Sulfate Formation Apportionment during Winter Haze Events in North China

Wang, Tiantian; Liu, Mingxu; Liu, Mingyuan; Song, Yu; Xu, Zhenying; Shang, Fang; Huang, Xin; Liao, Wenling; Wang, Weigang; Ge, Maofa; Cao, Junji; Hu, Jingnan; Tang, Guigang; Pan, Yuepeng; Hu, Min; Zhu, Tong

doi:10.1021/acs.est.2c02533

Cited by 31 publications

(47 citation statements)

References 53 publications

(105 reference statements)

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“…This interpretation is consistent with previous studies, which proposed these mechanisms as missing processes in Chinese haze. 17 , 18 , 24 − 26 It is worthy to conclude that AQ(H 2 O 2 ) does not explain this missing SO 4 2– formation during February.…”

Section: Resultsmentioning

confidence: 93%

“…For example, while the importance of NO 2 for SO within the aerosol surface was proposed, 17 follow-up studies have cast doubt on the impact of its reaction. 25,26 Thus, these proposed reactions have been highly controversial arguments. These pollution and haze events over China and their impact on the downstream region should be mitigated, mainly via the reduction of anthropogenic SO 2 emissions.…”

Section: Somentioning

confidence: 99%

“…For example, while the importance of NO 2 for SO 4 2– formation within the aerosol surface was proposed, 17 follow-up studies have cast doubt on the impact of its reaction. 25 , 26 Thus, these proposed reactions have been highly controversial arguments.…”

Section: Introductionmentioning

confidence: 99%

“…However, typical CTMs often underestimate the burden of atmospheric SO 4 2– , particularly in China, , suggesting that some SO 4 2– formation in the atmosphere is missing. To date, heterogeneous SO 4 2– production mechanisms particularly for aerosol surfaces − have been proposed to explain this missing formation such as the enhanced role of the oxidation by reactive nitrogen, − H 2 O 2 , TMI-catalyzed O 2 , − and Mn-catalyzed oxidation. , Nonetheless, the observational evidence has not yet identified a specific mechanism. For example, while the importance of NO 2 for SO 4 2– formation within the aerosol surface was proposed, follow-up studies have cast doubt on the impact of its reaction. , Thus, these proposed reactions have been highly controversial arguments.…”

Section: Introductionmentioning

confidence: 99%

“…To date, heterogeneous SO 4 2– production mechanisms particularly for aerosol surfaces − have been proposed to explain this missing formation such as the enhanced role of the oxidation by reactive nitrogen, − H 2 O 2 , TMI-catalyzed O 2 , − and Mn-catalyzed oxidation. , Nonetheless, the observational evidence has not yet identified a specific mechanism. For example, while the importance of NO 2 for SO 4 2– formation within the aerosol surface was proposed, follow-up studies have cast doubt on the impact of its reaction. , Thus, these proposed reactions have been highly controversial arguments.…”

Section: Introductionmentioning

confidence: 99%

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Role of Dust and Iron Solubility in Sulfate Formation during the Long-Range Transport in East Asia Evidenced by ¹⁷O-Excess Signatures

Itahashi

Hattori

Ito

et al. 2022

Environ. Sci. Technol.

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Numerical models have been developed to elucidate air pollution caused by sulfate aerosols (SO 4 2– ). However, typical models generally underestimate SO 4 2– , and oxidation processes have not been validated. This study improves the modeling of SO 4 2– formation processes using the mass-independent oxygen isotopic composition [ 17 O-excess; Δ 17 O(SO 4 2– )], which reflects pathways from sulfur dioxide (SO 2 ) to SO 4 2– , at the background site in Japan throughout 2015. The standard setting in the Community Multiscale Air Quality (CMAQ) model captured SO 4 2– concentration, whereas Δ 17 O(SO 4 2– ) was underestimated, suggesting that oxidation processes were not correctly represented. The dust inline calculation improved Δ 17 O(SO 4 2– ) because dust-derived increases in cloud-water pH promoted acidity-driven SO 4 2– production, but Δ 17 O(SO 4 2– ) was still overestimated during winter as a result. Increasing solubilities of the transition-metal ions, such as iron, which are a highly uncertain modeling parameter, decreased the overestimated Δ 17 O(SO 4 2– ) in winter. Thus, dust and high metal solubility are essential factors for SO 4 2– formation in the region downstream of China. It was estimated that the remaining mismatch of Δ 17 O(SO 4 2– ) between the observation and model can be explained by the proposed SO 4 2– formation mechanisms in Chinese pollution. These accurately modeled SO 4 2– formation mechanisms validated by Δ 17 O(SO 4 2– ) will contribute to emission regulation strategies required for better air quality and precise climate change predictions over East Asia.

