Historical trends in [PM.sub.2.5]-related premature mortality during 1990-2010 across the Northern Hemisphere

BACKGROUND: Air quality across the northern hemisphere over the past two decades has witnessed dramatic changes, with continuous improvement in developed countries in North America and Europe, but a contrasting sharp deterioration in developing regions of Asia. OBJECTIVE: This study investigates the...

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Veröffentlicht in:	Environmental health perspectives 2017-03
Hauptverfasser:	Wang, Jiandong, Xing, Jia, Mathur, Rohit, Pleim, Jonathan E, Wang, Shuxiao, Hogrefe, Christian, Gan, Chuen-Meei, Wong, David C, Hao, Jiming
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creator	Wang, Jiandong Xing, Jia Mathur, Rohit Pleim, Jonathan E Wang, Shuxiao Hogrefe, Christian Gan, Chuen-Meei Wong, David C Hao, Jiming
description	BACKGROUND: Air quality across the northern hemisphere over the past two decades has witnessed dramatic changes, with continuous improvement in developed countries in North America and Europe, but a contrasting sharp deterioration in developing regions of Asia. OBJECTIVE: This study investigates the historical trend in the long-term exposure to [PM.sub.2.5] and [PM.sub.2.5]-related premature mortality ([PM.sub.2.5]-mortality) and its response to changes in emission that occurred during 1990-2010 across the northern hemisphere. Implications for future trends in human exposure to air pollution in both developed and developing regions of the world are discussed. METHODS: We employed the integrated exposure-response model developed by Health Effects Institute to estimate the [PM.sub.2.5]-mortality. The 1990-2010 annual average [PM.sub.2.5] concentrations were obtained from the simulations using the WRF-CMAQ model. Emission mitigation efficiencies of sulfur dioxide (S[O.sub.2]), nitrogen oxides (N[O.sub.x]), ammonia (N[H.sub.3]), and primary PM are estimated from the [PM.sub.2.5]-mortality responses to the emission variations. RESULTS: Estimated [PM.sub.2.5]-mortalities in East Asia and South Asia increased by 21% and 85% respectively, from 866,000 and 578,000 in 1990, to 1,048,000 and 1,068,000 in 2010. [PM.sub.2.5]-mortalities in developed regions (i.e., Europe and high-income North America) decreased substantially by 67% and 58% respectively. CONCLUSIONS: Over the past two decades, correlations between population and [PM.sub.2.5] have become weaker in Europe and North America due to air pollution controls but stronger in East Asia due to deteriorating air quality. Mitigation of primary PM appears to be the most efficient way for increasing health benefits (i.e., providing the largest mortality reduction per unit emissions). However, reductions in emissions of N[H.sub.3] are needed to maximize the effectiveness of N[O.sub.x] emission controls.
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OBJECTIVE: This study investigates the historical trend in the long-term exposure to [PM.sub.2.5] and [PM.sub.2.5]-related premature mortality ([PM.sub.2.5]-mortality) and its response to changes in emission that occurred during 1990-2010 across the northern hemisphere. Implications for future trends in human exposure to air pollution in both developed and developing regions of the world are discussed. METHODS: We employed the integrated exposure-response model developed by Health Effects Institute to estimate the [PM.sub.2.5]-mortality. The 1990-2010 annual average [PM.sub.2.5] concentrations were obtained from the simulations using the WRF-CMAQ model. Emission mitigation efficiencies of sulfur dioxide (S[O.sub.2]), nitrogen oxides (N[O.sub.x]), ammonia (N[H.sub.3]), and primary PM are estimated from the [PM.sub.2.5]-mortality responses to the emission variations. RESULTS: Estimated [PM.sub.2.5]-mortalities in East Asia and South Asia increased by 21% and 85% respectively, from 866,000 and 578,000 in 1990, to 1,048,000 and 1,068,000 in 2010. [PM.sub.2.5]-mortalities in developed regions (i.e., Europe and high-income North America) decreased substantially by 67% and 58% respectively. CONCLUSIONS: Over the past two decades, correlations between population and [PM.sub.2.5] have become weaker in Europe and North America due to air pollution controls but stronger in East Asia due to deteriorating air quality. Mitigation of primary PM appears to be the most efficient way for increasing health benefits (i.e., providing the largest mortality reduction per unit emissions). 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OBJECTIVE: This study investigates the historical trend in the long-term exposure to [PM.sub.2.5] and [PM.sub.2.5]-related premature mortality ([PM.sub.2.5]-mortality) and its response to changes in emission that occurred during 1990-2010 across the northern hemisphere. Implications for future trends in human exposure to air pollution in both developed and developing regions of the world are discussed. METHODS: We employed the integrated exposure-response model developed by Health Effects Institute to estimate the [PM.sub.2.5]-mortality. The 1990-2010 annual average [PM.sub.2.5] concentrations were obtained from the simulations using the WRF-CMAQ model. Emission mitigation efficiencies of sulfur dioxide (S[O.sub.2]), nitrogen oxides (N[O.sub.x]), ammonia (N[H.sub.3]), and primary PM are estimated from the [PM.sub.2.5]-mortality responses to the emission variations. RESULTS: Estimated [PM.sub.2.5]-mortalities in East Asia and South Asia increased by 21% and 85% respectively, from 866,000 and 578,000 in 1990, to 1,048,000 and 1,068,000 in 2010. [PM.sub.2.5]-mortalities in developed regions (i.e., Europe and high-income North America) decreased substantially by 67% and 58% respectively. CONCLUSIONS: Over the past two decades, correlations between population and [PM.sub.2.5] have become weaker in Europe and North America due to air pollution controls but stronger in East Asia due to deteriorating air quality. Mitigation of primary PM appears to be the most efficient way for increasing health benefits (i.e., providing the largest mortality reduction per unit emissions). 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OBJECTIVE: This study investigates the historical trend in the long-term exposure to [PM.sub.2.5] and [PM.sub.2.5]-related premature mortality ([PM.sub.2.5]-mortality) and its response to changes in emission that occurred during 1990-2010 across the northern hemisphere. Implications for future trends in human exposure to air pollution in both developed and developing regions of the world are discussed. METHODS: We employed the integrated exposure-response model developed by Health Effects Institute to estimate the [PM.sub.2.5]-mortality. The 1990-2010 annual average [PM.sub.2.5] concentrations were obtained from the simulations using the WRF-CMAQ model. Emission mitigation efficiencies of sulfur dioxide (S[O.sub.2]), nitrogen oxides (N[O.sub.x]), ammonia (N[H.sub.3]), and primary PM are estimated from the [PM.sub.2.5]-mortality responses to the emission variations. RESULTS: Estimated [PM.sub.2.5]-mortalities in East Asia and South Asia increased by 21% and 85% respectively, from 866,000 and 578,000 in 1990, to 1,048,000 and 1,068,000 in 2010. [PM.sub.2.5]-mortalities in developed regions (i.e., Europe and high-income North America) decreased substantially by 67% and 58% respectively. CONCLUSIONS: Over the past two decades, correlations between population and [PM.sub.2.5] have become weaker in Europe and North America due to air pollution controls but stronger in East Asia due to deteriorating air quality. Mitigation of primary PM appears to be the most efficient way for increasing health benefits (i.e., providing the largest mortality reduction per unit emissions). However, reductions in emissions of N[H.sub.3] are needed to maximize the effectiveness of N[O.sub.x] emission controls.</abstract><pub>National Institute of Environmental Health Sciences</pub><doi>10.1289/EHP298</doi></addata></record>
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title	Historical trends in [PM.sub.2.5]-related premature mortality during 1990-2010 across the Northern Hemisphere
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