Add to ORKGElevated carbon dioxide levels, caused by anthropogenic emissions of carbon dioxide to the atmosphere, and higher temperature may lead to increased plant growth and uptake to nitrogen, but increased temperature may lead to increased nitrogen mineralisation causing enhanced nitrogen leaching. The overall result of both counteracting effects is largely unknown. To gain insight into the long-term effects, the geochemical model SMART2 was applied using data from the catchment-scale experiments of the RAIN and CLIMEX projects, conducted on boreal forest ecosystems at Risdalsheia, southern Norway. These unique experiments at the ecosystem scale provide information on the short-term effects and interactions of nitrogen deposition and increased tem...
To study global nitrogen (N) leaching from natural ecosystems under changing N deposition, climate, ...
To study global nitrogen (N) leaching from natural ecosystems under changing N deposition, climate, ...
High nitrate (NO3) leaching rates have been observed in mountain and heathland areas in Europe at si...
Elevated carbon dioxide levels, caused by anthropogenic emissions of carbon dioxide to the atmospher...
Model predictions on the response of soil processes to global warming are mostly inferred from small...
Several studies show that increases in soil temperature result in higher N mineralization rates in s...
International audienceThe catchment scale-experiments of the RAIN and CLIMEX projects conducted on b...
Changes in the Earth’s atmosphere are expected to influence the growth, and therefore, carbon accumu...
Current climate warming is expected to continue in coming decades, whereas high N deposition may sta...
To evaluate the effects of climate change on boreal forest ecosystems, both atmospheric CO2 (to 560 ...
Nitrate leaching from agricultural systems constitutes a severe environmental effect in regions with...
A simple soil acidification model was applied to evaluate the effects of sulphur and nitrogen emissi...
Increased emissions of nitrogen compounds have led to atmospheric deposition to forest soils exceedi...
The RAIN and CLIMEX experiments at Risdalsheia, southernmost Norway, together cover 17 years (1984-2...
Atmospheric N deposition is known to severely impact forest ecosystem functioning by influencing soi...
To study global nitrogen (N) leaching from natural ecosystems under changing N deposition, climate, ...
To study global nitrogen (N) leaching from natural ecosystems under changing N deposition, climate, ...
High nitrate (NO3) leaching rates have been observed in mountain and heathland areas in Europe at si...
Elevated carbon dioxide levels, caused by anthropogenic emissions of carbon dioxide to the atmospher...
Model predictions on the response of soil processes to global warming are mostly inferred from small...
Several studies show that increases in soil temperature result in higher N mineralization rates in s...
International audienceThe catchment scale-experiments of the RAIN and CLIMEX projects conducted on b...
Changes in the Earth’s atmosphere are expected to influence the growth, and therefore, carbon accumu...
Current climate warming is expected to continue in coming decades, whereas high N deposition may sta...
To evaluate the effects of climate change on boreal forest ecosystems, both atmospheric CO2 (to 560 ...
Nitrate leaching from agricultural systems constitutes a severe environmental effect in regions with...
A simple soil acidification model was applied to evaluate the effects of sulphur and nitrogen emissi...
Increased emissions of nitrogen compounds have led to atmospheric deposition to forest soils exceedi...
The RAIN and CLIMEX experiments at Risdalsheia, southernmost Norway, together cover 17 years (1984-2...
Atmospheric N deposition is known to severely impact forest ecosystem functioning by influencing soi...
To study global nitrogen (N) leaching from natural ecosystems under changing N deposition, climate, ...
To study global nitrogen (N) leaching from natural ecosystems under changing N deposition, climate, ...
High nitrate (NO3) leaching rates have been observed in mountain and heathland areas in Europe at si...