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1. An overview for monitoring and prediction of pathogenic microorganisms in the atmosphere

Author

Jianping Huang, Danfeng Wang, Yongguan Zhu, Zifeng Yang, Maosheng Yao, Xiaoming Shi, Taicheng An, Qiang Zhang, Cunrui Huang, Xinhui Bi, Jiang Li, Zifa Wang, Yongqin Liu, Guibing Zhu, Siyu Chen, Jian Hang, Xinghua Qiu, Weiwei Deng, Huaiyu Tian, Tengfei Zhang, Tianmu Chen, Sijin Liu, Xinbo Lian, Bin Chen, Beidou Zhang, Yingjie Zhao, Rui Wang, and Han Li

Subjects
Aerosol transmission, Epidemic monitoring methods, Epidemic prediction models, Epidemic response, Multidisciplinary cooperation, Science (General), Q1-390
Abstract

Corona virus disease 2019 (COVID-19) has exerted a profound adverse impact on human health. Studies have demonstrated that aerosol transmission is one of the major transmission routes of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2). Pathogenic microorganisms such as SARS-CoV-2 can survive in the air and cause widespread infection among people. Early monitoring of pathogenic microorganism transmission in the atmosphere and accurate epidemic prediction are the frontier guarantee for preventing large-scale epidemic outbreaks. Monitoring of pathogenic microorganisms in the air, especially in densely populated areas, may raise the possibility to detect viruses before people are widely infected and contain the epidemic at an earlier stage. The multi-scale coupled accurate epidemic prediction system can provide support for governments to analyze the epidemic situation, allocate health resources, and formulate epidemic response policies. This review first elaborates on the effects of the atmospheric environment on pathogenic microorganism transmission, which lays a theoretical foundation for the monitoring and prediction of epidemic development. Secondly, the monitoring technique development and the necessity of monitoring pathogenic microorganisms in the atmosphere are summarized and emphasized. Subsequently, this review introduces the major epidemic prediction methods and highlights the significance to realize a multi-scale coupled epidemic prediction system by strengthening the multidisciplinary cooperation of epidemiology, atmospheric sciences, environmental sciences, sociology, demography, etc. By summarizing the achievements and challenges in monitoring and prediction of pathogenic microorganism transmission in the atmosphere, this review proposes suggestions for epidemic response, namely, the establishment of an integrated monitoring and prediction platform for pathogenic microorganism transmission in the atmosphere.

Published
2024
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2. Laboratory studies on the infectivity of human respiratory viruses: Experimental conditions, detections, and resistance to the atmospheric environment

Author

Yaohao Hu, Shuyi Peng, Bojiang Su, Tao Wang, Juying Lin, Wei Sun, Xiaodong Hu, Guohua Zhang, Xinming Wang, Ping'an Peng, and Xinhui Bi

Subjects
Respiratory viruses, Viral infectivity, Laboratory simulation, Atmospheric environmental condition, Airborne transmission, Science (General), Q1-390
Abstract

The environmental stability of infectious viruses in the laboratory setting is crucial to the transmission potential of human respiratory viruses. Different experimental techniques or conditions used in studies over the past decades have led to diverse understandings and predictions for the stability of viral infectivity in the atmospheric environment. In this paper, we review the current knowledge on the effect of simulated atmospheric conditions on the infectivity of respiratory viruses, mainly focusing on influenza viruses and coronaviruses, including severe acute respiratory syndrome coronavirus 2 and Middle East respiratory syndrome coronavirus. First, we summarize the impact of the experimental conditions on viral stability; these involve the methods of viral aerosol generation, storage during aging and collection, the virus types and strains, the suspension matrixes, the initial inoculum volumes and concentrations, and the drying process. Second, we summarize and discuss the detection methods of viral infectivity and their disadvantages. Finally, we integrate the results from the reviewed studies to obtain an overall understanding of the effects of atmospheric environmental conditions on the decay of infectious viruses, especially aerosolized viruses. Overall, this review highlights the knowledge gaps in predicting the ability of viruses to maintain infectivity during airborne transmission.

