KMS Chongqing Institute of Green and Intelligent Technology, CAS
| Measurement report: PM2:5-bound nitrated aromatic compounds in Xi'an, Northwest China - seasonal variations and contributions to optical properties of brown carbon | |
Yuan, Wei1,6; Huang, Ru-Jin1,2 ; Yang, Lu1; Wang, Ting1,6; Duan, Jing1,6; Guo, Jie1; Ni, Haiyan1,7; Chen, Yang3 ; Chen, Qi4; Li, Yongjie5
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| 2021-03-10 | |
| 摘要 | Nitrated aromatic compounds (NACs) are a group of key chromophores for brown carbon (light-absorbing organic carbon, i.e., BrC) aerosol, which affects radiative forcing. The chemical composition and sources of NACs and their contributions to BrC absorption, however, are still not well understood. In this study, PM2:5-bound NACs in Xi'an, Northwest China, were investigated for 112 daily PM2:5 filter samples from 2015 to 2016. Both the total concentrations and contributions from individual species of NACs show distinct seasonal variations. The seasonally averaged concentrations of NACs are 2.1 (spring), 1.1 (summer), 12.9 (fall), and 56 ng m(-3) (winter). Thereinto, 4-nitrophenol is the major NAC component in spring (58 %). The concentrations of 5-nitrosalicylic acid and 4-nitrophenol dominate in summer (70 %), and the concentrations of 4-nitrocatechol and 4-nitrophenol dominate in fall (58 %) and winter (55 %). The NAC species show different seasonal patterns in concentrations, indicating differences in emissions and formation pathways. Source apportionment results using positive matrix factorization (PMF) further show large seasonal differences in the sources of NACs. Specifically, in summer, NACs were highly influenced by secondary formation and vehicle emissions (similar to 80 %), while in winter, biomass burning and coal combustion contributed the most (similar to 75 %). Furthermore, the light absorption contributions of NACs to BrC are wavelength-dependent and vary greatly by season, with maximum contributions at similar to 330 nm in winter and fall and similar to 320 nm in summer and spring. The differences in the contribution to light absorption are associated with the higher mass fractions of 4-nitrocatechol ((lambda)max = 345 nm) and 4-nitrophenol ((lambda)max = 310 nm) in fall and winter, 4-nitrophenol in spring, and 5-nitrosalicylic acid ((lambda)max = 315 nm) and 4-nitrophenol in summer. The mean contributions of NACs to BrC light absorption at a wavelength of 365 nm in different seasons are 0.14% (spring), 0.09% (summer), 0.36% (fall), and 0.91% (winter), which are about 6-9 times higher than their mass fractional contributions of carbon in total organic carbon. Our results indicate that the composition and sources of NACs have profound impacts on the BrC light absorption. |
| DOI | 10.5194/acp-21-3685-2021 |
| 发表期刊 | ATMOSPHERIC CHEMISTRY AND PHYSICS
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| ISSN | 1680-7316 |
| 卷号 | 21期号:5页码:3685-3697 |
| 通讯作者 | Huang, Ru-Jin(rujin.huang@ieecas.cn) |
| 收录类别 | SCI |
| WOS记录号 | WOS:000627702700001 |
| 语种 | 英语 |
