Supply of organic matter and bacteria to aquatic ecosystems through waste water effluents

In order to study the impact on the river Seine of the waste water effluent s from the city of Paris and its suburbs, a detailed characterisation was m ade of both raw and treated effluents from the three main treatment plants in this area which differ both in size and type of treatment. The waste wat er samples were subjected to analyses of the following pools of carbon: dis solved organic carbon (DOC), particulate organic carbon (POC), biodegradabl e fractions of DOC (BDOC) and of POC (BPOC), the biochemical oxygen demand (BOD). Inorganic and organic forms of nitrogen and phosphorous, total bacte rial biomass and nitrifying bacterial biomass were also investigated in par allel. On the basis of the results of the analysis performed, a specific lo ad per inhabitant and per day (expressed in g inh(-1) d(-1)) for raw and th e different types of treated waste water was calculated for each variable c onsidered in this study. For raw water, the specific loads of TOC ranged be tween 26.4 and 28.3 g C inh(-1) d(-1) with particulate organic matter const ituting the main part (70-76%) and the biodegradable fraction representing between 60 and 75%. Concerning micro-organisms, the average specific load o f total bacteria was around 2 g C of biomass inh(-1) d(-1), the nitrifying biomass represented 0.3-2.5% of the total bacterial biomass. Depending on t he type of treatment, the specific load of TOC in treated water ranged betw een 3 and 10.8 g C inh(-1) d(-1), it corresponded to removal percentages in the range 59-89%. Total bacterial biomass (0.05-0.33 g C inh(-1) d(-1)) wa s always lower in treated than in raw water. A significant correlation was observed between BTOC (sum of BDOC and BOPC) and BOD. BPOC represented 68% of BTOC in raw water and 43% in treated water. The total biomass of bacteri a constituted 8% of the BTOC. (C) 1999 Elsevier Science Ltd. All rights res erved.