1.Material and energy flows in the system: the lithosphere, hydrosphere, atmosphere, biosphere.
2.Methods for indetification of geochemical background.
3.Biogenic and anthropogenic components of the environment.
4.Natural cycles of nitrogen, sulphur, carbon, and their influence by human activities.
5.Critical acidification loads, critical loads of hazardous elements.
6.Accumulation and deficiency of chemical elements, the impact on human health.
7.Enrichment factor – utilisation in evaluation of contamination of environment, enrichment in relationship mineral raw materials x end product.
8.Total solid particles (TSP) phase analysis, particle geochemistry, environmental and ecotoxicological risk.
9.Geochemistry of landscapes, urban and industrial areas.
10.Geochemistry of technogenic mineral phases
11.Geochemistry of energy by-products, wastes from metallurgical activities
12.Geochemistry of urban soils
13.Geochemistry of sediments
14.Modern instrumental methods and methods of phase analysis
2.Methods for indetification of geochemical background.
3.Biogenic and anthropogenic components of the environment.
4.Natural cycles of nitrogen, sulphur, carbon, and their influence by human activities.
5.Critical acidification loads, critical loads of hazardous elements.
6.Accumulation and deficiency of chemical elements, the impact on human health.
7.Enrichment factor – utilisation in evaluation of contamination of environment, enrichment in relationship mineral raw materials x end product.
8.Total solid particles (TSP) phase analysis, particle geochemistry, environmental and ecotoxicological risk.
9.Geochemistry of landscapes, urban and industrial areas.
10.Geochemistry of technogenic mineral phases
11.Geochemistry of energy by-products, wastes from metallurgical activities
12.Geochemistry of urban soils
13.Geochemistry of sediments
14.Modern instrumental methods and methods of phase analysis