fagus sylvatica L.) in pure and mixed stands. Plant Biol 7:628–639
Reineke LH (1933) Perfecting a stand density index for even-aged forests. J Agric Res 46:627–638
Schiesser H-H, Waldvogel A, Schmid W, Willemse S (1997) Klimatologie der Stürme und Sturmsysteme anhand von Radar- und Schadendaten. Schlussbericht Nation. Forschungs. Progr. 31, Vdf Hochschulverlag an der ETH, Zürich, p 132
Schütz JP (1998) Licht bis auf dem Waldboden: Waldbauliche Möglichkeiten zur Optimierung des Lichteinfalls im Walde. Schweiz Z Forstwes 149:843–864
Schütz JP (2006) Modelling the demographic sustainability of pure beech plenter forests in Eastern Germany. Ann For Sci 63:93–100
Schütz JP, Röhnisch F (2003) Steuerung des Nachwuchses während der Überführung von gleichförmigen Fichten-Aufforstungsbeständen in Plenterwälder. In: Kenk G (ed) Beiträge zur Jahrestagung 2003: Deutscher Verband forstlicher Forschungsanstalten, Sektion Ertragskunde, Freiburg i.Br. pp 184–194
Schütz JP, Zingg A (2010) Improving estimations of maximal stand density by combining Reineke’s size-density rule and the yield level, using the example of spruce (Picea abies (L.) Karst.) and European Beech (Fagus sylvatica L.). Ann For Sci 67:507
Schütz JP, Götz M, Schmid W, Mandallaz D (2006) Vulnerability of spruce (Picea abies) and beech (Fagus sylvatica) forests stands to storms and consequences for silviculture. Eur J For Res 125:291–302
Shigo AL (1976) Compartmentalization of discolored and decayed wood in trees. In: Material und Organismen. Dunker & Humbolt, Berlin, pp 221–226
Spellmann H (1999) Überführung als betriebliche Aufgabe. Forst Holz 54:110–116
Splechtna BE, Gratzer G, Black BA (2005) Disturbance history of a European old-growth mixed-species forest—a spatial dendro-ecological analysis. J Veg Sci 16:511–522
Turckheim B, Bruciamacchie M (2005) La futaie irréguličre; Théorie et pratique de la sylviculture irréguličre continue et proche de la nature. Edisud, Aix en Provence, p 282
Vanomsen P (2006) Der Einfluss der Durchforstung auf die Verankerung der Fichte hinsichtlich ihrer Sturmresistenz. Thesis ETH Nr 16532, Zürich, p 246
Weller DE (1987) A reevaluation of the −3/2 power rule of plant self-thinning. Ecol Monogr 57:23–43
Zeibig A, Diaci J, Wagner S (2005) Gap disturbance patterns of a Fagus silvatica virgin forest remnant in the mountain vegetation belt of Slovenia. For Snow Landsc Res 79:69–80
Zeide B (1985) Tolerance and self-tolerance of trees. For Ecol Manag 13:149–166
Zeide B (1987) Analysis of the 3/2 power law of self-thinning. For Sci 33:517–537
Zuckrigl K (1991) Succession and regeneration in the natural forest in central Europe. Geobios (Jodhpur) 18:202–208
Acknowledgments
We are very grateful to the Swiss Federal Institute for Forest Snow and Landscape Research (WSL), Birmensdorf, Switzerland, and particularly to Andreas Zingg for making available the data from the yield data base.
Author information
Authors and Affiliations
Corresponding author
Additional information
Handling Editor: Matthias Dobbertin
J.-P.S is professor emeritus, ETH Zurich
Rights and permissions
About this article
Cite this article
Schütz, JP., Saniga, M. Modelling the risks of natural stand closure release with ageing in pure beech (Fagus sylvatica) and spruce (Picea abies) stands. Annals of Forest Science 68, 1105 (2011). https://doi.org/10.1007/s13595-011-0126-7
Received:
Accepted:
Published:
DOI: https://doi.org/10.1007/s13595-011-0126-7