Long-term exposure and health risk assessment from air pollution: impact of regional scale mobility

Lorenza Gilardi; Mattia Marconcini; Annekatrin Metz-Marconcini; Thomas Esch; Thilo Erbertseder

doi:10.1186/s12942-023-00333-8

Long-term exposure and health risk assessment from air pollution: impact of regional scale mobility

Int J Health Geogr. 2023 May 19;22(1):11. doi: 10.1186/s12942-023-00333-8.

Authors

Lorenza Gilardi¹, Mattia Marconcini², Annekatrin Metz-Marconcini², Thomas Esch², Thilo Erbertseder³

Affiliations

¹ German Remote Sensing Data Center, Department Atmosphere (DFD-ATM), German Aerospace Center (DLR), Münchener Str. 20, 82234, Weßling, Germany. Lorenza.Gilardi@dlr.de.
² German Remote Sensing Data Center, Department Land Surface Dynamics (DFD-LAX), German Aerospace Center (DLR), Münchener Str. 20, 82234, Weßling, Germany.
³ German Remote Sensing Data Center, Department Atmosphere (DFD-ATM), German Aerospace Center (DLR), Münchener Str. 20, 82234, Weßling, Germany.

Abstract

Background: The negative effect of air pollution on human health is widely reported in recent literature. It typically involves urbanized areas where the population is concentrated and where most primary air pollutants are produced. A comprehensive health risk assessment is therefore of strategic importance for health authorities.

Methods: In this study we propose a methodology to perform an indirect and retrospective health risk assessment of all-cause mortality associated with long-term exposure to particulate matter less than 2.5 microns (PM_2.5), nitrogen dioxide (NO₂) and ozone (O₃) in a typical Monday to Friday working week. A combination of satellite-based settlement data, model-based air pollution data, land use, demographics and regional scale mobility, allowed to examine the effect of population mobility and pollutants daily variations on the health risk. A Health Risk Increase (HRI) metric was derived on the basis of three components: hazard, exposure and vulnerability, utilizing the relative risk values from the World Health Organization. An additional metric, the Health Burden (HB) was formulated, which accounts for the total number of people exposed to a certain risk level.

Results: The effect of regional mobility patterns on the HRI metric was assessed, resulting in an increased HRI associated with all three stressors when considering a dynamic population compared to a static one. The effect of diurnal variation of pollutants was only observed for NO₂ and O₃. For both, the HRI metric resulted in significantly higher values during night. Concerning the HB parameter, we identified the commuting flows of the population as the main driver in the resulting metric.

Conclusions: This indirect exposure assessment methodology provides tools to support policy makers and health authorities in planning intervention and mitigation measures. The study was carried out in Lombardy, Italy, one of the most polluted regions in Europe, but the incorporation of satellite data makes our approach valuable for studying global health.

Keywords: Air pollutants; Diurnal variability; Dynamic population; Exposure assessment; Satellite-based data; Settlement mask.

Publication types

Research Support, Non-U.S. Gov't

MeSH terms

Air Pollutants* / adverse effects
Air Pollutants* / analysis
Air Pollution* / adverse effects
Air Pollution* / analysis
Environmental Exposure / adverse effects
Environmental Exposure / analysis
Environmental Pollutants*
Humans
Nitrogen Dioxide / adverse effects
Nitrogen Dioxide / analysis
Particulate Matter / adverse effects
Particulate Matter / analysis
Retrospective Studies
Risk Assessment

Substances

Nitrogen Dioxide
Air Pollutants
Particulate Matter
Environmental Pollutants