By: Satu Kilpinen
Research on unmanaged forests provides understanding of the structure, dynamics and ecology of natural forest ecosystems. This understanding can be utilized for planning sustainable forest management, conservation measures, or for assessing human impact on forests. Natural disturbance dynamics can be used as a model in forest management, for example in the planning of restoration activities or commercial forest cuttings.
In this study, we quantified and analyzed the disturbance history of four different forest stands in southern boreal forests of Russian Karelia. Our aims were to determine the disturbance frequency, intensity and range in different spatial scales, and to explore the connection between disturbance quality and forest characteristics. We used standard dendroecological methods (i.e. tree-rings) to record growth releases and gap recruitment from individual trees, indicating past disturbance. With this information, we reconstructed a disturbance chronology for each stand over the past two or three centuries.
Two of the studied forest sites were spruce-dominated and one pine-dominated stand. One stand represented mixed-forests with quite an even mix of pine, larch, spruce and birch trees. The age structure of the forests was uneven-aged in three of the sites. The fourth site was an exception, characterized by dominance of Scots pine, and relatively even-aged trees (80-100 years). The disturbance chronologies showed significant variation in spatial and temporal scales between sites and sample plots. During the last 2-3 centuries, all the sites had low (0-20%) to moderate (20-40%) or low to high severity (>40%) disturbances (Fig.). All the sites had gone through a stand-scale disturbance (i.e. disturbance recorded throughout the stand), but no evidence on regional scale disturbance was found. We found no clear connection between forest characteristics and disturbance quality, albeit the data may have been too small to detect any strong interdependence.
The disturbance dynamics in the forests studied showed remarkable variability in disturbance frequency, intensity, and range. The results emphasize the natural heterogeneity and variance related to forest structure, composition and disturbance history. While these results back up the prior understanding of the disturbance regime in the Karelian region, they also give us a better possibility to reflect the changing future conditions and address the important questions for upcoming research. For example, if the past natural disturbance dynamics has been more driven by local conditions and events than regional climate conditions, will this remain with the ongoing climate change? And to what extent, is it possible (or desirable), to preserve the variable natural disturbance dynamics and characteristics of forests along with the diminishing natural forest area and increasing human impact?
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