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Development of a spatial web tool to identify hotspots of environmental burdens in Wallonia (Belgium)

  • Sarah HabranEmail author
  • Pierre Crespin
  • Mathieu Veschkens
  • Suzanne Remy
Environmental Pollution, Food Contamination, Risk Assessment and Remediation

Abstract

In response to the Walloon Environment and Health Program, the Scientific Institute of Public Services (ISSeP) developed an integrated approach of environmental exposure assessment in the Walloon region, Belgium. The study presents an index-based approach to estimate the multiple environmental burdens at regional level and detailed local resolution. Indicators are based on environmental measurements of pollutants in ambient air and soil, and on stressors for citizens related to noise and radon. These indicators were mapped as proportions to obtain an accurate comparison between spatial units. In order to indicate the need for intervention, environmental indicators are calculated as the proportion of areas where the level of detrimental environmental factors exceeds threshold values from WHO guidelines and Walloon legal threshold values. In parallel, a spatial web tool based on GIS was developed to enable a flexible and weighted combination of the normalized indicators by computing the resulting composite index online. This interactive web tool designed for policy makers and experts eases the spatial analysis of results in order to identify geographic areas where hotspot exposures are a potential risk to human health. The next steps of this work aim to integrate more environmental indicators (stressors and benefits) and some sociodemographic and health indicators in order to detect vulnerable populations. A holistic assessment is essential to inform environmental justice debates and to ensure a health conducive equal environment. Finally, this environmental health tool will support decision makers focus resources and programs to improve the environmental health of Walloons living in areas disproportionately burdened by multiple sources of pollution.

Keywords

Cumulative exposure Geospatial analysis/GIS Environmental equity Composite indicators Environmental burdens Environmental health tool Wallonia 

Notes

Acknowledgments

Authors wish to thank members of the steering committee of the SIGEnSa project for their feedback and guidance on methodology, indicator and data selection, and preliminary results. Authors also thank the Walloon Public Service (SPW), the Scientific Institute of Public Services (ISSeP), the Université Catholique de Louvain (UCLouvain), and the Federal Agency for Nuclear Control (AFCN) for providing the data.

Funding information

This work is part of the SIGEnSa project financially supported by the ministerial funds for the Risk Assessment (decree D-31-3800), committed by the Cellule Permanente Environnement Santé (CPES) of the Walloon Public Service (SPW).

Compliance with ethical standards

Conflict of interest

The authors declare that they have no conflict of interest.

