Author(s): Grabow ML, Spark SN, Holloway T, Stone B, Mednic AC, et al.
Background: Automobile exhaust contains precursors to ozone and fine particulate matter (PM ≤ 2.5 µm in aerodynamic diameter; PM2.5), posing health risks. Dependency on car commuting also reduces physical fitness opportunities.
Methods: We simulated census-tract level changes in hourly pollutant concentrations from the elimination of automobile round trips ≤ 8 km in 11 metropolitan areas in the upper midwestern United States using the Community Multiscale Air Quality (CMAQ) model. Next, we estimated annual changes in health outcomes and monetary costs expected from pollution changes using the U.S. Environmental Protection Agency Benefits Mapping Analysis Program (BenMAP). In addition, we used the World Health Organization Health Economic Assessment Tool (HEAT) to calculate benefits of increased physical activity if 50% of short trips were made by bicycle.
Results: We estimate that, by eliminating these short automobile trips, annual average urban PM2.5 would decline by 0.1 µg/m3 and that summer ozone (O3) would increase slightly in cities but decline regionally, resulting in net health benefits of $4.94 billion/year [95% confidence interval (CI): $0.2 billion, $13.5 billion), with 25% of PM2.5 and most O3 benefits to populations outside metropolitan areas. Across the study region of approximately 31.3 million people and 37,000 total square miles, mortality would decline by approximately 1,295 deaths/year (95% CI: 912, 1,636) because of improved air quality and increased exercise. Making 50% of short trips by bicycle would yield savings of approximately $3.8 billion/year from avoided mortality and reduced health care costs (95% CI: $2.7 billion, $5.0 billion]. We estimate that the combined benefits of improved air quality and physical fitness would exceed $8 billion/year.
Conclusion: Our findings suggest that significant health and economic benefits are possible if bicycling replaces short car trips. Less dependence on automobiles in urban areas would also improve health in downwind rural settings.
Referred From: https://pubmed.ncbi.nlm.nih.gov/22049372/
Author(s): Mcmichael AJ, Woodruff RE, Hales S
Author(s): Astrom DO
Author(s): Huang CR
Author(s): Beguin A
Author(s): Wheeler T, Braun JV
Author(s): Kairy DA
Author(s): Hilty DM
Author(s): Holmner A
Author(s): Connor A, Lillywhite R, Cooke MW
Author(s): Wootton R, Tait A, Croft A
Author(s): Wootton R, Bahaadinbeigy K, Hailey D
Author(s): Lewis D, Tranter G, Axford AT
Author(s): Nicogossian AE, Doarn CR