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Section: Resultsmentioning

confidence: 93%

Section: Somentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

See 3 more Smart Citations

Role of Dust and Iron Solubility in Sulfate Formation during the Long-Range Transport in East Asia Evidenced by ¹⁷O-Excess Signatures

Itahashi

Hattori

Ito

et al. 2022

Environ. Sci. Technol.

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Recent Progress in Atmospheric Chemistry Research in China: Establishing a Theoretical Framework for the “Air Pollution Complex”

et al. 2023

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Atmospheric chemistry research has been growing rapidly in China in the last 25 years since the concept of the “air pollution complex” was first proposed by Professor Xiaoyan TANG in 1997. For papers published in 2021 on air pollution (only papers included in the Web of Science Core Collection database were considered), more than 24 000 papers were authored or co-authored by scientists working in China. In this paper, we review a limited number of representative and significant studies on atmospheric chemistry in China in the last few years, including studies on (1) sources and emission inventories, (2) atmospheric chemical processes, (3) interactions of air pollution with meteorology, weather and climate, (4) interactions between the biosphere and atmosphere, and (5) data assimilation. The intention was not to provide a complete review of all progress made in the last few years, but rather to serve as a starting point for learning more about atmospheric chemistry research in China. The advances reviewed in this paper have enabled a theoretical framework for the air pollution complex to be established, provided robust scientific support to highly successful air pollution control policies in China, and created great opportunities in education, training, and career development for many graduate students and young scientists. This paper further highlights that developing and low-income countries that are heavily affected by air pollution can benefit from these research advances, whilst at the same time acknowledging that many challenges and opportunities still remain in atmospheric chemistry research in China, to hopefully be addressed over the next few decades.

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Source apportionment of PM2.5 in Thailand’s deep south by principal component analysis and impact of transboundary haze

Chaisongkaew

Inerb

Mahasakpan

et al. 2023

Environ Sci Pollut Res

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Atmospheric particulate matter smaller than 2.5 micron (PM 2.5 ) was evaluated at four sites in the lower southern part of Thailand during 2019-2020. Mass concentration and chemical bound-PM, including carbon composition e.g. organic carbon (OC) and elemental carbon (EC), polycyclic aromatic hydrocarbons (PAHs), and inorganic elements, were analyzed. The PM 2.5 emission sources were identi ed by Principal Components Analysis. The average mass concentrations of PM 2.5 in the normal period, which represents clean background air, from four sites was 3.5-5.1 µg/m 3 , whereas during the haze period, it rose to 5.4-13.5 µg/m 3 . The average OC/EC ratio in PM2.5 was 2.7-3.8 during the normal period, suggesting mixed sources of both vehicle combustion and biomass burning, whereas during strong haze period, the ratio rose to 3.3-5.2 indicating that biomass burning was a dominant source. This was consistent with the PAH diagnostic ratios. The average total PAHs and BaP-TEQ of PM 2.5 during strong haze period were ~1.3-1.7 and ~1.2-1.9 times higher than those the normal period. The effects of external sources, especially the transboundary haze from peatland res, are quantitatively pronounced because the background air in the study locations was generally clean.The PCA indicated that vehicle emission, local biomass burning, and secondary particles played a key role during normal period, whereas open biomass burning dominated during the haze phenomena. Backward trajectory simulations con rmed that the sources of PM during haze period was dominated by peatland re in Sumatra, Indonesia due to south-west wind.

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Sulfate Formation Apportionment during Winter Haze Events in North China

Cited by 31 publications

References 53 publications

Role of Dust and Iron Solubility in Sulfate Formation during the Long-Range Transport in East Asia Evidenced by ¹⁷O-Excess Signatures

Role of Dust and Iron Solubility in Sulfate Formation during the Long-Range Transport in East Asia Evidenced by ¹⁷O-Excess Signatures

Recent Progress in Atmospheric Chemistry Research in China: Establishing a Theoretical Framework for the “Air Pollution Complex”

Source apportionment of PM2.5 in Thailand’s deep south by principal component analysis and impact of transboundary haze

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Sulfate Formation Apportionment during Winter Haze Events in North China

Cited by 31 publications

References 53 publications

Role of Dust and Iron Solubility in Sulfate Formation during the Long-Range Transport in East Asia Evidenced by 17O-Excess Signatures

Role of Dust and Iron Solubility in Sulfate Formation during the Long-Range Transport in East Asia Evidenced by 17O-Excess Signatures

Recent Progress in Atmospheric Chemistry Research in China: Establishing a Theoretical Framework for the “Air Pollution Complex”

Source apportionment of PM2.5 in Thailand’s deep south by principal component analysis and impact of transboundary haze

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Product

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Role of Dust and Iron Solubility in Sulfate Formation during the Long-Range Transport in East Asia Evidenced by ¹⁷O-Excess Signatures

Role of Dust and Iron Solubility in Sulfate Formation during the Long-Range Transport in East Asia Evidenced by ¹⁷O-Excess Signatures