Growth dynamics of the Norway spruce and silver fir understory in continuous cover forestry

Vencurik, Jaroslav; Kucbel, Stanislav; Saniga, Milan; Jaloviar, Peter; Sedmáková, Denisa; Pittner, Ján; Parobeková, Zuzana; Bošeľa, Michal

doi:10.3832/ifor3183-012

Cited by 6 publications

(5 citation statements)

References 39 publications

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“…structure of the selection forest and the related decrease in the diffuse radiation intensity towards the ground created more favourable ecological conditions for the fir trees in the lower layer. The better utilisation of diffuse light by the fir results in its faster growth and, therefore, in the higher competitive ability in comparison with the spruce (Grassi, Giannini 2005;Dănescu et al 2018;Vencurik et al 2019). The deliberate regulation of the light conditions in the lower layer can, thus, to a certain extent affect the changes not only in the structure, but also in the tree species composition of a forest stand (Smith et al 1997;Diaci 2002;Robakowski et al 2004).…”

Section: Discussionmentioning

confidence: 99%

“…As the crosssections and cores were taken at a height of 1.3 m, to assess the tree age, it was necessary to add the time needed to reach this height. This period was quantified according to the fitted growth curves of the lower layer trees derived by Vencurik et al (2019) and represented 18 years for the spruce and 16 years for the fir trees. Based on the year ring widths from the collected cores of the spruce and fir trees, the mean annual diameter increment for the period of the last 5 years Δd (diameter increment) was calculated according to the Equation (1):…”

Section: Methodsmentioning

confidence: 99%

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Growth analysis of the lower layer trees in forest stands under conversion in the Starohorské vrchy Mts.: A case study

Kucbel¹,

Vencurik²

2022

J. For. Sci.

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The case study analyses the structure and dynamics of the diameter growth on the example of two fir-spruce forest stands under conversion to a selection forest. In a series of 51 circular research plots (size 500 m<sup>2</sup>), the biometric characteristics (tree species, diameter at breast height, height) of all the stems with a diameter above 8 cm were registered. From the selected stems, we collected 51 cross-sections and 178 tree cores in total and performed age and growth analyses. In addition, for the lower layer trees, we assessed the competition by the neighbouring stand quantified by the competition index. The results confirmed the differences in the age structure, despite the similar diameter distributions in the investigated stands, as well as the differences in the growth dynamics of the spruce and fir in the lower tree layer. Nevertheless, the competition of the neighbouring stand was not proven as a significant factor for the diameter growth of the lower layer trees.

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Section: Discussionmentioning

confidence: 99%

Section: Methodsmentioning

confidence: 99%

Growth analysis of the lower layer trees in forest stands under conversion in the Starohorské vrchy Mts.: A case study

Kucbel¹,

Vencurik²

2022

J. For. Sci.

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“…Light is a key driver shaping species-specific growth trajectories and allocation patterns (Brüllhardt et al 2020). Fir and spruce demonstrate similar plasticity of crown, shoot and needle morphology under changing light conditions (Grassi and Giannini 2005), and trees of both species are capable of surviving under low light intensities (Lundqvist and Nilson 2007;Diaci and Firm 2011;Lin et al 2012;Vencurik et al 2020). Nonetheless, numerous studies have shown that spruce has a greater ability to utilize high-light conditions compared to fir (Grassi and Bagnaresi 2001) and that in conditions close to full light, young spruces grow faster (Brunner 1993;Brunner and Huss 1994) or have similar growth rates as fir (Stanciou and O'Hara 2006).…”

Section: Differences In the Life Histories Of Spruces And Firsmentioning

confidence: 99%

“…Several studies have found that the probability of Norway spruce establishment diminished with increasing overstory density (Schweiger and Sterba 1997;Lin et al 2012;Paluch et al 2021). In smaller gaps or under overstoreys of moderate to high densities, the height growth of spruces is lower than that of firs (Golser and Hasenauer 1997;Stancioiu and O'Hara 2006;Vencurik et al 2020). Dănescu et al (2018) demonstrated that even rapid groupshelterwood cutting regimes with complete canopy removal within two decades still favored fir regeneration.…”

