V. Račko, M. Saniga, I. Čunderlík: THE IMPACT OF SILVICULTURALTREATMENTS ON THE STRUCTURE ...�Šumarski list br. 9–10, CXXXV (2011), 437-448�
DISCUSSION – Rasprava
To start with, it is necessary to remember that the�
analyzed experiment is based on the exact data on�
change dynamics of chosen dendrometric parameters�
of chosen trees of the same ecotype in the same ecological
and geological conditions with a different silviculture
technique. Homogenization of ecological and�
geological conditions creates assumptions to find a relatively
clear answer to the questions on the influence�
of different silviculture techniques on the formation of�
RH for beech.
The results confirmed that autonomous and long-
term position of beech trees with the crown length longer
than a half of a tree height in the upper layer of selection
system forest (CMT513) creates conditions to�
achieve target DBH of 45–50cm (age 100–110 years)�
with a very low assumption of RH formation.�
Similar results were achieved in case of crown thinning
with a positive selection (CMT514b) and grading�
its relative thinning strength to24–26% of the taken�
volume capacity of beechstand in the age of 80 years.�
To achieve target beech diameter in the age of 100–110�
years it is necessary to form its crown according to the�
above mentioned parameters (Mahler�and Höwecke
�1991). By this way the assumptions are created
for fully functional activity of the whole section of�
a trunk.The found parameters correspond with the requirements
ofBachmann(1990)for quality forming�
of the lower third of a trunk which in case of beech presents
60% of its volume and up to 90% of its value production.
The achieved results about frequency of RH confirmed
that we can help to decrease it by the different way�
of silviculture treatment. Especially the selection system
achieved considerably lower frequency of RH�
(Fig. 5). In comparison with literature (Mahler�and�
Höwecke�1991)�it was considerably lower for the�
same age of 100-120 years and for the trunk diameter at�
the DBH 40–49 cm. By Prka (2003), who investigated�
this issue of beech stands in a regeneration phase in the�
age of 100 to 110 years, the frequency of RH was approximately
50%.
The issue of the changing size of DZ (Table 4) can�
be understood as an important restricting factor of formation
and size of RH.Therefore, a keyfactor ofinjurieson
the bottom of tree waspartiallyeliminated by�
a widezone ofSW.The air entering into the trunk had�
to overcome a bigger distance between the trunk surface
and DZ. Largeinjuries at the bottom occurredonly�
inafew cases (Fig. 6a), more often small wounds were�
closedby new formed wound wood even before air enteringinto
DZ (Fig. 6b).
With changing CA at the different height of a trunk�
there appears the change of DZ width (Table 5). From�
the viewpoint of frequency of RH it is apparent that the�
RH occurred especially in the parts of trunk with higher�
CAand predominantly in those trees where the DZ was�
wider. However, we can see from the Table 6 that RH�
was formed in a few cases in the upper parts of trunk.�
Wernsdörfer�et al. (2005)pointed that only some�
wounds and branch marks on the bark are responsible�
for the RH formation.Torelli�(2001)defines the formation
of dry central zone in the middle of a beech�
trunk as a dynamic process analogical towards the RH�
formation for other wood species, while a tree adjusts�
the SW size (active transpiration area) to the crown�
size. In general, it applies that the age has a dominant�
influence on ageing and dieback of parenchyma and so�
on the increase of DZ portion at the expense of SW�
(Bosshard�1965).
On the other hand,the influence of crown volume�
contributes to alteration of portion between SW and�
DZ width (Torelli�1974, 1984).Also, quality of the�
crown (leaves size, foliage density, ration of shadowy�
and lighted leaves as well as their proportional or disproportional
distribution) have influence on average�
annual growth ring width (Assmann�1961)and transpiration
flow of water through the trunk (Bartelink�
1997, Deckmyn et al. 2006).This must consequently�
show at the higher capacity of vital parenchyma which�
is capable to fulfill a supplying function in a tree. However,
the crown development ofhealthytreesshouldbe�
understoodas a dynamicprocess, whichismainlyinfluenced
byageandperformed thinning activities. Different
methods�of thinning activities�performed on�
investigatedCMTsinthe last23yearscausedthat the�
averagecrownvolumes (apart from the last 8 years)�
differed significantly(Table 3). Itcaused differences in�
final average DZportions(Table 4).�
The achieved results entitle us to assume that even�
in the higher age of trees it is possible to influence positively
the ratio between SWand DZ by a suitable silviculture
activity leading to an increase of the crown size�
and quality from the photosynthesis point of view and�
so contribute to a decrease of frequency of occurrence�
and size of RH.This will consequently show at the quality
and price of the produced assortments.�
ACKNOWLEDGMENTS – Zahvala
This publication is the result of the project imple-Research & Development Operational Programme fun-
mentation Centre of Excellence „Adaptive Forest Eco-ded by the ERDF.
systems“, ITMS: 26220120006, supported by the�
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