Published
2024
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3. Involvement of M2 macrophages polarization in PM2.5-induced COPD by upregulating MMP12 via IL4/STAT6 pathway

Author

Xiaolan Guo, Siqi Yang, Huijuan Zhu, Fengdong Liu, Kai Li, Guojun Li, Yuyin Lin, Hongjiao Yu, Wenxi Qiu, Hao Xu, Qiao Liu, Xinran Xie, Yaowei Sun, Peiji Zheng, Bingjie Chen, Zihan Liu, Xiaopeng Yuan, Shuyi Peng, Xinhui Bi, Jingwen Yang, Ning-yi Shao, and Jianwei Dai

Subjects
PM2.5, COPD, M2 macrophage polarization, MMP12, IL-4/STAT6 pathway, Environmental pollution, TD172-193.5, Environmental sciences, GE1-350
Abstract

Biomass-related airborne fine particulate matter (PM2.5) is an important risk factor for chronic obstructive pulmonary disease (COPD). Macrophage polarization has been reported to be involved in PM2.5-induced COPD, but the dynamic characteristics and underlying mechanism of this process remain unclear. Our study established a PM2.5-induced COPD mouse model and revealed that M2 macrophages predominantly presented after 4 and 6 months of PM2.5 exposure, during which a notable increase in MMP12 was observed. Single cell analysis of lung tissues from COPD patients and mice further revealed that M2 macrophages were the dominant macrophage subpopulation in COPD, with MMP12 being involved as a hub gene. In vitro experiments further demonstrated that PM2.5 induced M2 polarization and increased MMP12 expression. Moreover, we found that PM2.5 increased IL-4 expression, STAT6 phosphorylation and nuclear translocation. Nuclear pSTAT6 then bound to the MMP12 promoter region. Furthermore, the inhibition of STAT6 phosphorylation effectively abrogated the PM2.5-induced increase in MMP12. Using a coculture system, we observed a significantly reduced level of E-cadherin in alveolar epithelial cells cocultured with PM2.5-exposed macrophages, while the decrease in E-cadherin was reversed by the addition of an MMP12 inhibitor to the co-culture system. Taken together, these findings indicated that PM2.5 induced M2 macrophage polarization and MMP12 upregulation via the IL-4/STAT6 pathway, which resulted in alveolar epithelial barrier dysfunction and excessive extracellular matrix (ECM) degradation, and ultimately led to COPD progression. These findings may help to elucidate the role of macrophages in COPD, and suggest promising directions for potential therapeutic strategies.

Published
2024
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4. Stability of SARS-CoV-2 in cold-chain transportation environments and the efficacy of disinfection measures

Author

Shuyi Peng, Guojie Li, Yuyin Lin, Xiaolan Guo, Hao Xu, Wenxi Qiu, Huijuan Zhu, Jiaying Zheng, Wei Sun, Xiaodong Hu, Guohua Zhang, Bing Li, Janak L. Pathak, Xinhui Bi, and Jianwei Dai

Subjects
SARS-CoV-2, decay rate analysis, viral activity, low temperature, cold-chain, disinfection method, Microbiology, QR1-502
Abstract

