Uptake of nutrients and heavy metals by pine trees under atmospheric pollution

Pollution-induced changes in concentrations of elements in pine needles, branches, stem bark, and wood were investigated on 12 plots along the pollution gradient at distances of 5 to 77 km from the Pechenganikel copper-nickel smelter on the Kola Peninsula (northwestern Russia), the largest emitter of sulfur and heavy metals in northern Europe. Close to the pollution source, concentrations of S, Ni, Cu, Pb, and Cd in all the pine compartments were higher as compared to their background levels, while the Zn concentrations were lower. The concentrations of Ni and Cd—the main metals emitted—were the highest in all the pine compartments. Age-related variations in the needle composition were comparable to those at the background plots. Branches and, especially, stem bark, were richer in heavy metals than other tissues and, in addition to wood, contributed significantly to the accumulation of metals in the biomass of the polluted pine forests. Changes in the chemical composition of plant tissues could be explained by changes in element concentrations in the soils and by direct element uptake from the air, as well as by the antagonistic relationships between the elements.