Section: Differences In the Life Histories Of Spruces And Firsmentioning

confidence: 99%

Life histories of Abies alba and Picea abies growing in old-growth forests driven by natural gap-phase dynamics

Paluch

Jastrzębski

2022

Eur J Forest Res

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We analyzed growth trajectories recorded in the tree-ring series of Norway spruce Picea abies (L.) H. Karst. and silver fir Abies alba Mill. co-occuring with European beech Fagus sylvatica L. in old-growth forests driven by natural stand dynamics. The study sites were localized in five old-growth stands in the Western Carpathians (Central Europe). We characterized the life histories of 218 individual trees by using 25 metrics which refer to the age of the trees, number of release events, reaction to releases, radial increment and basal area increment. We found a large variation in the dbh-age relationship. The life histories of most trees included two or three (in single cases up to seven) release events. We did not find tree age as an important factor in determining post-release growth response. The maximal basal area increment was frequently registered at the terminal stage of tree life. The life histories of spruces and firs did not significantly differ. We concluded that in natural forests driven by gap-phase dynamics, the history of release events is the primary driver of tree growth and that tree age plays a secondary role. After reaching the overstory, trees can continue growing without significant symptoms of aging until extrinsic forces cause their death. Our results indicate that in the studied ecosystem the persistence of less shade-tolerant spruce is not attributable to the niche differentiation and site partitioning mechanism. An alternative hypothesis based on shifts in stand densities, species composition and climatic factors is more probable.

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“…The planting of fir in the conditions of full insolation usually does not show a negative influence on the height growth, however, the conditions of the clear-cut area initially contribute to increased mortality and frost injury, and worsened vitality of the young plants (Vaněk, Mauer 2014). Therefore, silver fir is a desirable tree species for https://doi.org/10.17221/178/2022-JFS use in stand reconstructions as underplanting under dying Norway spruce stands (Simon et al 2006;Vencurik et al 2015). The appropriate way may be to plant silver fir in the mixture with rowan tree (Sorbus aucuparia) which offers the desired protective shelter but does not substantially inhibit the growth of fir (Kacálek et al 2023).…”

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confidence: 99%

Intensive initial care of silver fir using improving compounds: A way to support diverse forests?

Suraweera¹,

Baláš²,

Gallo³

et al. 2023

J. For. Sci.

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In some cases, it is difficult to promote climax tree species in the forest stand composition. In the Czech Republic, silver fir (Abies alba Mill.) is a typical example. This study offers an evaluation of the use of two improving compounds for tree plantations in the initial stage of growth in Central Bohemia. In the experiment, we measured the initial growth performance of a young fir plantation treated with a brassinolide compound (concentration 1 : 100 and 1 : 200) and Bio-Algeen ® prior to planting and compared it with control treatment: we assessed height, root collar diameter, vitality and mortality rate during the period 2014-2019. Cumulative mortality rate of the plantation reached 25% at the end of the monitoring period, without any significant differences between variants. Height increment of the variant treated with Bio-Algeen ® was significantly (P < 0.05) lower than the growth of brassinolide-treated variants, all treated variants were comparable with the control variant. The plantation underwent a drought-stress period in 2014 and 2015, which resulted in worsened vitality and colour across variants. As a result of the simple economic analysis, the most expensive inputs are planting stock and labour, therefore the price and application of additional substances should not affect decision-making.

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Growth dynamics of the Norway spruce and silver fir understory in continuous cover forestry

Cited by 6 publications

References 39 publications

Growth analysis of the lower layer trees in forest stands under conversion in the Starohorské vrchy Mts.: A case study

Growth analysis of the lower layer trees in forest stands under conversion in the Starohorské vrchy Mts.: A case study

Life histories of Abies alba and Picea abies growing in old-growth forests driven by natural gap-phase dynamics

Intensive initial care of silver fir using improving compounds: A way to support diverse forests?

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