Long-term dynamics of stand structure and regeneration in high-stocked selection fir-beech forest stand: Croatian Dinarides case study

Long-term dynamics of stand structure and regeneration in high-stocked selection fir-beech forest stand: Croatian Dinarides case study

In recent decades, changes in stand structure in Central European fir-beech forests, such as accumulation of large-diameter firs, fir dieback, and poor regeneration, have been well documented. Besides environmental factors, light harvesting was suggested as one of the main drivers of the negative st...

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Main Authors: Cavlović J, Teslak K, Beljan K, Vedriš M, Andabaka M
Format: Article
Language:English
Published: Italian Society of Silviculture and Forest Ecology (SISEF) 2021-08-01
Series:iForest - Biogeosciences and Forestry
Subjects:
Selection Harvest
Stand Growth Simulator
Development of DBH Distribution
Tree Species Composition
Natural Regeneration
Old-growth Structure
Online Access:https://iforest.sisef.org/contents/?id=ifor3638-014
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spelling doaj-c653f14c5223468db4cf440257ac65a12021-08-24T11:37:12ZengItalian Society of Silviculture and Forest Ecology (SISEF)iForest - Biogeosciences and Forestry1971-74582021-08-0114138339210.3832/ifor3638-0143638Long-term dynamics of stand structure and regeneration in high-stocked selection fir-beech forest stand: Croatian Dinarides case studyCavlović J0Teslak K1Beljan K2Vedriš M3Andabaka M4Department of Forest Inventory and Management, University of Zagreb, Faculty of Forestry and Wood Technology, Zagreb - CroatiaDepartment of Forest Inventory and Management, University of Zagreb, Faculty of Forestry and Wood Technology, Zagreb - CroatiaDepartment of Forest Inventory and Management, University of Zagreb, Faculty of Forestry and Wood Technology, Zagreb - CroatiaDepartment of Forest Inventory and Management, University of Zagreb, Faculty of Forestry and Wood Technology, Zagreb - CroatiaDepartment of Forest Inventory and Management, University of Zagreb, Faculty of Forestry and Wood Technology, Zagreb - CroatiaIn recent decades, changes in stand structure in Central European fir-beech forests, such as accumulation of large-diameter firs, fir dieback, and poor regeneration, have been well documented. Besides environmental factors, light harvesting was suggested as one of the main drivers of the negative structural dynamics of these forests in Croatia. This study applied the MOSES 3.0 stand simulator on permanent sample plot data to reconstruct stand development over the past 20 years and simulate long-term projections of selection stand structure and regeneration with respect to theoretical values, using three management regimes differing by the applied harvesting intensity (traditionally applied, theoretical intensity, and no management). Sample plot data from three sets of detailed measurements (1992, 2002, and 2012) were used for validation of the simulator, and eleven 10-year cycles of management were then simulated under the above management scenarios. Results showed a positive influence of harvest intensity on stand regeneration and the achievement of a targeted selection structure in the long term. Two management scenarios predicted a decrease in stand volume (34% and 40%, respectively), an increase in the initial percentage (28%) of beech and maple (58% and 75%, respectively), and the achievement of optimal stand regeneration of 11-13 recruited trees per hectare annually (60% firs). No management scenario could achieve old-growth structure (accumulation of standing stock, large trees, and deadwood). The theoretical intensity scenario was evaluated as the better approach to be applied in this type of forest stands in Croatia.https://iforest.sisef.org/contents/?id=ifor3638-014Selection HarvestStand Growth SimulatorDevelopment of DBH DistributionTree Species CompositionNatural RegenerationOld-growth Structure
collection DOAJ
language English
format Article
sources DOAJ
author Cavlović J
Teslak K
Beljan K
Vedriš M
Andabaka M
spellingShingle Cavlović J
Teslak K
Beljan K
Vedriš M
Andabaka M
Long-term dynamics of stand structure and regeneration in high-stocked selection fir-beech forest stand: Croatian Dinarides case study
iForest - Biogeosciences and Forestry
Selection Harvest
Stand Growth Simulator
Development of DBH Distribution
Tree Species Composition
Natural Regeneration
Old-growth Structure
author_facet Cavlović J
Teslak K
Beljan K
Vedriš M
Andabaka M
author_sort Cavlović J
title Long-term dynamics of stand structure and regeneration in high-stocked selection fir-beech forest stand: Croatian Dinarides case study
title_short Long-term dynamics of stand structure and regeneration in high-stocked selection fir-beech forest stand: Croatian Dinarides case study
title_full Long-term dynamics of stand structure and regeneration in high-stocked selection fir-beech forest stand: Croatian Dinarides case study
title_fullStr Long-term dynamics of stand structure and regeneration in high-stocked selection fir-beech forest stand: Croatian Dinarides case study
title_full_unstemmed Long-term dynamics of stand structure and regeneration in high-stocked selection fir-beech forest stand: Croatian Dinarides case study
title_sort long-term dynamics of stand structure and regeneration in high-stocked selection fir-beech forest stand: croatian dinarides case study
publisher Italian Society of Silviculture and Forest Ecology (SISEF)
series iForest - Biogeosciences and Forestry
issn 1971-7458
publishDate 2021-08-01
description In recent decades, changes in stand structure in Central European fir-beech forests, such as accumulation of large-diameter firs, fir dieback, and poor regeneration, have been well documented. Besides environmental factors, light harvesting was suggested as one of the main drivers of the negative structural dynamics of these forests in Croatia. This study applied the MOSES 3.0 stand simulator on permanent sample plot data to reconstruct stand development over the past 20 years and simulate long-term projections of selection stand structure and regeneration with respect to theoretical values, using three management regimes differing by the applied harvesting intensity (traditionally applied, theoretical intensity, and no management). Sample plot data from three sets of detailed measurements (1992, 2002, and 2012) were used for validation of the simulator, and eleven 10-year cycles of management were then simulated under the above management scenarios. Results showed a positive influence of harvest intensity on stand regeneration and the achievement of a targeted selection structure in the long term. Two management scenarios predicted a decrease in stand volume (34% and 40%, respectively), an increase in the initial percentage (28%) of beech and maple (58% and 75%, respectively), and the achievement of optimal stand regeneration of 11-13 recruited trees per hectare annually (60% firs). No management scenario could achieve old-growth structure (accumulation of standing stock, large trees, and deadwood). The theoretical intensity scenario was evaluated as the better approach to be applied in this type of forest stands in Croatia.
topic Selection Harvest
Stand Growth Simulator
Development of DBH Distribution
Tree Species Composition
Natural Regeneration
Old-growth Structure
url https://iforest.sisef.org/contents/?id=ifor3638-014
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AT teslakk longtermdynamicsofstandstructureandregenerationinhighstockedselectionfirbeechforeststandcroatiandinaridescasestudy
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AT andabakam longtermdynamicsofstandstructureandregenerationinhighstockedselectionfirbeechforeststandcroatiandinaridescasestudy
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