Nitrate analysis in the Seine Basin, France Arielle Mimouni GIS in Water Resources 11-21-2013.

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Presentation transcript:

Nitrate analysis in the Seine Basin, France Arielle Mimouni GIS in Water Resources

Why Nitrate -Nitrogen-containing compounds are an essential source of nutrients and organic matters - Nitrogen forms : NH4-NH3/NO2-NO3 -Oxidation of reduced nitrogen consumes O 2 and causes eutrophication -NH4+ harmful to fish -NO3 can cause Blue Baby Syndrome

Total catchment area of the Seine : km 2 Length of the Seine : 776 km from Northeastern France to the English Channel

The Seine Basin in France Paris conurbation : 10 million inhabitants – 2.1 million in Paris Very urban area in Paris, and intensive agricultural area in surroundings of Paris

Data Ahmad Tavakoly has generated daily nitrogen leaching in the Seine for 39 years ( ) and 6481 cells covering the river network

Modeling Nitrogen Eau-Dyssée : calculates hydrological parameters : flow, runoff, water level… STICS : calculates water, carbon, and nitrogen within the crop-soil system Results: nitrogen load to river due to runoff and groundwater

Coupling Eau-Dyssée and STICS Slide provided by Ahmad Tavakoly

My contribution to the project a.Spatial and Temporal analysis of the nitrogen leaching to the river b.Study of the possible impacts of wastewater treatment plants effluents on nitrate load to the river

Leaching nitrate in 2009 in the Seine River 3000 cells with daily nitrate leaching to represent January,1 st 2009

High Nitrate loads to the river correspond to intensive agriculture areas Low nitrate loads for the urban area of Paris Red : urban area Green : forests Yellow : agricultural area Spatial analysis

Temporal analysis High surface water runoffs correspond to high nitrate loads to the river

Wastewater Treatment plants in the Seine Basin 2596 wwtp in the Seine Basin

Wastewater treatment plants in the Seine Basin Selection of relevant data : -If effluent in river (85% of WWTP in rivers/15% in groundwater) -10% largest emitter of NO3 -Within 1 km of a river cell

In , 4 WWTP to treat wastewater from Paris -> Today, Paris: Combined sewerage network :160 km of collectors 10 to 100 m underground collectors leading to WWTP Outside of Paris area : separate networks : only wastewater goes to WWTP

WWTP and Urbanization Red : urban and industrial areas Large treatment of NO3 by WWTP corresponds to urban areas

High population density corresponds to high loads of NO3 in WWTP

4 WWTP treat influents from Paris : -Seine Aval (downstream) - Seine Centre -Seine Amont (upstream) -Marne Aval High population density corresponds to high loads of NO3 in WWTP

Focus on Seine-Amont Increase in population in 2006 > increase in nitrate load to the wwtp

Conclusions and Future Work Conclusions: Non point sources of Nitrate: (important Paris periphery) -Effects of land use on nitrate loads to the river -Effects of precipitations on nitrate loads to the river Point sources of Nitrate: (important in Paris area) - Effects of population density on wwtp nitrate load Next steps : Quantitatively analyze the impacts of nitrate loads from wwtp in the river Formulate recommendations if they need to be taken into account in the overall nitrate modeling

Thank you to Ahmad Thank you to Carlos and Denny Questions ?

Paris sewage system in the 1884 and today – Collectors of 2.5 to 4 m diameter.