SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2954657411> ?p ?o ?g. }

Showing items 1 to 100 of ±164 with 100 items per page.

W2954657411 endingPage "14415" @default.
W2954657411 startingPage "14403" @default.
W2954657411 abstract "Abstract. Secondary organic aerosol (SOA) formation from biogenic precursors is affected by anthropogenic emissions, which are not well understood in polluted areas. In this study, we accomplished a year-round campaign at nine sites in polluted areas located in the Pearl River Delta (PRD) region during 2015. We measured typical biogenic SOA (BSOA) tracers from isoprene, monoterpenes, and β-caryophyllene, as well as major gaseous and particulate pollutants and investigated the impact of anthropogenic pollutants on BSOA formation. The concentrations of BSOA tracers were in the range of 45.4 to 109 ng m−3 with the majority composed of products from monoterpenes (SOAM, 47.2±9.29 ng m−3), isoprene (SOAI, 23.1±10.8 ng m−3), and β-caryophyllene (SOAC, 3.85±1.75 ng m−3). We found that atmospheric oxidants, Ox (O3 plus NO2), and sulfate correlated well with later-generation SOAM tracers, but this was not the case for first-generation SOAM products. This suggested that high Ox and sulfate levels could promote the formation of later-generation SOAM products, which probably led to the relatively aged SOAM that we observed in the PRD. For the SOAI tracers, both 2-methylglyceric acid (NO/NO2-channel product) and the ratio of 2-methylglyceric acid to 2-methyltetrols (HO2-channel products) exhibit NOx dependence, indicating the significant impact of NOx on SOAI formation pathways. The SOAC tracer was elevated in winter at all sites and was positively correlated with levoglucosan, Ox, and sulfate. Thus, the unexpected increase in SOAC in wintertime might be highly associated with the enhancement of biomass burning, O3 chemistry, and the sulfate component in the PRD. The BSOAs that were estimated using the SOA tracer approach showed the highest concentration in fall and the lowest concentration in spring with an annual average concentration of 1.68±0.40 µg m−3. SOAM dominated the BSOA mass all year round. We also found that BSOA correlated well with sulfate and Ox. This implied a significant effect from anthropogenic pollutants on BSOA formation and highlighted that we could reduce BSOA by controlling the anthropogenic emissions of sulfate and Ox precursors in polluted regions." @default.
W2954657411 created "2019-07-12" @default.
W2954657411 creator A5004055972 @default.
W2954657411 creator A5007769678 @default.
W2954657411 creator A5013451596 @default.
W2954657411 creator A5018453894 @default.
W2954657411 creator A5027835055 @default.
W2954657411 creator A5052663273 @default.
W2954657411 creator A5063592070 @default.
W2954657411 creator A5064970788 @default.
W2954657411 creator A5065875068 @default.
W2954657411 creator A5076500400 @default.
W2954657411 creator A5079796683 @default.
W2954657411 creator A5081435173 @default.
W2954657411 creator A5087646916 @default.
W2954657411 date "2019-11-28" @default.
W2954657411 modified "2023-10-12" @default.
W2954657411 title "Impact of anthropogenic emissions on biogenic secondary organic aerosol: observation in the Pearl River Delta, southern China" @default.
W2954657411 cites W1259800230 @default.
W2954657411 cites W1499375438 @default.
W2954657411 cites W1546716564 @default.
W2954657411 cites W1614117239 @default.
W2954657411 cites W1900489952 @default.
W2954657411 cites W1926344391 @default.
W2954657411 cites W1958787480 @default.
W2954657411 cites W1966779205 @default.
W2954657411 cites W1968862760 @default.
W2954657411 cites W1974047321 @default.
W2954657411 cites W1984858137 @default.
W2954657411 cites W1986262320 @default.
W2954657411 cites W1987244498 @default.
W2954657411 cites W1988467524 @default.
W2954657411 cites W1989889548 @default.
W2954657411 cites W1995014213 @default.
W2954657411 cites W2000228553 @default.
W2954657411 cites W2021277019 @default.
W2954657411 cites W2023868953 @default.
W2954657411 cites W2029604856 @default.
W2954657411 cites W2044507851 @default.
W2954657411 cites W2048630409 @default.
W2954657411 cites W2048640559 @default.
W2954657411 cites W2051538165 @default.
W2954657411 cites W2058806796 @default.
W2954657411 cites W2062353037 @default.
W2954657411 cites W2066887109 @default.
W2954657411 cites W2067732080 @default.
W2954657411 cites W2069485424 @default.
W2954657411 cites W2079702179 @default.
W2954657411 cites W2080163253 @default.
W2954657411 cites W2080394203 @default.
W2954657411 cites W2091283792 @default.
W2954657411 cites W2092931678 @default.
W2954657411 cites W2121966618 @default.
W2954657411 cites W2122574093 @default.
W2954657411 cites W2135497701 @default.
W2954657411 cites W2138694888 @default.
W2954657411 cites W2151040751 @default.
W2954657411 cites W2151507747 @default.
W2954657411 cites W2156432006 @default.
W2954657411 cites W2160885731 @default.
W2954657411 cites W2167612874 @default.
W2954657411 cites W2171877122 @default.
W2954657411 cites W2194383121 @default.
W2954657411 cites W2313108540 @default.
W2954657411 cites W2345790533 @default.
W2954657411 cites W2413589609 @default.
W2954657411 cites W2464341360 @default.
W2954657411 cites W2516720299 @default.
W2954657411 cites W2561915121 @default.
W2954657411 cites W2769254459 @default.
W2954657411 cites W2781802033 @default.
W2954657411 cites W2795796930 @default.
W2954657411 cites W2808869101 @default.
W2954657411 cites W2810644218 @default.
W2954657411 cites W2883403128 @default.
W2954657411 cites W2891496109 @default.
W2954657411 cites W2955601895 @default.
W2954657411 cites W4236028544 @default.
W2954657411 cites W903961185 @default.
W2954657411 doi "https://doi.org/10.5194/acp-19-14403-2019" @default.
W2954657411 hasPublicationYear "2019" @default.
W2954657411 type Work @default.
W2954657411 sameAs 2954657411 @default.
W2954657411 citedByCount "30" @default.
W2954657411 countsByYear W29546574112020 @default.
W2954657411 countsByYear W29546574112021 @default.
W2954657411 countsByYear W29546574112022 @default.
W2954657411 countsByYear W29546574112023 @default.
W2954657411 crossrefType "journal-article" @default.
W2954657411 hasAuthorship W2954657411A5004055972 @default.
W2954657411 hasAuthorship W2954657411A5007769678 @default.
W2954657411 hasAuthorship W2954657411A5013451596 @default.
W2954657411 hasAuthorship W2954657411A5018453894 @default.
W2954657411 hasAuthorship W2954657411A5027835055 @default.
W2954657411 hasAuthorship W2954657411A5052663273 @default.
W2954657411 hasAuthorship W2954657411A5063592070 @default.
W2954657411 hasAuthorship W2954657411A5064970788 @default.
W2954657411 hasAuthorship W2954657411A5065875068 @default.