BackgroundLow temperature is conducive to the survival of COVID-19. Some studies suggest that cold-chain environment may prolong the survival of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) and increase the risk of transmission. However, the effect of cold-chain environmental factors and packaging materials on SARS-CoV-2 stability remains unclear.MethodsThis study aimed to reveal cold-chain environmental factors that preserve the stability of SARS-CoV-2 and further explore effective disinfection measures for SARS-CoV-2 in the cold-chain environment. The decay rate of SARS-CoV-2 pseudovirus in the cold-chain environment, on various types of packaging material surfaces, i.e., polyethylene plastic, stainless steel, Teflon and cardboard, and in frozen seawater was investigated. The influence of visible light (wavelength 450 nm-780 nm) and airflow on the stability of SARS-CoV-2 pseudovirus at -18°C was subsequently assessed.ResultsExperimental data show that SARS-CoV-2 pseudovirus decayed more rapidly on porous cardboard surfaces than on nonporous surfaces, including polyethylene (PE) plastic, stainless steel, and Teflon. Compared with that at 25°C, the decay rate of SARS-CoV-2 pseudovirus was significantly lower at low temperatures. Seawater preserved viral stability both at -18°C and with repeated freeze−thaw cycles compared with that in deionized water. Visible light from light-emitting diode (LED) illumination and airflow at -18°C reduced SARS-CoV-2 pseudovirus stability.ConclusionOur studies indicate that temperature and seawater in the cold chain are risk factors for SARS-CoV-2 transmission, and LED visible light irradiation and increased airflow may be used as disinfection measures for SARS-CoV-2 in the cold-chain environment.

Published
2023
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6. Size-Segregated Characteristics of Organic Carbon (OC) and Elemental Carbon (EC) in Marine Aerosol in the Northeastern South China Sea

Author

Fengxian Liu, Long Peng, Shouhui Dai, Xinhui Bi, and Meixian Shi

Subjects
OC, EC, size distribution, South China Sea, chemical composition, Meteorology. Climatology, QC851-999
Abstract

Organic carbon (OC) and elemental carbon (EC) size-segregated characteristics were analyzed at the junction of sea and land (JSL) and the marine aerosol during the navigation along the northeastern South China Sea (NSCS), including the shallow ocean (NSCS-SO) and the remote ocean (NSCS-RO), from 3 to 20 March 2016. More than 90% of the OC and EC were concentrated in fine particles, and the OC and EC mean concentrations were 10.1 ± 0.63 and 3.44 ± 0.82, 2.67 ± 1.27 and 0.72 ± 0.36, and 1.41 ± 0.50 and 0.40 ± 0.28 μg m−3 in PM3.0 at the JSL, NSCS-SO, and NSCS-RO, respectively. Approximately 75–83% of OC and 84–98% of EC were found in PM1.5. Three sampling sites showed similar OC mass size distributions that had a dominant peak in the 0.49–0.95 μm size range. The mass mean diameters (MMDs) of OC were 0.65 ± 0.15 and 0.59 ± 0.16 μm at the NSCS-SO and NSCS-RO, respectively, followed by 0.53 ± 0.25 μm in fine particles at the JSL. Similar characteristics were found for EC MMDs. Each particle-size bin had OC concentrations that were higher than the EC values of all three sites, and the OC/EC mass ratios were generally more than 2.0. The mean secondary organic carbon (SOC) concentrations in PM1.5 were as follows: JSL (5.42 ± 1.35 μg m−3) > NSCS-SO (1.08 ± 1.02 μg m−3) > NSCS-RO (0.38 ± 0.25 μg m−3), indicating that the contribution of secondary carbonaceous aerosols to organic carbon is relatively low in the remote ocean region.

Published
2023
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8. Different Formation Pathways of Nitrogen-containing Organic Compounds in Aerosols and Fog Water in Northern China.

Author

Wei Sun, Xiaodong Hu, Yuzhen Fu, Guohua Zhang, Yujiao Zhu, Xinfeng Wang, Caiqing Yan, Likun Xue, He Meng, Bin Jiang, Yuhong Liao, Xinming Wang, Ping’an Peng, and Xinhui Bi

