The aim of our research was to determine the role of heavily decomposed deadwood in the shaping of accumulation of polycyclic aromatic hydrocarbons (PAHs) in mountain forest ecosystems. The study included heavily decomposed spruce wood located in lower and higher mountain locations (600 and 1200 m a.s.l.) and at the south (S) and north (N) exposure. The accumulation of PAHs in deadwood was compared to the accumulation of PAHs in surface soil horizons in the immediate vicinity of decaying wood and in soils unaffected by decaying wood. Basic chemical properties and enzymatic activity were determined in wood and soil samples. The conducted research indicates the importance of decaying wood for the formation of PAHs accumulation in mountain forest soils. The lowest content of PAHs was recorded in samples of heavily decomposed wood, which at the same time was characterized by the highest enzymatic activity. Significantly higher PAHs content was recorded in soils unaffected by components released from decaying wood. Our research confirmed the importance of location conditions (exposure, altitude) in shaping PAHs accumulation. The highest mountain locations (1200 m a.s.l.) to N exposure were characterized by the highest accumulation of PAHs.
Keywords: Coarse woody debris; Deadwood; Enzyme activity; Mountains forest ecosystem; Soil properties.
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