2015
DOI: 10.1080/10962247.2015.1040526
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Air Quality and Climate Connections

Abstract: Multiple linkages connect air quality and climate change. Many air pollutant sources also emit carbon dioxide (CO 2 ), the dominant anthropogenic greenhouse gas (GHG). The two main contributors to non-attainment of U.S. ambient air quality standards, ozone (O 3 ) and particulate matter (PM), interact with radiation, forcing climate change. PM warms by absorbing sunlight (e.g., black carbon) or cools by scattering sunlight (e.g., sulfates) and interacts with clouds; these radiative and microphysical interaction… Show more

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Cited by 402 publications
(321 citation statements)
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References 389 publications
(556 reference statements)
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“…AerChemMIP aims to identify the patterns of chemical change at the global and regional levels, as well as the ERF associated with NTCF mitigation efforts (focusing on policy choices in areas 1 and 2 above) and their impact on climate (surface temperature and precipitation) and other environmental change (health, ecosystem, visibility, etc. ) between 2015 and 2055 (as the time frame over which aerosol and precursor emissions are expected to be significant; Shindell et al, 2012a;Fiore et al, 2015). Such impact analysis can be performed by contrasting two simulations: (a) a reference with weak air quality policies and relatively high aerosol and ozone precursor emissions; and (b) a perturbation experiment where strong air quality policies are applied, leading to much reduced NTCF emissions.…”
Section: How Have Anthropogenic Emissions Contributed Tomentioning
confidence: 99%
“…AerChemMIP aims to identify the patterns of chemical change at the global and regional levels, as well as the ERF associated with NTCF mitigation efforts (focusing on policy choices in areas 1 and 2 above) and their impact on climate (surface temperature and precipitation) and other environmental change (health, ecosystem, visibility, etc. ) between 2015 and 2055 (as the time frame over which aerosol and precursor emissions are expected to be significant; Shindell et al, 2012a;Fiore et al, 2015). Such impact analysis can be performed by contrasting two simulations: (a) a reference with weak air quality policies and relatively high aerosol and ozone precursor emissions; and (b) a perturbation experiment where strong air quality policies are applied, leading to much reduced NTCF emissions.…”
Section: How Have Anthropogenic Emissions Contributed Tomentioning
confidence: 99%
“…Future climate change can significantly affect synoptic-scale circulation patterns and local meteorology, modifying the transport and deposition of PM 2.5 (Fiore et al, 2015;Jiang et al, 2013;Mickley et al, 2004). Based on the demonstrated strong relationships of synoptic circulation and local meteorology on daily PM 2.5 , we build a regression model to infer how interannual variations of local and synoptic meteorology affect interannual PM 2.5 variability, which we then apply to future climate 15…”
Section: Synoptic Frequency As a Metric For Climate Change Impact Onmentioning
confidence: 99%
“…We additionally derive metrics from the reanalysis data that relate to air stagnation, as stagnation describes the basic meteorological conditions that are thought to exacerbate the worst pollution levels (e.g., Jacob and Winner, 2009;Fiore et al, 2012Fiore et al, , 2015and references therein). Stagnation has also been used as a proxy for air quality under future climate change (e.g., Horton et al, 2014).…”
Section: Meteorological Reanalysis Datamentioning
confidence: 99%