Distribution of 36 Element Deposition Rates in a Historic Mining and Smelting Area as Determined Through Fine-Scale Biomonitoring Techniques Part II: Relative Long-Term Accumulated Atmospheric Deposition Levels

The content of 36 elements in the H horizon of coniferous forest floor humus was determined for 56 sampling plots situated in linear transects running out radially to a distance of 14 km from a lead smelter. Fine-scale contour maps of element content in humus revealed five types of basic patterns for the positions of hot spots. Using PCA and contour maps the following four dominant pollution sources were identified that had influenced the accumulation of some elements in humus in the area (615 km2): operation of a lead smelter (Ag, Bi, Cd, Cu, Fe, Hg, In, Pb, S, Sb, Zn), gravel production from stones from uranium pit heaps (Al, Be, Co, Cr, Ga, Mn, Sc, Se, Th, U, V), operation of works processing heat resistant steel (Mo) and anthropogenic or local geogenic factors (Ce, Co, La, Nd, Pr, Y). Except in the case of Pb, Cd, Zn, (As, Hg), high current and long-term accumulated loads of the other elements named above have not previously been indicated in the literature for this area. In addition, no patterns of accumulated elements in humus in details of registers and allotments are known for this area. The interpolated hot spot area for heavy forest humus contamination was found to be 5–80 km2, however, U, Cd and Pb were highly accumulated in humus at 100, 320 and more than 630 km2, respectively. At a distance of 200 m and 22 km windward and 600 m and 22 km leeward from the lead smelter, the Pb content in the forest floor humus was 78 500 and 131 μg g-1 windward and 81 050 and 175 μg g-1 leeward, respectively. The normal Pb content in forest floor humus is less than 100 μg g-1 in the Czech Republic. Also patterns of accumulated elements in humus in details of registers and allotments have not been known for the area up to now. The distributions of the long-term accumulated elements in humus related to the distance from the source could be described nearly perfectly by exponential equations, while elevation, topography, leeward/windward exposure, and the geology of the sampling plots have not significantly influenced accumulation ofmost elements. Results of the forest floor humus analysis were fully supported by the parallel moss monitoring results. Humus monitoringtechniques can reliably determine the long-term effects of pollutionsources and reveal the hidden accumulated loads of elements in details in the landscape.