Discovering environmental health effects of transport scenarios through agent-based simulations

Publication date

2025-12

Authors

Sonnenschein, Tabea S.
Scheider, Simon
de Wit, G. ArdineISNI 0000000389177269
Woodcock, James
Vermeulen, RoelORCID 0000-0003-4082-8163

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Document Type

Article

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cc_by

Abstract

Urban planning can help tackle environmental health issues. We demonstrate that agent-based simulation can discover unintended as well as intended environmental health effects and social inequalities of intervention scenarios. We developed, calibrated and validated UrbHealth-ABM, an empirically grounded agent-based model of Amsterdam The Netherlands, integrating data and models of individual mobility choices, traffic, air pollution, physical activity and personal exposure. We used the 2019 parking price increase as a natural experiment, confirming the models' accuracy in predicting traffic reduction. Projections for the planned 2030 no emission zone show a significant reduction of nitrogen dioxide exposure for everyone and an increase in transport-related physical activity, especially for less affluent outer-city residents. However, disproportionate increases in their travel times raise equity concerns. Several 15-minutes city scenarios reveal that although driving may increase to distant destinations, nitrogen dioxide exposure decreases overall. Moreover, transport-related physical activity might decrease in the Amsterdam context due to shorter active travel distances, but travel time savings could be used for mitigation strategies.

Keywords

Journal Article

Citation

Sonnenschein, T S, Scheider, S, de Wit, G A, Woodcock, J & Vermeulen, R C H 2025, 'Discovering environmental health effects of transport scenarios through agent-based simulations', Environment International, vol. 206, 109866. https://doi.org/10.1016/j.envint.2025.109866