Impact of Escherichia coli from stormwater drainage on recreational water quality: an integrated monitoring and modelling of urban catchment, pipes and lake

In recent years, recreational waterbodies are increasingly favoured in urban areas. In spite of the growing concerns for maintaining the required bathing water quality, the impacts of stormwater drainage are still poorly controlled. In this context, this study originally develops an integrated urban...

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Bibliographic Details
Published in:Environmental science and pollution research international 2021, Vol.28 (2), p.2245-2259
Main Authors: Hong, Yi, Soulignac, Frédéric, Roguet, Adélaïde, Li, Chenlu, Lemaire, Bruno J., Martins, Rodolfo Scarati, Lucas, Françoise, Vinçon-Leite, Brigitte
Format: Article
Language:English
Subjects:
Aquatic Pollution
Atmospheric Protection/Air Quality Control/Air Pollution
Bathing
Civil Engineering
Drainage
E coli
Earth and Environmental Science
Ecotoxicology
Engineering Sciences
Environment
Environmental Chemistry
Environmental Engineering
Environmental Health
Environmental Monitoring
Environmental science
Environmental Sciences
Escherichia coli
hydrodynamics
Lakes
microbiological quality
Microorganisms
Model testing
Modelling
Mortality
Parameter uncertainty
Paris
Pipes
pollution
Pollution sources
Quality management
Rain
Rainfall
Recreation
Research Article
Sewer systems
Simulation
Storm drainage
Stormwater
Stormwater quality
surface water
Urban areas
Urban catchments
Waste Water Technology
Water Management
Water Movements
Water pollution
Water Pollution Control
Water Quality
Water quality management
watersheds
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Summary:In recent years, recreational waterbodies are increasingly favoured in urban areas. In spite of the growing concerns for maintaining the required bathing water quality, the impacts of stormwater drainage are still poorly controlled. In this context, this study originally develops an integrated urban catchment-pipes-lake monitoring and modelling approach to simulate the impacts of microbial quality from stormwater drainage on recreational water quality. The modelling system consists of three separated components: the urban catchment component, the 3D lake hydrodynamic component and the 3D lake water quality component. A series of processes are simulated in the model, such as rainfall-discharge, build-up, wash-off of Escherichia coli ( E. coli ) on urban surfaces, sewer flows, hydrothermal dynamics of lake water and transport and mortality of E. coli in the lake. This integrated model is tested for an urban catchment and its related recreational lake located in the Great Paris region. Continuous monitoring and samplings were performed at the stormwater drainage outlet and three different sites in the lake. Comparing the measured data with simulation results over 20 months, the modelling system can correctly represent the E. coli dynamics in the stormwater sewer systems and in the lake. Although uncertainties related to parameter values, pollution sources and E. coli mortality processes could be further discussed, the good performance of this modelling approach emphasizes a promising potential for urban bathing water quality management.
ISSN:0944-1344
1614-7499
DOI:10.1007/s11356-020-10629-y