Abstract
Abstract Species composition along with spatial and age structure are the main attributes of forest ecosystems. The diversity of scree forests and herb-rich beech forests was analyzed in the Broumovsko Protected Landscape Area, the Czech Republic. The paper objective was to evaluate forest structure and dynamics of species diversity of tree layer, natural regeneration and herb layer in the period 1961–2016. Scree forests were structurally, and species very rich forest stands, in herb-rich beech forests the stands were of medium richness. Studied stands managed by small-scale methods, in the past especially by coppicing and later by shelterwood and selection felling, have maintained high species biodiversity during the 55 years of observation. Substantially higher biodiversity was found out in scree forests compared to herb-rich beech forests. Based on the comparison of predominantly coppiced forest stand and stand of generative origin at sites of scree forests, coppice have maintained higher biodiversity than high forests. Species richness increased during the observation period, but species evenness had mostly decreasing tendency. Species heterogeneity in coppiced scree forests increased in tree layer and natural regeneration, but it decreased in herb layer; inverse dynamics was observed in the high forests. Changes in biodiversity dynamics were remarkable for coppice, while high forests showed relatively high level of stability. During study period herb population of light-demanding species and species characteristic for broadleaved forests decreased, while an increase in shade tolerant, moisture-demanding and nutrient-demanding species, especially nitrophilous species was confirmed. Moreover, occurrence of thermophilic plants increased, respectively cold-tolerant plant population decreased in relation to climate change.
Highlights
Conservation of biological diversity is a crucial goal for sustainable management in forests (Piussi & Farrell 2000; Specker 2003; Machar et al 2017)
The tree layer was composed by three dominant species: European beech (Fagus sylvatica L.), Sycamore maple (Acer pseudoplatanus L.) and small-leaved lime (Tilia cordata Mill.; Table 3, Fig. 2)
The dynamics of parameters in the course of 55 years was remarkable especially for coppice stands on the permanent research plots (PRP) 5, as marks of each record are relatively distant from one another, whereas marks for PRP 2 and 3 representing the high forests were relatively close together in the diagram
Summary
Conservation of biological diversity is a crucial goal for sustainable management in forests (Piussi & Farrell 2000; Specker 2003; Machar et al 2017). This is consistent with the present trend of forest management in Europe supporting higher biological diversity by the increased use of natural regeneration and creation of a higher proportion of mixed forests (Matuszkiewicz et al 2013; Slanař et al 2017). The tree species composition of forest stands is affected by many factors and requirements of the particular tree species These mechanisms may have a direct influence on self-regulatory changes in the species composition and a mutual interaction in forest stands (Wilson 2011; Vacek 2014b).
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