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Environmental pollution by technogenic chemical elements is a significant problem of modern industrial cities. To determine remediation measures it is necessary to have information on heavy metal pollution of all industrial and public facilities of cities, adjacent territories, and soils in parks and city lawns. Content of chemical elements in soil and their concentrations are in close genetic relationship with the lithosphere (bedrock), atmosphere, biosphere and hydrosphere and show constant exchange of matter an...

This work delves into the process of phenolic oxidation products rdistribution in Nitisols Ferralic and Humic Cambisols, which were modified by (14C) introduced tea biomass. Metabolites derived from tea biomass were found to interact with humic and fulvic acids and form covalent bonds with them. The study of quantitative aspects of the inclusion of phenolic substances in the chemical composition of humic and fulvic acids reveals that humic acids incorporate a significantly greater amount of the radioactive tracer ...

The studies using (14C)-labeled tea (Tea Sinensis) biomass have demonstrated that tea biomass is degraded in red (Nitisols Ferralic) and brown forest (Humic Cambisols) soils. The application of manganese sludge and manganese sulfate (MnSO4) in these soils increases the mineralization in both soil taxa evidencing an active participation of Mn ions in the degradation of phenolic substances. When applying manganese sludge and/or MnSO4 to the experimental samples, most of 14CO2 is released during the first 60 days as ...