Andrew Glazener1,2, Haneen Khreis3,4,5,6. 1. Center for Advancing Research in Transportation, Emissions, Energy, and Health (CARTEEH), Texas A&M Transportation Institute (TTI), 2929 Research Parkway, 3135 TAMU, College Station, TX, 77843-3135, USA. 2. Langford College of Architecture, Texas A&M University, College Station, TX, USA. 3. Center for Advancing Research in Transportation, Emissions, Energy, and Health (CARTEEH), Texas A&M Transportation Institute (TTI), 2929 Research Parkway, 3135 TAMU, College Station, TX, 77843-3135, USA. H-Khreis@tti.tamu.edu. 4. ISGlobal, Centre for Research in Environmental Epidemiology (CREAL), Barcelona, Spain. H-Khreis@tti.tamu.edu. 5. Universitat Pompeu Fabra (UPF), Barcelona, Spain. H-Khreis@tti.tamu.edu. 6. CIBER Epidemiologia y Salud Publica (CIBERESP), Madrid, Spain. H-Khreis@tti.tamu.edu.
Abstract
PURPOSE OF REVIEW: By 2050, 70% of the global population will live in urban areas, exposing a greater number of people to specific city-related health risks that will only be exacerbated by climate change. Two prominent health risks are poor air quality and physical inactivity. We aim to review the literature and state the best practices for clean air and active transportation in urban areas. RECENT FINDINGS: Cities have been targeting reductions in air pollution and physical inactivity to improve population health. Oslo, Paris, and Madrid plan on banning cars from their city centers to mitigate climate change, reduce vehicle emissions, and increase walking and cycling. Urban streets are being redesigned to accommodate and integrate various modes of transportation to ensure individuals can become actively mobile and healthy. Investments in pedestrian, cycling, and public transport infrastructure and services can both improve air quality and support active transportation. Emerging technologies like electric and autonomous vehicles are being developed and may reduce air pollution but have limited impact on physical activity. Green spaces too can mitigate air pollution and encourage physical activity. Clean air and active transportation overlap considerably as they are both functions of mobility. The best practices of clean air and active transportation have produced impressive results, which are improved when enacted simultaneously in integrated policy packages. Further research is needed in middle- and low-income countries, using measurements from real-world interventions, tracing air pollution back to the sources responsible, and holistically addressing the entire spectrum of exposures and health outcomes related to transportation.
PURPOSE OF REVIEW: By 2050, 70% of the global population will live in urban areas, exposing a greater number of people to specific city-related health risks that will only be exacerbated by climate change. Two prominent health risks are poor air quality and physical inactivity. We aim to review the literature and state the best practices for clean air and active transportation in urban areas. RECENT FINDINGS: Cities have been targeting reductions in air pollution and physical inactivity to improve population health. Oslo, Paris, and Madrid plan on banning cars from their city centers to mitigate climate change, reduce vehicle emissions, and increase walking and cycling. Urban streets are being redesigned to accommodate and integrate various modes of transportation to ensure individuals can become actively mobile and healthy. Investments in pedestrian, cycling, and public transport infrastructure and services can both improve air quality and support active transportation. Emerging technologies like electric and autonomous vehicles are being developed and may reduce air pollution but have limited impact on physical activity. Green spaces too can mitigate air pollution and encourage physical activity. Clean air and active transportation overlap considerably as they are both functions of mobility. The best practices of clean air and active transportation have produced impressive results, which are improved when enacted simultaneously in integrated policy packages. Further research is needed in middle- and low-income countries, using measurements from real-world interventions, tracing air pollution back to the sources responsible, and holistically addressing the entire spectrum of exposures and health outcomes related to transportation.
Entities:
Keywords:
Active transportation; Air pollution; Best practices; Cities; Clean air; Physical activity; Public health
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