The aim of the study is to analyse effects of nitrogen deposition on tree g
rowth and soil nutrients in boreal Scots pine stands. We describe a model '
Forest Element Fluxes' (FEF) which is based on theories of carbon and nutri
ent metabolism of trees, decomposition of soil organic matter (SOM), and so
lution chemistry in forest soil. The main idea is that element fluxes and r
egularities in tree structure determine soil development and stand growth.
Tree roots, microbes which immobilise nitrogen (N) or nitrify NH4+, and cat
ion exchange sites compete for inorganic N. Hydrological balance and chemic
al reactions, for example cation-exchange reactions and bicarbonate equilib
rium, determine the leaching of N, H+, Al, Ca, Mg and K to surface waters.
Observed leaching of N to brooks after clear-cutting was used to calibrate
immobilisation of nitrogen. The model behaviour was tested by comparing the
model outputs to stand growth at sites of different fertility. The model g
enerated the stemwood production at the different sites, and the increase i
n nitrogen leaching after clear-cut. The analysis suggests that increase in
nitrogen deposition has increased tree growth by 12%, but it is evident th
at other nutrients will become crucial with the present nitrogen deposition
. The present accumulation of nitrogen in forest soil will lead to major ch
anges in forest growth, nutrient availability and nitrogen leaching.