Toxic Filtered Car Emissions After Sunlight Exposure

Sunlight Triggers Toxic Changes in Car Exhaust

The research focused on a gasoline vehicle equipped with a gasoline particulate filter (GPF), designed to drastically reduce primary particulate emissions. Freshly emitted exhaust showed no detectable cytotoxic effects on human lung cells. However, once the exhaust underwent “photochemical aging” – a natural transformation process driven by sunlight and atmospheric oxidants – it became substantially more toxic.

The aged emissions caused notable DNA damage and oxidative stress in both cancerous alveolar and normal bronchial epithelial cells. This toxicity was not only associated with newly formed particles, known as secondary organic and inorganic aerosols (SOA and SIA), but also with oxygenated volatile compounds, such as carbonyls, generated during their residence in the atmosphere.

Lab-Based Emission Standards Overlook Atmospheric Transformation

According to Dr. Mathilde Delaval, first author of the study and researcher at Helmholtz Munich, these findings point to a critical shortfall in current vehicle emissions testing and regulation. While EURO 6d standards ensure low emissions at the tailpipe, they do not account for the chemical transformations those emissions undergo once released into the environment. “Our study shows that we are missing a big part of the picture by not considering how exhaust gases change – and become more harmful – after they leave the car,” she said.

The results have important implications for how air quality standards are set and monitored. Current regulations focus primarily on the emissions measured directly after combustion, without factoring in how these emissions interact with sunlight and atmospheric chemicals to form new, more harmful pollutants. “There’s a clear disconnect between how we test vehicle emissions in the lab and how those emissions behave in the real world,” said co-author Dr. Hendryk Czech from Helmholtz Munich and the University of Rostock. “If we ignore what happens to exhaust after it enters the atmosphere, we risk underestimating the true health impact of traffic-related air pollution.”

Atmospheric Aging Demands an Updated Approach to Pollution Control

Air pollution remains a major global health issue, responsible for increased rates of respiratory and cardiovascular disease, cancer, and premature death. The discovery that filtered emissions from even the cleanest gasoline cars can still become toxic once airborne suggests that future regulations must evolve to address both primary and secondary pollutants.

This study was a joint effort by a multidisciplinary team of biologists, aerosol physicists, and chemists investigating the health impacts of air pollution. Led by Prof. Ralf Zimmermann, professor of analytical chemistry at the University of Rostock and head of the Joint Mass Spectrometry Group at Helmholtz Munich and the University of Rostock, the project brought together researchers from Germany, Finland, Switzerland, and Israel. Key collaborators came from Helmholtz Munich, the University of Rostock, the University of Eastern Finland, Research Center Jülich, the Weizmann Institute of Science, the University of Basel, and the University of the Bundeswehr Munich. The work was conducted within the Helmholtz International Lab “aeroHEALTH” and supported by the EU-funded project “ULTRHAS,” with core experiments carried out at the ILMARI research facility in Kuopio, Finland, led by Prof. Olli Sippula.