Nitrogen (N) transport and retention in streams are largely determined by hydrological characteristics (e.g. water runoff, baseflow index (BFI) and flashiness index (FI)) in the catchment. It is important to know the impact of catchment characteristics such as land use, subsurface drainage intensity, elevation difference and catchment size on the hydrological properties and N loss. This paper presents a comparison of the magnitude and variation of the baseflow and flashiness in streams in relation to the selected geographical and drainage characteristics for thirty studied agriculture dominated catchments in the Nordic and Baltic countries and the effects it can have on N loss. The analysis included measured data from the total discharge an...
In this thesis empirical relationships and modeling tools are used to describe the relationship betw...
Monitoring of nutrient losses to surface waters at the small agricultural catchment scale has been c...
A two dimensional model, FEMMA, to describe water and nitrogen (N) fluxes within and from a forested...
Nitrogen (N) transport and retention in streams are largely determined by hydrological characteristi...
This paper describes nitrogen losses from, and the characteristics of. 35 selected catchments (112 t...
Nitrogen (N) and phosphorus (P) losses via agricultural drainage water have negative impacts on rece...
Effects of contrasting climatic conditions and nitrogen (N) deposition levels on streamwater N dynam...
Long-term monitoring data from catchments with relatively uniform land use is important in order to ...
Highlights • Natural conditions and agricultural production determine losses of N and P. • TN ...
Climatic changes will influence the possibilities for agricultural production (e.g. longer growing s...
Land use changes such as lowering of lakes, draining of wetlands and channelizing of streams have af...
Water quality in small agricultural catchments is affected by anthropogenic (crops, field management...
A study of precipitation, runoff and total annual nitrogen concentrations in streamflow was performe...
Reduced emissions of nitrogen (N) in Europe have resulted in decreasing atmospheric deposition since...
Although nitrogen (N) and phosphorus (P) emissions from agricultural diffuse sources and point emiss...
In this thesis empirical relationships and modeling tools are used to describe the relationship betw...
Monitoring of nutrient losses to surface waters at the small agricultural catchment scale has been c...
A two dimensional model, FEMMA, to describe water and nitrogen (N) fluxes within and from a forested...
Nitrogen (N) transport and retention in streams are largely determined by hydrological characteristi...
This paper describes nitrogen losses from, and the characteristics of. 35 selected catchments (112 t...
Nitrogen (N) and phosphorus (P) losses via agricultural drainage water have negative impacts on rece...
Effects of contrasting climatic conditions and nitrogen (N) deposition levels on streamwater N dynam...
Long-term monitoring data from catchments with relatively uniform land use is important in order to ...
Highlights • Natural conditions and agricultural production determine losses of N and P. • TN ...
Climatic changes will influence the possibilities for agricultural production (e.g. longer growing s...
Land use changes such as lowering of lakes, draining of wetlands and channelizing of streams have af...
Water quality in small agricultural catchments is affected by anthropogenic (crops, field management...
A study of precipitation, runoff and total annual nitrogen concentrations in streamflow was performe...
Reduced emissions of nitrogen (N) in Europe have resulted in decreasing atmospheric deposition since...
Although nitrogen (N) and phosphorus (P) emissions from agricultural diffuse sources and point emiss...
In this thesis empirical relationships and modeling tools are used to describe the relationship betw...
Monitoring of nutrient losses to surface waters at the small agricultural catchment scale has been c...
A two dimensional model, FEMMA, to describe water and nitrogen (N) fluxes within and from a forested...