Author
Listed:
- Juan J. Pacheco Tovar
(Laboratorio de Magnetismo Ambiental, Posgrado en Ingeniería para la Innovación Tecnológica, Unidad Académica de Ingeniería Eléctrica, Universidad Autónoma de Zacatecas, Carretera Zacatecas-Guadalajara Km 6, Ejido la Escondida, Zacatecas 98000, Zacatecas, Mexico)
- Ana G. Castañeda-Miranda
(Laboratorio de Magnetismo Ambiental, Posgrado en Ingeniería para la Innovación Tecnológica, Unidad Académica de Ingeniería Eléctrica, Universidad Autónoma de Zacatecas, Carretera Zacatecas-Guadalajara Km 6, Ejido la Escondida, Zacatecas 98000, Zacatecas, Mexico)
- Harald N. Böhnel
(Laboratorio de Paleomagnetismo, Instituto de Geociencias, Universidad Nacional Autónoma de México (UNAM) Campus Juriquilla, Blvd. Juriquilla 3001, Juriquilla, Querétaro 76230, Querétaro, Mexico)
- Rodrigo Castañeda-Miranda
(Programa en Ingeniería y Tecnología Aplicada, Laboratorio Nacional CONACYT, SEDEAM, Universidad Autónoma de Zacatecas, Av. Ramón López Velarde, Col. Centro, Zacatecas 98000, Zacatecas, Mexico)
- Luis A. Flores-Chaires
(Laboratorio de Magnetismo Ambiental, Posgrado en Ingeniería para la Innovación Tecnológica, Unidad Académica de Ingeniería Eléctrica, Universidad Autónoma de Zacatecas, Carretera Zacatecas-Guadalajara Km 6, Ejido la Escondida, Zacatecas 98000, Zacatecas, Mexico)
- Remberto Sandoval-Aréchiga
(Laboratorio de Magnetismo Ambiental, Posgrado en Ingeniería para la Innovación Tecnológica, Unidad Académica de Ingeniería Eléctrica, Universidad Autónoma de Zacatecas, Carretera Zacatecas-Guadalajara Km 6, Ejido la Escondida, Zacatecas 98000, Zacatecas, Mexico)
- Jose R. Gomez-Rodriguez
(Laboratorio de Magnetismo Ambiental, Posgrado en Ingeniería para la Innovación Tecnológica, Unidad Académica de Ingeniería Eléctrica, Universidad Autónoma de Zacatecas, Carretera Zacatecas-Guadalajara Km 6, Ejido la Escondida, Zacatecas 98000, Zacatecas, Mexico)
- Alejandro Rodríguez-Trejo
(Laboratorio de Paleomagnetismo, Instituto de Geociencias, Universidad Nacional Autónoma de México (UNAM) Campus Juriquilla, Blvd. Juriquilla 3001, Juriquilla, Querétaro 76230, Querétaro, Mexico)
- Sodel Vazquez-Reyes
(Doctorado en Ciencias con Orientación en Medicina Molecular, Unidad Academica de Medicina Humana y Ciencias de la Salud, Universidad Autonoma de Zacatecas, Carretera Zacatecas-Guadalajara Km 6, Ejido la Escondida, Zacatecas 98160, Zacatecas, Mexico)
- Margarita L. Martinez-Fierro
(Doctorado en Ciencias con Orientación en Medicina Molecular, Unidad Academica de Medicina Humana y Ciencias de la Salud, Universidad Autonoma de Zacatecas, Carretera Zacatecas-Guadalajara Km 6, Ejido la Escondida, Zacatecas 98160, Zacatecas, Mexico)
- Salvador Ibarra Delgado
(Laboratorio de Magnetismo Ambiental, Posgrado en Ingeniería para la Innovación Tecnológica, Unidad Académica de Ingeniería Eléctrica, Universidad Autónoma de Zacatecas, Carretera Zacatecas-Guadalajara Km 6, Ejido la Escondida, Zacatecas 98000, Zacatecas, Mexico)
Abstract
Air pollution associated with public transport systems constitutes a critical yet highly heterogeneous component of urban exposure and represents an important challenge for sustainable urban mobility and environmental health governance. Commuters and transport workers are frequently subjected to pollutant concentrations that exceed those reported by ambient background monitoring networks. This review provides a comprehensive synthesis of the global scientific literature on air quality in public transport microenvironments—including buses, bus stops, terminals, and underground stations—through a multidimensional analytical framework that considers climatic classification, socio-economic context, meteorological drivers, transport microenvironment typology, sampling strategies, analytical techniques, and exposure metrics. A large body of peer-reviewed studies published worldwide was examined to identify dominant patterns, methodological trends, and persistent knowledge gaps. Across regions, the evidence consistently reports elevated concentrations of particulate matter (PM 2.5 , PM 10 , and ultrafine particles) and traffic-related gaseous pollutants, particularly within confined or poorly ventilated environments and during peak traffic periods. Marked geographical, climatic, and socio-economic imbalances are evident, with most studies conducted in temperate and tropical climates and in countries with very high or high Human Development Index, whereas arid, continental, and low-HDI regions remain substantially underrepresented. From a methodological perspective, the literature is dominated by short- to intermediate-term monitoring campaigns relying on active sampling, mobile measurements, and increasingly calibrated low-cost sensors, while long-term stationary observations and standardized integrative monitoring frameworks remain scarce. Although advanced analytical approaches—such as chemical characterization, environmental magnetism, receptor modeling, computational fluid dynamics, and inhaled dose assessment—are increasingly applied, their systematic integration remains limited. Overall, this review reveals persistent methodological, geographical, and conceptual gaps and highlights the urgent need for standardized, interdisciplinary, and long-term monitoring strategies to improve exposure assessment and support evidence-based mitigation policies and sustainable urban transport planning aimed at reducing health risks associated with public transport-related air pollution.
Suggested Citation
Juan J. Pacheco Tovar & Ana G. Castañeda-Miranda & Harald N. Böhnel & Rodrigo Castañeda-Miranda & Luis A. Flores-Chaires & Remberto Sandoval-Aréchiga & Jose R. Gomez-Rodriguez & Alejandro Rodríguez-Tr, 2026.
"Air Pollution in Public Transport Microenvironments: A Global Scoping Review of Exposure, Methods, and Gaps,"
Sustainability, MDPI, vol. 18(9), pages 1-42, May.
Handle:
RePEc:gam:jsusta:v:18:y:2026:i:9:p:4615-:d:1936545
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