The chemical response of European forest soils to three emission-depos
ition scenarios for the years 1960-2050, i.e. official energy pathways
(OEP), current reduction plans (CRP) and maximum feasible reductions
(MFR), was evaluated with the SMART model (Simulation Model for Acidif
ication's Regional Trends). Calculations were made for coniferous and
deciduous forests on 80 soil types occurring on the FAO soil map of Eu
rope, using a gridnet of 1.0 degrees longitude x 0.5 degrees latitude.
Results indicated that the area with nitrogen saturated soils, i.e. s
oils with elevated NO3 concentrations (> 0.02 mol(c) m(-3)) will incre
ase in the future for all scenarios, even for the MFR scenario. The ar
ea with acidified soils, with a high Al concentration (> 0.2 mol(c) m(
-3)) and Al/BC ratio (> 1 mol mol(-1)) and a low pH (< 4) and base sat
uration (< 5%), was predicted to increase for the OEP scenario and to
decrease for the MFR scenario. The CRP scenario resulted in a continuo
us increase in the forested area with an Al/BC ratio above critical va
lues. A small decrease was predicted in the area exceeding a critical
Al concentration up to the year 2000 followed by a slight increase aft
er 2000. Areas with very high NO3 and Al concentrations mainly occurre
d in western, central and eastern Europe. Uncertainties in the initial
values of C/N ratios and base saturation, and in the description of N
dynamics in the SMART model had the largest impact on the temporal de
velopment of forested areas exceeding critical parameter values. Despi
te uncertainties involved, predicted general trends are plausible and
reliable.