BACKGROUND: Epidemiological studies of the health effects of air pollution have traditionally relied upon ground-monitoring stations to measure ambient concentrations. Satellite derived air pollution measures offer the advantage of providing global coverage. OBJECTIVE: To undertake a global assessment of mortality associated with long-term exposure to fine particulate air pollution using remote sensing data. METHODS: Global PM(2.5) exposure levels were derived from the MODIS and MISR satellite instruments. Relative risks and attributable fractions of mortality were modeled using previously developed concentration-response functions for the association between PM(2.5) and mortality. RESULTS: The global fraction of adult mortality attributable to the anthropogenic component of PM(2.5) (95% CI) was 8.0% (5.3-10.5) for cardiopulmonary disease, 12.8% (5.9-18.5) for lung cancer, and 9.4% (6.6-11.8) for ischemic heart disease. CONCLUSION: This study demonstrates the feasibility of using satellite derived pollution concentrations in assessing the population health impacts of air pollution at the global scale. This approach leads to global estimates of mortality attributable to PM(2.5) that are greater than those based on fixed site ground-level measures of urban PM(2.5), but more similar to estimates based on global chemical transport model simulations of anthropogenic PM(2.5).
BACKGROUND: Epidemiological studies of the health effects of air pollution have traditionally relied upon ground-monitoring stations to measure ambient concentrations. Satellite derived air pollution measures offer the advantage of providing global coverage. OBJECTIVE: To undertake a global assessment of mortality associated with long-term exposure to fine particulate air pollution using remote sensing data. METHODS: Global PM(2.5) exposure levels were derived from the MODIS and MISR satellite instruments. Relative risks and attributable fractions of mortality were modeled using previously developed concentration-response functions for the association between PM(2.5) and mortality. RESULTS: The global fraction of adult mortality attributable to the anthropogenic component of PM(2.5) (95% CI) was 8.0% (5.3-10.5) for cardiopulmonary disease, 12.8% (5.9-18.5) for lung cancer, and 9.4% (6.6-11.8) for ischemic heart disease. CONCLUSION: This study demonstrates the feasibility of using satellite derived pollution concentrations in assessing the population health impacts of air pollution at the global scale. This approach leads to global estimates of mortality attributable to PM(2.5) that are greater than those based on fixed site ground-level measures of urban PM(2.5), but more similar to estimates based on global chemical transport model simulations of anthropogenic PM(2.5).
Authors: Robert C Levy; Shana Mattoo; Virginia Sawyer; Yingxi Shi; Peter R Colarco; Alexei I Lyapustin; Yujie Wang; Lorraine A Remer Journal: Atmos Meas Tech Date: 2018-07-13 Impact factor: 4.176
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Authors: Loretta Erhunmwunsee; Sam E Wing; Jenny Shen; Hengrui Hu; Ernesto Sosa; Lisa N Lopez; Catherine Raquel; Melissa Sur; Pilar Ibarra-Noriega; Madeline Currey; Janet Lee; Jae Y Kim; Dan J Raz; Arya Amini; Sagus Sampath; Marianna Koczywas; Erminia Massarelli; Howard L West; Karen L Reckamp; Rick A Kittles; Ravi Salgia; Victoria L Seewaldt; Susan L Neuhausen; Stacy W Gray Journal: Cancer Epidemiol Biomarkers Prev Date: 2021-06-04 Impact factor: 4.254