References

  1. Baysson H, Tirmarche M, Tymen G, Gouva S, Caillaud D, Artus JC, Vergnenegre A, Ducloy F, Laurier D (2004) Indoor radon and lung cancer in France. Epidemiology 15(6):709–716CrossRefGoogle Scholar
  2. Bolte G, Braubach M, Chaudhuri N et al (2012) Environmental health inequalities in Europe. Assessment report. World Health Organization, CopenhagenGoogle Scholar
  3. Burgass MJ, Halpern BS, Nicholson E, Milner-Gulland EJ (2017) Navigating uncertainty in environmental composite indicators. Ecol Indic 75:268–278CrossRefGoogle Scholar
  4. Caudeville J, Boudet C, Govaert G et al (2011) Construction d’une plate-forme intégrée pour la cartographie de l’exposition des populations aux substances chimiques de l’environnement. Environ Risque Santé 10(3):239–242 (in French)Google Scholar
  5. Caudeville J, Ioannidou D, Boulvert E, Bonnard R (2017) Cumulative risk assessment in the Lorraine region: a framework to characterize environmental health inequalities. Int J Environ Res Public Health 14(3):291CrossRefGoogle Scholar
  6. Cinelli G, Tondeur F, Dehandschutter B (2011) Development of an indoor radon risk map of the Walloon region of Belgium, integrating geological information. Environ Earth Sci 62(4):809–819CrossRefGoogle Scholar
  7. Corvalán C, Briggs D, Kjellstrom T (1996) Development of environmental health indicators. In: Briggs D, Corvalan C, Nurminen M (eds) Linkage methods for environment and health analysis: general guidelines. World Health Organization, pp 19–53Google Scholar
  8. Curtis L, Rea W, Smith-Willis P, Fenyves E, Pan Y (2006) Adverse health effects of outdoor air pollutants. Environ Int 32(6):815–830CrossRefGoogle Scholar
  9. Cushing L, Faust J, August LM, Cendak R, Wieland W, Alexeeff G (2015) Racial/ethnic disparities in cumulative environmental health impacts in California: evidence from a statewide environmental justice screening tool (CalEnviroScreen 1.1). Am J Public Health 105(11):2341–2348CrossRefGoogle Scholar
  10. Faust J, August L, Bangia K et al (2017) CalEnviroScreen 3.0: Update to the California Communities Environmental Health Screening Tool. Office of Environmental Health Hazard Assessment, California Environmental Protection Agency, SacramentoGoogle Scholar
  11. Flacke J, Schüle SA, Köckler H, Bolte G (2016) Mapping environmental inequalities relevant for health for informing urban planning interventions—a case study in the city of Dortmund, Germany. Int J Environ Res Public Health 13(7):711CrossRefGoogle Scholar
  12. Henschel S, Chan G (2013) Health risks of air pollution in Europe—HRAPIE project. World Health Organization, CopenhagenGoogle Scholar
  13. Hsu A, Johnson LA, Lloyd A (2013) Measuring progress: a practical guide from the developers of the environmental performance index (EPI). Yale Center for Environmental Law & Policy, New HavenGoogle Scholar
  14. Huang H, Wang A, Morello-Frosch R et al (2018) Cumulative risk and impact modeling on environmental chemical and social stressors. Curr Environ Health Rep 5(1):88–99Google Scholar
  15. Institut wallon de l’évaluation de la prospective et de la statistique IWEPS (2018a) Densité de population en Wallonie. https://www.iweps.be/indicateur-statistique/densite-de-population/. Accessed 14 Sept 2018
  16. Institut wallon de l’évaluation de la prospective et de la statistique IWEPS (2018b) Régions urbaines en Wallonie. https://www.iweps.be/indicateur-statistique/regions-urbaines/. Accessed 14 Sept 2018
  17. Institut wallon de l’évaluation de la prospective et de la statistique IWEPS (2018c) Utilisation du sol en Wallonie. https://www.iweps.be/indicateur-statistique/utilisation-du-sol/. Accessed 14 Sept 2018
  18. Institut wallon de l’évaluation de la prospective et de la statistique IWEPS (2018d) Densité des infrastructures de transport en Wallonie. https://www.iweps.be/indicateur-statistique/densite-infrastructures-de-transport/. Accessed 14 Sept 2018
  19. Institut wallon de l’évaluation de la prospective et de la statistique IWEPS (2018e) Transport aérien en Wallonie. https://www.iweps.be/indicateur-statistique/transport-aerien/. Accessed 14 Sept 2018
  20. International Agency for Research on Cancer, World Health Organization (2013) IARC: Outdoor air pollution a leading environmental cause of cancer deaths. Press release No. 221. World Health OrganizationGoogle Scholar
  21. Longley PA, Goodchild MF, Maguire DJ, Rhind DW (2005) Geographic information systems and science. Wiley, HobokenGoogle Scholar
  22. Medina S, Le Tertre A, Saklad M, Apheis Collaborative Network (2009) The APHEIS project: air pollution and health – a European information system. Air Qual Atmos Health 2(4):185–198CrossRefGoogle Scholar
  23. Morello-Frosch R, Zuk M, Jerrett M, Shamasunder B, Kyle AD (2011) Understanding the cumulative impacts of inequalities in environmental health: implications for policy. Health Aff 30(5):879–887CrossRefGoogle Scholar
  24. Nardo M, Saisana M, Saltelli A, Tarantola S (2005) Tools for Composite Indicators Building. EUR 21682 EN. Econometrics and Statistical Support to Antifraud Unit. Institute for the Protection and Security of the Citizen, Joint Research Centre (JRC), IspraGoogle Scholar
