Add to ORKGA simple soil acidification model was applied to evaluate the effects of sulphur and nitrogen emission reductions on the recovery of acidified European forest soils. In addition we included the effects of climate change on soil solution chemistry, by modelling temperature effects on soil chemical processes and including temperature and precipitation effects on nitrogen uptake and on leaching. Model results showed a strong effect of the emission reduction scenarios on soil solution chemistry. Using the Current Legislation (CLE) scenario, the forest area in Europe with soil solution Al/Bc >1 mol mol(-1) (a widely used critical limit) decreased from about 4% in 1990 to about 1.7% in 2050. Under Maximum Feasible Reductions (MFR), the exceede...
Changes in the Earth’s atmosphere are expected to influence the growth, and therefore, carbon accumu...
Changes in the Earth's atmosphere are expected to influence the growth, and therefore, carbon accumu...
Changes in the Earth's atmosphere are expected to influence the growth, and therefore, carbon accumu...
A simple soil acidification model was applied to evaluate the effects of sulphur and nitrogen emissi...
Current climate warming is expected to continue in coming decades, whereas high N deposition may sta...
Current climate warming is expected to continue in coming decades, whereas high N deposition may sta...
The dynamic soil chemistry model SMART was applied to 121 intensive forest monitoring plots (mainly ...
Element cycling and nutrient supply in forest ecosystems are of vital importance for short-term prod...
The dynamic forest ecosystem model ForSAFE was applied at 16 coniferous forest sites in Sweden to in...
International audienceAtmospheric N deposition is known to severely impact forest ecosystem function...
International audienceAtmospheric N deposition is known to severely impact forest ecosystem function...
International audienceAtmospheric N deposition is known to severely impact forest ecosystem function...
International audienceAtmospheric N deposition is known to severely impact forest ecosystem function...
Atmospheric N deposition is known to severely impact forest ecosystem functioning by influencing soi...
Atmospheric N deposition is known to severely impact forest ecosystem functioning by in fl uencing s...
Changes in the Earth’s atmosphere are expected to influence the growth, and therefore, carbon accumu...
Changes in the Earth's atmosphere are expected to influence the growth, and therefore, carbon accumu...
Changes in the Earth's atmosphere are expected to influence the growth, and therefore, carbon accumu...
A simple soil acidification model was applied to evaluate the effects of sulphur and nitrogen emissi...
Current climate warming is expected to continue in coming decades, whereas high N deposition may sta...
Current climate warming is expected to continue in coming decades, whereas high N deposition may sta...
The dynamic soil chemistry model SMART was applied to 121 intensive forest monitoring plots (mainly ...
Element cycling and nutrient supply in forest ecosystems are of vital importance for short-term prod...
The dynamic forest ecosystem model ForSAFE was applied at 16 coniferous forest sites in Sweden to in...
International audienceAtmospheric N deposition is known to severely impact forest ecosystem function...
International audienceAtmospheric N deposition is known to severely impact forest ecosystem function...
International audienceAtmospheric N deposition is known to severely impact forest ecosystem function...
International audienceAtmospheric N deposition is known to severely impact forest ecosystem function...
Atmospheric N deposition is known to severely impact forest ecosystem functioning by influencing soi...
Atmospheric N deposition is known to severely impact forest ecosystem functioning by in fl uencing s...
Changes in the Earth’s atmosphere are expected to influence the growth, and therefore, carbon accumu...
Changes in the Earth's atmosphere are expected to influence the growth, and therefore, carbon accumu...
Changes in the Earth's atmosphere are expected to influence the growth, and therefore, carbon accumu...