The CASPER project: an integrated approach for pollution risk assessment in peri-urban groundwater catchment areas

In 2020, the European Union has established a recast of the 1998 EU Directive on the quality of water intended for human consumption, hereafter called Drinking Water Directive – DWD. One of the most significant innovative point in this recast is the introduction of an innovative “complete risk-based...

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Bibliographic Details
Published in:Advances in geosciences 2022-12, Vol.59, p.45-51
Main Authors: Brouyère, Serge, Balzani, Laura, Orban, Philippe
Format: Article
Language:English
Subjects:
Aquifers
Cartography
Case studies
Catchment area
Catchment areas
Catchments
Chalk
Contamination
Distribution
Drinking water
Earth sciences & physical geography
Engineering, computing & technology
Environmental risk
Evaluation
Geological, petroleum & mining engineering
Groundwater
Groundwater flow
Groundwater quality
Géologie, ingénierie du pétrole & des mines
Identification
Ingénierie, informatique & technologie
Integrated approach
Management
mass flux
Physical, chemical, mathematical & earth Sciences
Physique, chimie, mathématiques & sciences de la terre
Pollutants
Pollution
Pollution monitoring
pollution source
Pollution sources
Pollution surveys
Risk
Risk assessment
Risk management
Sciences de la terre & géographie physique
Storage
Supply chains
Surface water
Surveying
Sustainable development
Tracers
Tracers (Chemistry)
Transportation safety
Urban groundwater
Water
Water conveyance
Water distribution systems
Water flow
Water monitoring
Water quality
Water supply
Water supply systems
Water, Underground
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Summary:In 2020, the European Union has established a recast of the 1998 EU Directive on the quality of water intended for human consumption, hereafter called Drinking Water Directive – DWD. One of the most significant innovative point in this recast is the introduction of an innovative “complete risk-based approach to water safety, covering the whole supply chain from the catchment area, abstraction, treatment, storage and distribution to the point of compliance” (article 7). In practice, a 3-level risk assessment and risk management is expected: (1) at the level of the catchment area (article 8), (2) at the level of the water supply systems (article 9) and (3) at the level of the domestic distribution system (article 10). In this context, the CASPER project, funded by SPGE in the Walloon Region of Belgium, aims at developing an integrated approach for the evaluation and management of pollution risks for peri-urban groundwater catchments. The approach, which fully complies with the requirements of the DWD recast, consists of several key components. First, point and diffuse pollution sources are identified in the groundwater catchment area based on a mapping of hazardous activities combined with a specific groundwater monitoring survey aiming at identifying specific tracers of such sources of pollution. In a second step, risks associated to each of the identified source of pollution is estimated based on the measurement of pollutant mass fluxes and mass discharges downgradient these sources. Finally, a groundwater flow and transport model is developed at the scale of the groundwater catchment area, with the aim of evaluating the cumulative effect of the multiple sources on groundwater quality deterioration in the catchment and at the abstraction points. The objective here is to describe the CASPER approach and to illustrate it using ongoing investigations in a peri-urban groundwater catchment exploiting groundwater from a chalk aquifer in Western Belgium.
ISSN:1680-7359
1680-7340
1680-7359
DOI:10.5194/adgeo-59-45-2022