Abstract

While aqueous-phase processing contributes to the formation of nitrogen-containing organic compounds (NOCs), the detailed pathways are not well understood. In this study, the molecular composition of NOCs in both pre-fog aerosols and fog water collected at a suburban site in northern China was characterized using Fourier-transform ion cyclotron resonance mass spectrometry in both negative and positive modes of electrospray ionization (ESI- and ESI+). In both pre-fog aerosols and fog water, NOCs account for number fractions of more than 60 % in all assigned formulas in ESI- mode and more than 80 % in ESI+ mode. By comparing the molecular composition of biomass burning, coal combustion, and vehicle emissions, 72.3 % of NOCs in pre-fog aerosols were assigned as originating from these primary anthropogenic sources (pNOCs), while the remaining NOCs were regarded as secondary NOCs formed in aerosol (saNOCs). On the other hand, the unique NOCs in fog water were regarded as secondary NOCs formed in fog (sfNOCs). According to “precursor-product pair” screening involving 39 reaction pathways, we found that the nitration reaction, the amine pathway and the intramolecular N-heterocycle pathway of NH3 addition reactions contribute to 43.6 %, 22.1 %, and 11.6 % of saNOCs, but 26.8 %, 28.4 %, and 29.7 % of sfNOCs, respectively. Such distinct formation pathways are most likely attributed to the diverse precursors and the aqueous acidity. Correspondingly, saNOCs contain more abundant carbohydrates-like and highly oxygenated compounds with two nitrogen atoms compared to pNOCs, whereas sfNOCs contain more lipids-like with fewer oxygen atoms. The results reveal the disparity in secondary processes that contribute to the richness of NOCs in aerosols and fog water. The findings are valuable for understanding the formation and control of organic nitrogen pollution. [ABSTRACT FROM AUTHOR]

Published
2024
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10. Recent Progress in Atmospheric Chemistry Research in China: Establishing a Theoretical Framework for the 'Air Pollution Complex'

Author

Tong Zhu, Mingjin Tang, Meng Gao, Xinhui Bi, Junji Cao, Huizheng Che, Jianmin Chen, Aijun Ding, Pingqing Fu, Jian Gao, Yang Gao, Maofa Ge, Xinlei Ge, Zhiwei Han, Hong He, Ru-Jin Huang, Xin Huang, Hong Liao, Cheng Liu, Huan Liu, Jianguo Liu, Shaw Chen Liu, Keding Lu, Qingxin Ma, Wei Nie, Min Shao, Yu Song, Yele Sun, Xiao Tang, Tao Wang, Tijian Wang, Weigang Wang, Xuemei Wang, Zifa Wang, Yan Yin, Qiang Zhang, Weijun Zhang, Yanlin Zhang, Yunhong Zhang, Yu Zhao, Mei Zheng, Bin Zhu, and Jiang Zhu

Subjects
Atmospheric Science
Abstract

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.

Published
2023
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11. The optical properties and in-situ observational evidence for the formation of brown carbon in clouds

Author

Ziyong Guo, Yuxiang Yang, Xiaodong Hu, Xiaocong Peng, Yuzhen Fu, Wei Sun, Guohua Zhang, Duohong Chen, Xinhui Bi, Xinming Wang, and Ping'an Peng

Subjects
Atmospheric Science
Abstract

Atmospheric brown carbon (BrC) makes a substantial contribution to aerosol light absorption and thus global radiative forcing. Although BrC may change the lifetime of the clouds and ultimately affect precipitation, little is known regarding the optical properties and formation of BrC in the clouds. In the present study, the light-absorption properties of cloud droplet residual (cloud RES) were measured by coupled a ground-based counterflow virtual impactor (GCVI) and an aethalometer (AE-33), in addition to the cloud interstitial (cloud INT) and ambient (cloud-free) particles by PM2.5 inlet-AE-33 at Mt. Tianjing (1690 m a.s.l.), a remote mountain site in southern China, from November to December 2020. Meanwhile, the light-absorption and fluorescence properties of water-soluble organic carbon (WSOC) in the collected cloud water and PM2.5 samples were also obtained, associated with the concentration of water-soluble ions. The mean light-absorption coefficient (Abs370) of the cloud RES, cloud INT, and cloud-free particles were 0.25 ± 0.15, 1.16 ± 1.14, and 1.47 ± 1.23 Mm−1, respectively. The Abs365 of WSOC was 0.11 ± 0.08 Mm−1 in cloud water and 0.40 ± 0.31 Mm−1 in PM2.5, and the corresponding mass absorption efficiency (MAE365) was 0.17 ± 0.07 and 0.31 ± 0.21 m2 g−1, respectively. A comparison of the light-absorption coefficient between BrC in cloud RES and cloud INT particles, and WSOC in cloud water and PM2.5 indicates a considerable contribution (48 %–75 %) of water-insoluble BrC to total BrC light absorption. Secondary BrC estimated by minimum R squared (MRS) method dominated the total BrC in cloud RES (67 %–85 %), rather than in the cloud-free (11 %–16 %) and cloud INT (9 %–23 %) particles. It may indicate the formation of secondary BrC during cloud processing. Supporting evidence includes the enhanced WSOC and dominant contribution of the secondary formation and biomass burning factor (>80 %) to Abs365 in cloud water provided by positive matrix factorization (PMF) analysis. In addition, we showed that the light absorption of BrC in cloud water was closely related to humic-like substances and tyrosine-like and/or protein-like substances (r>0.63, p

