Nitrate leaching from agricultural systems constitutes a severe environmental effect in regions with valuable groundwater resources and vulnerable aquatic ecosystems. Therefore cropping systems should in many parts of Europe reduce the amount of nitrate leached from the root zone. Since soil nitrogen transformation and loss processes are highly influenced by climate, including temperature and precipitation, estimates of climate change effects on nitrate leaching is in high demand for evaluating future groundwater and surface water protection policies. Modelling studies using both the FASSET and Daisy models for cereal crops as well as arable crop rotations in Denmark have shown increased nitrate leaching under projected climate change. Sens...
In this study, a global vegetation model (LPJ-GUESS) is forced with spatial information (Nomenclatur...
A spatially explicit dynamic model was developed that combines water quantity and quality processes ...
Climate change might have profound effects on the nitrogen (N) dynamics in the cultivated landscape ...
A model analysis of catch crop effects on nitrate leaching was carried out covering three soil types...
Climatic changes will influence the possibilities for agricultural production (e.g. longer growing s...
Nitrate (NO3) leaching from agriculture represents the primary source of groundwater contamination a...
Nitrate concentrations in groundwater are already a serious problem with many groundwater abstractio...
Nitrate water pollution, which is mainly caused by excess nitrogen fertiliser application on agricul...
This paper reviews the potential impacts of climate change on nitrate concentrations in groundwater ...
The impact of climate change on agricultural systems is a major concern as it can have a significant...
Climate change will impact agricultural production both directly and indirectly, but uncertainties r...
The termination date is recognized as a key management factor to enhance cover crops for multiple be...
The decrease in nitrogen (N) use in agriculture led to improvement of upper groundwater quality in t...
Elevated carbon dioxide levels, caused by anthropogenic emissions of carbon dioxide to the atmospher...
The mass transport model TEOTIL was used to project nitrate (NO3) fluxes from the Tovdal River basin...
In this study, a global vegetation model (LPJ-GUESS) is forced with spatial information (Nomenclatur...
A spatially explicit dynamic model was developed that combines water quantity and quality processes ...
Climate change might have profound effects on the nitrogen (N) dynamics in the cultivated landscape ...
A model analysis of catch crop effects on nitrate leaching was carried out covering three soil types...
Climatic changes will influence the possibilities for agricultural production (e.g. longer growing s...
Nitrate (NO3) leaching from agriculture represents the primary source of groundwater contamination a...
Nitrate concentrations in groundwater are already a serious problem with many groundwater abstractio...
Nitrate water pollution, which is mainly caused by excess nitrogen fertiliser application on agricul...
This paper reviews the potential impacts of climate change on nitrate concentrations in groundwater ...
The impact of climate change on agricultural systems is a major concern as it can have a significant...
Climate change will impact agricultural production both directly and indirectly, but uncertainties r...
The termination date is recognized as a key management factor to enhance cover crops for multiple be...
The decrease in nitrogen (N) use in agriculture led to improvement of upper groundwater quality in t...
Elevated carbon dioxide levels, caused by anthropogenic emissions of carbon dioxide to the atmospher...
The mass transport model TEOTIL was used to project nitrate (NO3) fluxes from the Tovdal River basin...
In this study, a global vegetation model (LPJ-GUESS) is forced with spatial information (Nomenclatur...
A spatially explicit dynamic model was developed that combines water quantity and quality processes ...
Climate change might have profound effects on the nitrogen (N) dynamics in the cultivated landscape ...