URL: https://www.waldwissen.net/wald/naturschutz/bfw_stand_dynamics_neuwald/index_EN
Originalartikel: Steiner H., Frank G. (2013): Stand Dynamics in the Virgin Forest "Neuwald". Poster presented at the 5th Symposium for Research in Protected Areas. 10 - 12 June 2013, Nationalpark Hohe Tauern Zentrum, Mittersill: Poster.
Autor(en): Herfried Steiner, Georg Frank
Online-Version: Stand: 18.12.2015
Redaktion: BFW, A

Stand Dynamics in the Virgin Forest "Neuwald"

The virgin forest "Neuwald", 20 ha, is one of the last remnants of virgin forests left in the Eastern Alps (Zukrigl et al. 1963; Kral & Mayer 1968) (Figure 1). There grows mainly a spruce-fir-beech forest (vegetation type Adenostylo glabrae-Fagetum Moor 1970 and Cardamino trifoliae-Fagetum Oberdorfer 1987 (Willner & Grabherr 2007).

Figure 1
Figure 1: The virgin forest "Urwald Neuwald". © Steiner

In the virgin forest there has been no sylvicultural intervention for a long time, harvesting was banned in the early 19th century. A high deer density during the last century and this time no considerable ingrowth into the overstorey were observed.

The main questions of this study are:

  1. How does the lack of natural regeneration and ingrowth, at simultaneous tree mortality, affect the inventory parameters: stem number, basal area, volume, tree species composition and diameter distribution?
  2. Is the ecosystem sufficiently resilient and able to compensate the long-lasting lack of ingrowth and dying trees with an increase of increment of the remaining stand?


Surveys were coducted in 1986, 1996 and 2006 (26 sample plots à 1000 m² in a grid of 60 x 60 m). At all trees above a dbh (diameter in breast height) of 10 cm polar-coordinates, dbh, heigth (1986) and survival of individuals were recorded. The merchantable timber volume was calculated by dbh, height model (survey 1986) and form factor functions (Pollanschütz 1974).


Overstorey is composed exclusively by European beech, silver fir and Norway spruce. The dbh-distribution shows large differences among the tree species ( Figure 2).

Figure 2
Figure 2: Diameter distribution of main tree species in the virgin forest "Urwald Neuwald".

Number of individuals > 10 cm dbh (Figure 3)
A decrease of 250 n/ha to 227 n/ha can be noticed for a period of 20 years. While in beech mortality and ingrowth were balanced at 12 n/ha, there is no ingrowth for 7 dead spruce trees/ha and 1 ingrowth for 17 fir/ha.

Figure 3 - small Figure 4 - small
Figure 3: Comparison of 1986 survey with 2006; number of stems of main tree species per ha, ingrowth and mortality. Figure 4: Comparison of solid volume of 1986 survey
with 2006; total solid volume (>7cm Ø) m³ per ha, growth and mortality.

Volume of the stand (Figure 4)
A slight increase in volume (merchantable timber) over the course of 20 years of 715 m³/ha to 741 m³/ha beech and fir show the best growth performance. The excellent growth performance observed especially in older fir trees results in considerable increment of the whole stand – despite the lack of ingrowth.


Massive browsing on regeneration by red deer for decades has led to a permanent disturbance of the natural stand development. Studies in spruce-fir-beech forests in south-eastern Europe suggest a similar trend to increasing beech dominance at the expense of fir in comparable forest types (Vrška et al. 2009; Diaci et al. 2011).

However, in the virgin forest "Neuwald" not only a change of tree species can be observed, but a decrease of all three main tree species spruce, fir and beech. A total dieback of fir projected in 1988 (Frank & Mayer 1988) from the perspective of air pollution induced "Waldsterben" (forest dieback) cannot be confirmed from today’s point of view.

All the more surprising is the long lasting capacity of the forest ecosystem to compensate the age-related mortality and the lack of regeneration by overstorey growth. Under the current view of climate change and the discussion concerning the status of unmanaged forests as carbon sinks these findings could be important because they demonstrate the ability of these forests for carbon storage over many decades.


Diaci J. et al. 2011: Structural dynamics and synchronous silver fir decline in mixed old-growth mountain forests in Eastern and Southeastern Europe. Forestry, 84. 479-491.
Frank G., Mayer H. 1988: Waldschadensinventur im Fichten-Tannen-Buchen-Urwaldrest Neuwald. Cbl. f. d. ges.Forstw. 104-123. Wien.
Kral F., Mayer H. 1968: Pollenanalytische Überprüfung des Urwaldcharakters an den Naturwaldreservaten Rothwald und Neuwald (Niederösterreichische Kalkalpen). Cbl. f. d.ges. Forstw. 3. Wien.
Pollanschütz, J., 1974: Formzahlfunktionen der Hauptbaumarten Österreichs. Allgemeine Forstzeitung 85(12).,341-343. Wien.
Vrška T. et al. 2009: European beech (Fagus sylvatica L.) and silver fir (Abies alba Mill.) rotation in the Carpathians - a developmental cycle or a linear trend induced by man? Forest Ecology and Management. 258. 347-356.
Willner W. , Grabherr G. 2007: Die Wälder und Gebüsche Österreichs: 302 + 290. München.
Zukrigl K., Eckhart G., Nather J. 1963: Standortskundliche und waldbauliche Untersuchungen in Urwaldresten der niederösterreichischen Kalkalpen. Mitt. d. FBVA Mariabrunn. 244. Wien.

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