Add to ORKGIn this study, climate scenarios (dry, medium and wet) have been used to characterize changing climatic and flow conditions for the period 2050-2054 in the 4th order River Weisse Elster in Germany. Present and future periods of nitrogen turnover were simulated with the WASPS river water quality model. Results revealed that, for a dry climate scenario, the mean denitrification rate was 71% higher during summer (low flow period between 2050 and 2054) and 51% higher during winter (high flow period) compared to the reference period. In the 42-km study reach, N-retention through denitrification amounted to 5.1% of the upper boundary N load during summer low flow conditions during the reference period. For the future dry climate scenario, this va...
The removal of excessive nitrogen (nitrogen retention) is an important service that the aquatic ecos...
Flows along the upper Qu’Appelle River are expected to increase in the future via increased discharg...
Eco-hydrological water quality modeling for integrated water resources management of river basins sh...
In this study, climate scenarios (dry, medium and wet) have been used to characterize changing clima...
In this study, climate scenarios (dry, medium and wet) have been used to characterize changing clima...
Climate induced changes of temperature, discharge and nitrogen concentration may change natural deni...
Abstract Nitrogen (N) transport from land to rivers, estuaries, and coastal marine systems has been ...
The impacts of climate change on nitrogen (N) in a lowland chalk stream are investigated using a dyn...
The mass transport model TEOTIL was used to project nitrate (NO3) fluxes from the Tovdal River basin...
The German Elbe basin is characterised by low water availability and high nutrient loads in its rive...
Climate change might have profound effects on the nitrogen (N) dynamics in the cultivated landscape ...
In 2018–2019, large parts of Europe experienced an unprecedented multi-year drought with severe impa...
The dramatic increase of bioreactive nitrogen entering the Earth's ecosystems continues to attract g...
In this chapter, we describe how we used an established catchment model to quantify the effects of b...
Water scarcity is one of the problems in water management that hinders European rivers in reaching a...
The removal of excessive nitrogen (nitrogen retention) is an important service that the aquatic ecos...
Flows along the upper Qu’Appelle River are expected to increase in the future via increased discharg...
Eco-hydrological water quality modeling for integrated water resources management of river basins sh...
In this study, climate scenarios (dry, medium and wet) have been used to characterize changing clima...
In this study, climate scenarios (dry, medium and wet) have been used to characterize changing clima...
Climate induced changes of temperature, discharge and nitrogen concentration may change natural deni...
Abstract Nitrogen (N) transport from land to rivers, estuaries, and coastal marine systems has been ...
The impacts of climate change on nitrogen (N) in a lowland chalk stream are investigated using a dyn...
The mass transport model TEOTIL was used to project nitrate (NO3) fluxes from the Tovdal River basin...
The German Elbe basin is characterised by low water availability and high nutrient loads in its rive...
Climate change might have profound effects on the nitrogen (N) dynamics in the cultivated landscape ...
In 2018–2019, large parts of Europe experienced an unprecedented multi-year drought with severe impa...
The dramatic increase of bioreactive nitrogen entering the Earth's ecosystems continues to attract g...
In this chapter, we describe how we used an established catchment model to quantify the effects of b...
Water scarcity is one of the problems in water management that hinders European rivers in reaching a...
The removal of excessive nitrogen (nitrogen retention) is an important service that the aquatic ecos...
Flows along the upper Qu’Appelle River are expected to increase in the future via increased discharg...
Eco-hydrological water quality modeling for integrated water resources management of river basins sh...