Investigation of OH-reactivity budget in the isoprene, α-pinene and m-xylene oxidation with OH under high NOx conditions

“…They also found that BVOC-derived secondary products were less important for missing OH reactivity than those from aromatics in the same condition. 46 Moreover, their findings establish the importance of aromatic-and BVOC-derived products when investigating missing OH reactivity; however, only a weak similarity of the spatial distributions between pinene and missing OH reactivity was observed in our study. Figure S4 shows the spatial distributions of H 2 , isoprene, and aromatics, in which isoprene showed an identical trend as temperature (or solar radiation).…”

“…Sakamoto et al reported that aromatic-derived secondary products could double the productivity of OH reactivity due to VOC oxidation in a chamber-based observation. They also found that BVOC-derived secondary products were less important for missing OH reactivity than those from aromatics in the same condition .…”

“…Sakamoto et al reported that aromatic-derived secondary products could double the productivity of OH reactivity due to VOC oxidation in a chamber-based observation. They also found that BVOC-derived secondary products were less important for missing OH reactivity than those from aromatics in the same condition . Moreover, their findings establish the importance of aromatic- and BVOC-derived products when investigating missing OH reactivity; however, only a weak similarity of the spatial distributions between pinene and missing OH reactivity was observed in our study.…”

Potential Factors Contributing to Ozone Production in AQUAS–Kyoto Campaign in Summer 2020: Natural Source-Related Missing OH Reactivity and Heterogeneous HO₂/RO₂ Loss

“…They also found that BVOC-derived secondary products were less important for missing OH reactivity than those from aromatics in the same condition. 46 Moreover, their findings establish the importance of aromatic-and BVOC-derived products when investigating missing OH reactivity; however, only a weak similarity of the spatial distributions between pinene and missing OH reactivity was observed in our study. Figure S4 shows the spatial distributions of H 2 , isoprene, and aromatics, in which isoprene showed an identical trend as temperature (or solar radiation).…”

“…Sakamoto et al reported that aromatic-derived secondary products could double the productivity of OH reactivity due to VOC oxidation in a chamber-based observation. They also found that BVOC-derived secondary products were less important for missing OH reactivity than those from aromatics in the same condition .…”

“…Sakamoto et al reported that aromatic-derived secondary products could double the productivity of OH reactivity due to VOC oxidation in a chamber-based observation. They also found that BVOC-derived secondary products were less important for missing OH reactivity than those from aromatics in the same condition . Moreover, their findings establish the importance of aromatic- and BVOC-derived products when investigating missing OH reactivity; however, only a weak similarity of the spatial distributions between pinene and missing OH reactivity was observed in our study.…”

Potential Factors Contributing to Ozone Production in AQUAS–Kyoto Campaign in Summer 2020: Natural Source-Related Missing OH Reactivity and Heterogeneous HO₂/RO₂ Loss

“…As a result, these products were transported downwind by the surface easterly and southerly winds (Figure S10), and the eventual ozone formation was spatially displaced and lagged behind the initial oxidation of isoprene for several hours. In contrast, the photochemical production of ozone from highly reactive alkenes (e.g., propene) and aromatics (e.g., m -xylenes) began immediately after the initial oxidation of these precursors . This difference in the ozone production time scales from reactive AVOCs and from isoprene is consistent with evidence from chamber experiments.…”

“…In contrast, the photochemical production of ozone from highly reactive alkenes (e.g., propene) and aromatics (e.g., m-xylenes) began immediately after the initial oxidation of these precursors. 54 This difference in the ozone production time scales from reactive AVOCs and from isoprene is consistent with evidence from chamber experiments. Compared to BVOCs, temperature-dependent AVOC emissions have a more localized impact on surface ozone.…”

Temperature-Dependent Evaporative Anthropogenic VOC Emissions Significantly Exacerbate Regional Ozone Pollution

Direct evaluation of the ozone production regime in smog chamber experiments