2010
DOI: 10.1016/j.atmosenv.2010.08.026
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Pollution influences on atmospheric composition and chemistry at high northern latitudes: Boreal and California forest fire emissions

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Cited by 138 publications
(138 citation statements)
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“…Chemistry between increased NOx from the ORV and local MA sources in the presence of VOC-laden smoke led to abundant ozone production in the MA, which was supported by co-located smoke tracers and CMAQ model to observation differences. This further emphasizes the complexity and importance of urban interactions with transported smoke within a regime of lower regional O 3 precursor levels and tighter O 3 standards, particularly because wildfires do not generally produce high concentrations of O 3 unless mixed with urban emissions (Singh et al, 2010;Singh et al, 2012). This case shows that the drastic NOx reduction across the ORV may not be enough in future wildfire events and that future events may have significant policy and compliance implications.…”
Section: Discussionmentioning
confidence: 92%
“…Chemistry between increased NOx from the ORV and local MA sources in the presence of VOC-laden smoke led to abundant ozone production in the MA, which was supported by co-located smoke tracers and CMAQ model to observation differences. This further emphasizes the complexity and importance of urban interactions with transported smoke within a regime of lower regional O 3 precursor levels and tighter O 3 standards, particularly because wildfires do not generally produce high concentrations of O 3 unless mixed with urban emissions (Singh et al, 2010;Singh et al, 2012). This case shows that the drastic NOx reduction across the ORV may not be enough in future wildfire events and that future events may have significant policy and compliance implications.…”
Section: Discussionmentioning
confidence: 92%
“…Indeed, aircraft observations collected during POLARCAT-IPY show elevated PAN and CO concentrations in air masses transported from Asian and North American anthropogenic emission regions in summer 2008 (Law et al, 2014, and references therein). Boreal forest fires are also an important source of PAN and, due to their proximity to the Arctic, plumes can be transported to high latitudes during the spring and summer months (Brock et al, 2011;Singh et al, 2010). Whilst little O 3 production appears to occur close to boreal fires (Alvarado et al, 2010;Paris et al, 2010), several recent studies have shown O 3 production downwind from boreal fires in the Arctic during the summer months (Wespes et al, 2012;Parrington et al, 2012;Thomas et al, 2013).…”
Section: Arcticmentioning
confidence: 99%
“…High-altitude greatly increases susceptibility to stratospheric influence; for days when observed O 3 exceeds 70 ppb at monitoring sites in the western states of EPA Region 8 during April-June of 2010, Lin et al (2012a) find that median values of stratospheric O 3 in the AM3 model are 10 ppb lower at the lower elevation AQS sites than at high-elevation sites. Episodic wildfires also contribute to high-O 3 events (e.g., Jaffe and Wigder, 2012;McKeen et al, 2002;Mueller and Mallard, 2011), though Singh et al (2010) found little O 3 production in wildfire plumes in California unless mixing with an urban plume occurred. The role of stratospheric intrusions and wildfires in contributing to differences between AM3 and GEOS-Chem high-NAB events is considered in Section 3.4.…”
Section: Review Of Prior Model Estimates For Nab and Its Componentsmentioning
confidence: 99%