Published
2022
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13. Enrichment of calcium in sea spray aerosol through bulk measurements and individual particle analysis during the R/V Xuelong cruise over the Ross Sea, Antarctica

Author

Bojiang Su, Xinhui Bi, Zhou Zhang, Yue Liang, Congbo Song, Tao Wang, Yaohao Hu, Lei Li, Zhen Zhou, Jinpei Yan, Xinming Wang, and Guohua Zhang

Abstract

Calcium is known to be enriched in sea spray aerosols (SSA), but its controlling factors and individual mixing states remain ambiguous. Here, we investigate the impact of various environmental factors on the water-soluble calcium (Ca2+) distribution in SSA through R/V Xuelong cruise observations over the Ross Sea, Antarctica, from December 2017 to February 2018. We observed enhanced Ca2+ enrichment in aerosol samples at lower temperatures (< -3.5 °C), lower wind speeds (< 7 m s-1) and in the presence of sea ice. Further individual particle mass spectral analysis indicated that considerable fractions of calcium in SSA likely bind with organic matter (a single-particle type, OC-Ca), which may be neglected in current water-soluble estimation of Ca2+ enrichment. Also, this is the first time that a calcium-dominated single-particle type has been observed in the Antarctic atmosphere. We suggest that a broader focus on individual OC-Ca and its subsequent environmental behavior should be included in future Antarctic atmospheric modeling. Given the context of global warming and sea ice retreat, an understanding of the mechanisms of calcium enrichment and mixing state of individual particles involved is valuable for further recognizing the aerosol-cloud-climate interactions in the Antarctica summer.

Published
2023
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18. Stability of SARS-CoV-2 in cold-chain transportation environments and the efficacy of disinfection measures

Author

Shuyi Peng, Guojie Li, Janak L. Pathak, Xiaolan Guo, Yuyin Lin, Hao Xu, Wenxi Qiu, Jiaying Zheng, Wei Sun, Xiaodong Hu, Guohua Zhang, Bing Li, Xinhui Bi, and Jianwei Dai

