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Environ Int
Title: | Identification of ozone sensitivity for NO(2) and secondary HCHO based on MAX-DOAS measurements in northeast China |
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Author(s): | Xue J; Zhao T; Luo Y; Miao C; Su P; Liu F; Zhang G; Qin S; Song Y; Bu N; Xing C; |
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Address: | "School of Environmental Science, Liaoning University, Shenyang 110036, China. Liaoning Science and Technology Center for Ecological and Environmental Protection, Shenyang 110161, China. School of Environmental Science, Liaoning University, Shenyang 110036, China; Key Laboratory of Wetland Ecology and Environment Research in Cold Regions of Heilongjiang Province, Harbin University, 150086, China. Electronic address: bunaishun@lnu.edu.cn. Key Lab of Environmental Optics & Technology, Anhui Institute of Optics and Fine Mechanics, Hefei Institutes of Physical Science, Chinese Academy of Sciences, Hefei 230031, China. Electronic address: xingcz@aiofm.ac.cn" |
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Journal Title: | Environ Int |
Year: | 2022 |
Volume: | 20211224 |
Issue: | |
Page Number: | 107048 - |
DOI: | 10.1016/j.envint.2021.107048 |
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ISSN/ISBN: | 1873-6750 (Electronic) 0160-4120 (Linking) |
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Abstract: | "In this study, tropospheric formaldehyde (HCHO) vertical column densities (VCDs) were measured using multi-axis differential optical absorption spectroscopy (MAX-DOAS) from January to November 2019 in Shenyang, Northeast China. The maximum HCHO VCD value appeared in the summer (1.74 x 10(16) molec/cm(2)), due to increased photo-oxidation of volatile organic compounds (VOCs). HCHO concentrations increased from 08:00 and peaked near 13:00, which was mainly attributed to the increased release of isoprene from plants and enhanced photolysis at noon. The HCHO VCDs observed by MAX-DOAS and OMI have a good correlation coefficient (R) of 0.78, and the contributions from primary and secondary HCHO sources were distinguished by the multi-linear regression model. The anthropogenic emissions showed unobvious seasonal variations, and the primary HCHO was relatively stable in Shenyang. Secondary HCHO contributed 82.62%, 83.90%, 78.90%, and 41.53% to the total measured ambient HCHO during the winter, spring, summer, and autumn, respectively. We also found a good correlation (R = 0.78) between enhanced vegetation index (EVI) and HCHO VCDs, indicating that the oxidation of biogenic volatile organic compounds (BVOCs) was the main source of HCHO. The ratio of secondary HCHO to nitrogen dioxide (NO(2)) was used as the tracer to analyze O(3)-NO(x)-VOC sensitivities. We found that the VOC-limited, VOC-NO(x)-limited, and NO(x)-limited regimes made up 93.67%, 6.23%, 0.11% of the overall measurements, respectively. In addition, summertime ozone (O(3)) sensitivity changed from VOC-limited in the morning to VOC-NO(x)-limited in the afternoon. Therefore, this study offers information on HCHO sources and corresponding O(3) production sensitivities to support strategic management decisions" |
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Keywords: | *Air Pollutants/analysis China Environmental Monitoring/methods Nitrogen Dioxide/analysis *Ozone/analysis Spectrum Analysis *Volatile Organic Compounds/analysis Formaldehyde Hcho/no(2) Max-doas Ozone production sensitivity Secondary source; |
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Notes: | "MedlineXue, Jiexiao Zhao, Ting Luo, Yifu Miao, Congke Su, Pinjie Liu, Feng Zhang, Guohui Qin, Sida Song, Youtao Bu, Naishun Xing, Chengzhi eng Research Support, Non-U.S. Gov't Netherlands 2021/12/28 Environ Int. 2022 Feb; 160:107048. doi: 10.1016/j.envint.2021.107048. Epub 2021 Dec 24" |
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Citation: El-Sayed AM 2024. The Pherobase: Database of Pheromones and Semiochemicals. <http://www.pherobase.com>.
© 2003-2024 The Pherobase - Extensive Database of Pheromones and Semiochemicals. Ashraf M. El-Sayed.
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