Wastewater as a source of nitrifying bacteria in river systems: the case of the River Seine downstream from Paris

Brion, N.; Billen, G.

VLAAMS INSTITUUT VOOR DE ZEE

MARIEN EN KUSTGEBONDEN ONDERZOEK & BELEID IN VLAANDEREN

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Wastewater as a source of nitrifying bacteria in river systems: the case of the River Seine downstream from Paris
Brion, N.; Billen, G. (2000). Wastewater as a source of nitrifying bacteria in river systems: the case of the River Seine downstream from Paris Wat. Res. 34(12): 3213-3221
In: Water Research: Oxford. ISSN 0043-1354, meer

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Brion, N.; Billen, G. (2000). Wastewater as a source of nitrifying bacteria in river systems: the case of the River Seine downstream from Paris, in: (2001). VLIZ Coll. Rep. 31(2001). VLIZ Collected Reprints: Marine and Coastal Research in Flanders, 31: pp. chapter 7 [Subsequent publication], meer

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VLIZ: Open Repository 98771 [ OMA ]

Trefwoorden

Marien; Brak water; Zoet water

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Brion, N. publicatielijst, meer Billen, G. publicatielijst, meer

Abstract

The River Seine downstream from Paris receives large amounts of ammonium (about 200 µmol/l) from treated and untreated wastewater effluents. In such large river systems, due to the slow growth of nitrifying bacteria, the small size of the nitrifying population present in the water column often represents the limiting factor for nitrification of the contaminating ammonium. In this work we demonstrate that discharge of urban effluents can represent an important seeding of nitrifying bacteria, influencing the dynamics of nitrification in the river downstream. A nitrifying bacteria biomass in wastewater was deduced from H¹⁴CO₃^- potential nitrifying activity measurements. these were found to be higher in untreated wastewater (1-200 µgC/l) and in treated effluents (0.8-30 µgC/l) than in the receiving river water (0.5-5 µgC/l). a retrospective analysis of the nitrification process in the River Seine downstream from Paris suggests that the overall ammonium oxidation rate has been continuously reduced over the past 20 years (from 1.5 to 1.0 µmol/l/h), as a result of the improvement of the treatment of Paris wastewater and the reduction of the discharge of untreated wastewater (from 14% to 0.2% of the total wastewater discharge).

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