Geddes, J.A.Martin, R.V.Boys, B.L.van Donkelaar, A.2021-09-012021-09-012016J.A. Geddes, R.V. Martin, B.L. Boys, A. van Donkelaar. 2016. "Long-term trends worldwide in ambient NO2 concentrations inferred from satellite observations." Environmental Health Perspectives (Online), Volume 124, Issue 3, pp. 281 - 281.1552-9924https://hdl.handle.net/2144/42963BACKGROUND: Air pollution is associated with morbidity and premature mortality. Satellite remote sensing provides globally consistent decadal-scale observations of ambient nitrogen dioxide (NO2) pollution. OBJECTIVE: We determined global population-weighted annual mean NO2 concentrations from 1996 through 2012. METHODS: We used observations of NO2 tropospheric column densities from three satellite instruments in combination with chemical transport modeling to produce a global 17-year record of ground-level NO2 at 0.1° × 0.1° resolution. We calculated linear trends in population-weighted annual mean NO2 (PWMNO2) concentrations in different regions around the world. RESULTS: We found that PWMNO2 in high-income North America (Canada and the United States) decreased more steeply than in any other region, having declined at a rate of –4.7%/year [95% confidence interval (CI): –5.3, –4.1]. PWMNO2 decreased in western Europe at a rate of –2.5%/year (95% CI: –3.0, –2.1). The highest PWMNO2 occurred in high-income Asia Pacific (predominantly Japan and South Korea) in 1996, with a subsequent decrease of –2.1%/year (95% CI: –2.7, –1.5). In contrast, PWMNO2 almost tripled in East Asia (China, North Korea, and Taiwan) at a rate of 6.7%/year (95% CI: 6.0, 7.3). The satellite-derived estimates of trends in ground-level NO2 were consistent with regional trends inferred from data obtained from ground-station monitoring networks in North America (within 0.7%/year) and Europe (within 0.3%/year). Our rankings of regional average NO2 and long-term trends differed from the satellite-derived estimates of fine particulate matter reported elsewhere, demonstrating the utility of both indicators to describe changing pollutant mixtures. CONCLUSIONS: Long-term trends in satellite-derived ambient NO2 provide new information about changing global exposure to ambient air pollution. Our estimates are publicly available at http://fizz.phys.dal.ca/~atmos/martin/?page_id=232.p. 281en-USReproduced from Environmental Health Perspectives with permission from the authors.Science & technologyLife sciences & biomedicineEnvironmental sciencesPublic, environmental & occupational healthToxicologyEnvironmental sciences & ecologyFine particulate matterNitrogen dioxideAir pollutionUnited StatesTime seriesEconomic recessionTropospheric NO2MortalityEmissionsHealthAir pollutantsAir pollutionAtmosphereEnvironmental exposureEnvironmental monitoringHumansModels, chemicalNitrogen dioxideSatellite imageryEnvironmental sciencesMedical and health sciencesArticle0000-0001-7573-6133 (Geddes, JA)183965