STARDUST II - Spatial and Temporal Assessment
of high Resolution Depth profiles Using novel Sampling Technologies The fate of pollutants in fluvial and marine sediments in cross-border zones
Potential and limits of stable isotopes (d18O and dD) to detect parasitic water in sewers of oceanic climate cities
De Bondt, K.; Seveno, F.; Petrucci, G.; Rodríguez, F.; Joannis, C.; Claeys, P. (2018). Potential and limits of stable isotopes (d18O and dD) to detect parasitic water in sewers of oceanic climate cities. Journal of Hydrology: Regional Studies 18: 119-142. https://dx.doi.org/10.1016/j.ejrh.2018.06.001
Study regionBrussels (Belgium) and Nantes (France), two cities located in oceanic settings.Study focusThe article assesses the capabilities of detecting the presence of groundwater in sewers and waste-water in storm sewers (also called parasitic waters), which increase sewer-overflows risk, augment the water-treatment plant operation costs and pollute downstream rivers. This is done by means of Laser Absorption Spectroscopy (LAS) instruments that favor the development of stable isotopes (d18O and dD) as tracer of urban waters. The study first describes the factors affecting isotopic composition of urban waters. It also describes how to optimize the use of stable isotopes, either alone or coupled with other tracers to detect parasitic waters.New hydrological insightsIn Nantes, groundwater intrusions were detected above 8% of the sewer-water flow and waste-water inflows above 14% of the sewer-water flow. In Brussels, the stable isotopes may trace the presence of parasitic groundwater in a small part of the city territory (9?km2). This study concludes that stable isotopes can be used as tracer of parasitic waters in low altitude cities close to the ocean, when domestic water originates from catchments extending into the continent. In this case, tracing studies may take advantage of the seasonal variation of the isotopic composition of waste-waters, on the condition of assessing the other factors that impact the isotopic composition of urban waters, as done here.
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STARDUST II is a project funded by the INTERREG III A programme (France/Walloon Region/Flanders
French-Flemish subprogramme) of the European Community's Regional Development Fund.
Hosted by the Flanders Marine Institute (VLIZ)