The role of forensic science in the generation of intelligence to address environmental water contamination problems

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Ressource 1Download: Estoppey et al. 2023 The role of FS in the generation of intelligence to address environmental water contamination problems. WIREs Forensic Science.pdf (3557.08 [Ko])
State: Public
Version: Final published version
License: CC BY-NC 4.0
Serval ID
serval:BIB_D7345056617B
Type
Article: article from journal or magazin.
Collection
Publications
Institution
Title
The role of forensic science in the generation of intelligence to address environmental water contamination problems
Journal
WIREs Forensic Science
Author(s)
Estoppey Nicolas, Pfeiffer Fabienne, Glanzmann Vick, Reymond Naomi, Tascon Ines, Huisman Sofie, Lacour William, Ribaux Olivier, Weyermann Céline
ISSN
2573-9468
2573-9468
Publication state
Published
Issued date
11/2023
Peer-reviewed
Oui
Volume
5
Number
6
Pages
e1499
Language
english
Abstract
Water contamination is a growing concern in society. New environmental laws are being enacted to define intolerable human activities, and their enforcement is increasingly supported by forensic science. However, water contamination is a broader security issue that is not only caused by illegal human behavior.Risk-based approaches are needed to prevent (re)occurrence of incidents and minimize their negative consequences. This can be achieved through the formalization of a monitoring process producing intelligence (i.e., actionable knowledge), crucial to detect recurring incidents, and guiding decision-makers in their choice of preventive and responsive actions. In this perspective,forensic science has a key role to play in integrating vestiges from water-contaminating activities (i.e., traces) in such a problem-solving process. Information conveyed by traces allows detecting similarities among contamination events (i.e., patterns), inferring common causes, and better understanding of mechanisms and consequences of water contamination. The different stages of the process will be described and illustrated through a real case example.Current barriers to the implementation of such a process are then discussed,showing how systemic issues and complexity may prevent the establishment of links across contamination events, thus negatively impacting the generation of intelligence. To overcome these obstacles, we underline the importance to initiate local and size-limited approaches by implementing relatively simple and flexible systems. New knowledge can be used to improve local situations and help stakeholders to understand the benefits of such a process; then, by a bottom-up iterative learning process, the approach can be given a greater ambition at a larger scale.
Keywords
General Agricultural and Biological Sciences
Open Access
Yes
Create date
11/09/2023 7:33
Last modification date
11/11/2023 7:09
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