A Horizon Scan to Support Chemical Pollution–Related Policymaking for Sustainable and Climate‐Resilient Economies

Green, Christopher; Bilyanska, Antoaneta; Bradley, Mags; Dinsdale, Jason; Hutt, Lorraine; Backhaus, Thomas; Boons, Frank; Bott, David; Collins, Chris; Cornell, Sarah E.; Craig, Mark; Depledge, Michael; Diderich, Bob; Fuller, Richard; Galloway, Tamara S.; Hutchison, Gary R.; Ingrey, Nicola; Johnson, Andrew C.; Kupka, Rachael; Matthiessen, Peter; Oliver, Robin; Owen, Stewart; Owens, Susan; Pickett, John; Robinson, Sam; Sims, Kerry; Smith, Pete; Sumpter, John P.; Tretsiakova‐McNally, Svetlana; Wang, Mengjiao; Welton, Tom; Willis, Katherine J.; Lynch, Iseult

doi:10.1002/etc.5620

A Horizon Scan to Support Chemical Pollution–Related Policymaking for Sustainable and Climate‐Resilient Economies

Green, Christopher; Bilyanska, Antoaneta; Bradley, Mags; Dinsdale, Jason; Hutt, Lorraine; Backhaus, Thomas; Boons, Frank; Bott, David; Collins, Chris; Cornell, Sarah E.; Craig, Mark; Depledge, Michael; Diderich, Bob; Fuller, Richard; Galloway, Tamara S.; Hutchison, Gary R.; Ingrey, Nicola; Johnson, Andrew C.; Kupka, Rachael; Matthiessen, Peter; Oliver, Robin; Owen, Stewart; Owens, Susan; Pickett, John; Robinson, Sam; Sims, Kerry; Smith, Pete; Sumpter, John P.; Tretsiakova‐McNally, Svetlana; Wang, Mengjiao; Welton, Tom; Willis, Katherine J.; Lynch, Iseult

Authors

Christopher Green

Antoaneta Bilyanska

Mags Bradley

Jason Dinsdale

Lorraine Hutt

Thomas Backhaus

Frank Boons

David Bott

Chris Collins

Sarah E. Cornell

Mark Craig

Michael Depledge

Bob Diderich

Richard Fuller

Tamara S. Galloway

Prof Gary Hutchison Ga.Hutchison@napier.ac.uk
Dean of Applied Sciences

Nicola Ingrey

Andrew C. Johnson

Rachael Kupka

Peter Matthiessen

Robin Oliver

Stewart Owen

Susan Owens

John Pickett

Sam Robinson

Kerry Sims

Pete Smith

John P. Sumpter

Svetlana Tretsiakova‐McNally

Mengjiao Wang

Tom Welton

Katherine J. Willis

Iseult Lynch

Abstract

While chemicals are vital to modern society through materials, agriculture, textiles, new technology, medicines, and consumer goods, their use is not without risks. Unfortunately, our resources seem inadequate to address the breadth of chemical challenges to the environment and human health. Therefore, it is important we use our intelligence and knowledge wisely to prepare for what lies ahead. The present study used a Delphi‐style approach to horizon‐scan future chemical threats that need to be considered in the setting of chemicals and environmental policy, which involved a multidisciplinary, multisectoral, and multinational panel of 25 scientists and practitioners (mainly from the United Kingdom, Europe, and other industrialized nations) in a three‐stage process. Fifteen issues were shortlisted (from a nominated list of 48), considered by the panel to hold global relevance. The issues span from the need for new chemical manufacturing (including transitioning to non‐fossil‐fuel feedstocks); challenges from novel materials, food imports, landfills, and tire wear; and opportunities from artificial intelligence, greater data transparency, and the weight‐of‐evidence approach. The 15 issues can be divided into three classes: new perspectives on historic but insufficiently appreciated chemicals/issues, new or relatively new products and their associated industries, and thinking through approaches we can use to meet these challenges. Chemicals are one threat among many that influence the environment and human health, and interlinkages with wider issues such as climate change and how we mitigate these were clear in this exercise. The horizon scan highlights the value of thinking broadly and consulting widely, considering systems approaches to ensure that interventions appreciate synergies and avoid harmful trade‐offs in other areas. We recommend further collaboration between researchers, industry, regulators, and policymakers to perform horizon scanning to inform policymaking, to develop our ability to meet these challenges, and especially to extend the approach to consider also concerns from countries with developing economies.

Citation

Green, C., Bilyanska, A., Bradley, M., Dinsdale, J., Hutt, L., Backhaus, T., Boons, F., Bott, D., Collins, C., Cornell, S. E., Craig, M., Depledge, M., Diderich, B., Fuller, R., Galloway, T. S., Hutchison, G. R., Ingrey, N., Johnson, A. C., Kupka, R., Matthiessen, P., …Lynch, I. (2023). A Horizon Scan to Support Chemical Pollution–Related Policymaking for Sustainable and Climate‐Resilient Economies. Environmental Toxicology and Chemistry, 42(6), 1212-1228. https://doi.org/10.1002/etc.5620

Journal Article Type	Article
Acceptance Date	Mar 21, 2023
Online Publication Date	May 8, 2023
Publication Date	2023
Deposit Date	May 17, 2023
Publicly Available Date	May 17, 2023
Journal	Environmental Toxicology and Chemistry
Print ISSN	0730-7268
Publisher	Wiley
Peer Reviewed	Peer Reviewed
Volume	42
Issue	6
Pages	1212-1228
DOI	https://doi.org/10.1002/etc.5620
Keywords	Horizon scanning, Chemical pollution, Early warning, Emerging risk, Chemicals management, Sustainable chemicals, Climate change, Biodiversity loss

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