  25. Occelli F (2014) Systèmes d’Information Géographique et Lien Environnement–Santé (SIGLES): contribution au développement d'outils cartographiques d'aide à la décision face aux risques sanitaires liés à l'environnement. Doctoral dissertation, Université du Droit et de la Santé-Lille II (in French)Google Scholar
  26. Office of Environmental Health Hazard Assessment, OEHHA (2018) CalEnviroScreen. https://oehha.ca.gov/calenviroscreen. Accessed 14 Sep 2018
  27. Pärt P, Jarosinska D, Hoogeveen Y (2013) Environment and human health—Joint EEA-JRC report no. 5. European Environment AgencyGoogle Scholar
  28. Pascal M, Medina S (2012) Résumé des résultats du projet Aphekom 2008-2011. Des clefs pour mieux comprendre les impacts de la pollution atmosphérique urbaine sur la santé en Europe. Institut de veille sanitaire (InVS), Saint-Maurice 6 p (in French)Google Scholar
  29. Pereira B, Sonnet P (2007) La contamination diffuse des sols par les éléments traces métalliques en Région wallonne. Dossier scientifique réalisé dans le cadre de l’élaboration du Rapport analytique 2006–2007 sur l’état de l’environnement wallon, 27p (in French)Google Scholar
  30. Saib MS, Caudeville J, Beauchamp M, Carré F, Ganry O, Trugeon A, Cicolella A (2015) Building spatial composite indicators to analyze environmental health inequalities on a regional scale. Environ Health 14(1):68CrossRefGoogle Scholar
  31. Science Communication Unit (2013) Science for environment policy in-depth report: soil contamination: impacts on human health. Report produced for the European Commission DG Environment. University of the West of England, BristolGoogle Scholar
  32. Selander J, Nilsson ME, Bluhm G, Rosenlund M, Lindqvist M, Nise G, Pershagen G (2009) Long-term exposure to road traffic noise and myocardial infarction. Epidemiology 20:272–279CrossRefGoogle Scholar
  33. Sexton K (2012) Cumulative risk assessment: an overview of methodological approaches for evaluating combined health effects from exposure to multiple environmental stressors. Int J Environ Res Public Health 9(2):370–390CrossRefGoogle Scholar
  34. Shrestha R, Flacke J, Martinez J, Van Maarseveen M (2016) Environmental health related socio-spatial inequalities: identifying “hotspots” of environmental burdens and social vulnerability. Int J Environ Res Public Health 13(7):691CrossRefGoogle Scholar
  35. Shrestha R, Köckler H, Flacke J, Martinez J, Van Maarseveen M (2017) Interactive knowledge co-production and integration for healthy urban development. Sustainability 9(11):1945CrossRefGoogle Scholar
  36. Shrestha R, Flacke J, Martinez J, van Maarseveen M (2018) Interactive cumulative burden assessment: engaging stakeholders in an adaptive, Participatory and Transdisciplinary Approach. Int J Environ Res Public Health 15(2):260CrossRefGoogle Scholar
  37. Stephenne N, Remy S, Eloy S, Stassen F, Defoux J (2013) A Walloon spatial simulation model of risks in environment and health. Environmental Health Risk VII, 16, 35Google Scholar
  38. Straif K, Cohen A, Samet J, International Agency for Research on Cancer (2013) IARC Scientific Publication No. 161: Air Pollution and Cancer. World Health Organization, GenevaGoogle Scholar
  39. Sugumaran R, Degroote J (2010) Spatial decision support systems: principles and practices. CRC Press, Boca RatonCrossRefGoogle Scholar
  40. Tondeur F, Cinelli G, Dehandschutter B (2014) Homogenity of geological units with respect to the radon risk in the Walloon region of Belgium. J Environ Radioact 136:140–151CrossRefGoogle Scholar
  41. Walloon Public Service SPW - DGO3 (2010) Tableau de bord de l’environnement wallon. Delbeuck C (Ed.), Etat de l’environnement wallon (in French)Google Scholar
  42. Walloon Public Service SPW – DGO3 (2015) Code Wallon de Bonnes Pratiques – version 2 – Guide de référence pour l’étude de risques – partie B : Evaluation des risques pour la santé humaine (in French)Google Scholar
  43. World Health Organization WHO (2009a) WHO handbook on indoor radon: a Public Health perspective. Angell WJ, Zeeb H, Shannon FGoogle Scholar
  44. World Health Organization WHO (2009b) In: Hurtley C (ed) Night noise guidelines for Europe. WHO Regional Office Europe, KøbenhavnGoogle Scholar
  45. World Health Organization WHO (2011) Burden of disease from environmental noise: Quantification of healthy life years lost in Europe. In Burden of disease from environmental noise: Quantification of healthy life years lost in Europe, pp 126–126Google Scholar
  46. World Health Organization WHO (2013) Review of evidence on health aspects of air pollution–REVIHAAP ProjectGoogle Scholar
  47. World Health Organization WHO (2017) Risk factors. In: WHO. http://www.who.int/topics/risk_factors/en/. Accessed 14 Sept 2018
  48. World Health Organization WHO and UNAIDS (2006) Air quality guidelines: global update 2005Google Scholar

Copyright information

© Springer-Verlag GmbH Germany, part of Springer Nature 2019

Authors and Affiliations

  • Sarah Habran
    • 1
    Email author
  • Pierre Crespin
    • 2
  • Mathieu Veschkens
    • 1
  • Suzanne Remy
    • 1
  1. 1.Chronic Risks, Institut Scientifique de Service Public (ISSeP)LiegeBelgium
  2. 2.Air Quality, Institut Scientifique de Service Public (ISSeP)LiegeBelgium

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