Abstract
Research Highlights: Past disturbances occurred naturally in primary forests in the Southern Carpathians. High- and moderate-severity disturbances shaped the present structure of these ecosystems, which regenerated successfully without forestry interventions. Background and Objectives: Windstorms and bark beetle outbreaks have recently affected large forest areas across the globe, causing concerns that these disturbances lie outside the range of natural variability of forest ecosystems. This often led to salvage logging inside protected areas, one of the main reasons for primary forest loss in Eastern Europe. Although more than two-thirds of temperate primary forests in Europe are located in the Carpathian region of Eastern Europe, knowledge about how natural disturbances shape the forest dynamics in this region is highly essential for future management decisions. Material and Methods: We established our study in a primary forest valley situated in the centre of the largest temperate primary forest landscape in Europe (Făgăraș Mountains). A dendrochronological investigation was carried out to reconstruct the natural disturbance history and relate it to the present forest structure. Results: The dendrochronological analysis revealed high temporal variability in the disturbance patterns both at the patch and stand level. Moderate severity disturbance events were most common (20–40% of canopy disturbed in 60% of the plots) but high severity events did also occur (33% of the plots). Regeneration was spruce-dominated and 71% of the seedlings were found on deadwood microsites. Conclusions: We conclude that the current structure of the studied area is a consequence of the past moderate-severity disturbances and sporadic high-severity events. The peak in disturbances (1880–1910) followed by reduced disturbance rates may contribute to a recent and future increase in disturbances in the Făgăraș Mts. Our findings show that these disturbance types are within the range of natural variability of mountain spruce forests in the Southern Carpathians and should not be a reason for salvage logging in primary forests from this area.
Highlights
In the context of climate change and consequent shifts in natural disturbance regimes [1,2], long term data about ecological processes is highly essential for future management decisions.Primary forests are a necessary component of understanding natural forest dynamics
Understanding the role of historic disturbance patterns in order to create a solid baseline for management solutions to ongoing and future changes in the forest dynamics represents a key challenge in forest ecology
The relationship between the dendrochronological analysis and the structural values in this study clearly indicates that the present state of the studied area resulted from widespread moderate and high-severity disturbances and local mortality events
Summary
In the context of climate change and consequent shifts in natural disturbance regimes [1,2], long term data about ecological processes is highly essential for future management decisions. Primary forests (forests with no direct human influence) are a necessary component of understanding natural forest dynamics. These ecosystems represent a valuable natural heritage, for their intrinsic value, and as a pool of genetic diversity [3] and a refuge for many endangered or forest-specialist species [4]. Due to changes in structure and dynamics, most of the European managed forests are subject to biodiversity loss [5]. Many recent studies have been conducted to highlight the importance of such forests [3]
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