Abstract

Cold-chain environment could extend the survival duration of SARS-CoV-2 and increases the risk of transmission. However, the effect of clod-chain environmental factors and packaging materials on SARS-CoV-2 stability and the efficacy of intervention measures to inactivate SARS-CoV-2 under cold-chain environment remains uncertain. This study aimed to unravel cold-chain environmental factors that preserved the stability of SARS-CoV-2 and disinfection measures against SARS-CoV-2 under the cold-chain environment. The spike gene of SARS-CoV-2 isolated from Wuhan hu-1 was used to construct the SARS-CoV-2 pseudovirus and used as model of the SARS-CoV-2 virus. The decay rate of SARS-CoV-2 pseudovirus in the cold-chain environment, various types of packaging material surfaces i.e., PE plastic, stainless steel, Teflon and cardboard, and in frozen seawater was investigated. The influence of LED visible light(wavelength 450 nm-780 nm) and airflow movement on the stability of SARS-CoV-2 pseudovirus at -18° C were subsequently assessed. The results show that SARS-CoV-2 pseudovirus decayed more rapidly on porous cardboard surface compared with the non-porous surfaces including PE plastic, stainless steel and Teflon. Compared with 25° C, the decay rate of SARS-CoV-2 pseudovirus was significantly lower at low temperature. Seawater preserved viral stability both at -18° C and repeated freeze-thawing cycles compared with deionized water. LED visible light illumination and airflow movement environment at -18° C reduced the SARS-CoV-2 pseudovirus stability. In conclusion, our results indicate cold-chain temperature and seawater as risk factors for SARS-CoV-2 transmission and LED visible light illumination and airflow movement as possible disinfection measures of SARS-CoV-2 under the cold-chain environment.ImportanceIt is widely recognized that low temperature is a condition for maintaining virus vitality, and cold-chain transportation spreads the events of the SARS-CoV-2 were reported. This study provides that the decay rate of the SARS-CoV-2 pseudovirus at low temperatures varies on different packaging materials, and salt ions present in frozen foods such as seafood may protect virus survival. These results provide evidence for the possibility of SARS-CoV-2 transmission through cold-chain transport and also suggest the importance for disinfection of items. However, the commonly used disinfection methods of ultraviolet radiation and chemical reagents are generally not suitable for the disinfection of frozen food. Our study shows LED visible light illumination and airflow movement as possible disinfection measures of SARS-CoV-2 under the cold-chain environment. This has implications for reducing the long-distance transmission of the virus through cold-chain transportation.

Published
2022
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19. Recent Advances in Quantifying Wet Scavenging Efficiency of Black Carbon Aerosol

Author

Yuxiang Yang, Yuzhen Fu, Qinhao Lin, Feng Jiang, Xiufeng Lian, Lei Li, Zhanyong Wang, Guohua Zhang, Xinhui Bi, Xinming Wang, and Guoying Sheng

Subjects
black carbon, wet scavenging, scavenging efficiency, aerosol, cloud, Meteorology. Climatology, QC851-999
Abstract

Black carbon (BC) aerosol is of great importance not only for its strong potential in heating air and impacts on cloud, but also because of its hazards to human health. Wet deposition is regarded as the main sink of BC, constraining its lifetime and thus its impact on the environment and climate. However, substantial controversial and ambiguous issues in the wet scavenging processes of BC are apparent in current studies. Despite of its significance, there are only a small number of field studies that have investigated the incorporation of BC-containing particles into cloud droplets and influencing factors, in particular, the in-cloud scavenging, because it was simplicitly considered in many studies (as part of total wet scavenging). The mass scavenging efficiencies (MSEs) of BC were observed to be varied over the world, and the influencing factors were attributed to physical and chemical properties (e.g., size and chemical compositions) and meteorological conditions (cloud water content, temperature, etc.). In this review, we summarized the MSEs and potential factors that influence the in-cloud and below-cloud scavenging of BC. In general, MSEs of BC are lower at low-altitude regions (urban, suburban, and rural sites) and increase with the rising altitude, which serves as additional evidence that atmospheric aging plays an important role in the chemical modification of BC. Herein, higher altitude sites are more representative of free-tropospheric conditions, where BC is usually more aged. Despite of increasing knowledge of BC–cloud interaction, there are still challenges that need to be addressed to gain a better understanding of the wet scavenging of BC. We recommend that more comprehensive methods should be further estimated to obtain high time-resolved scavenging efficiency (SE) of BC, and to distinguish the impact of in-cloud and below-cloud scavenging on BC mass concentration, which is expected to be useful for constraining the gap between field observation and modeling simulation results.

Published
2019
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20. Determination of Semivolatile Organic Nitrates in Ambient Atmosphere by Gas Chromatography/Electron Ionization–Mass Spectrometry

Author

Rui Li, Xiaotong Jiang, Xinfeng Wang, Tianshu Chen, Lin Du, Likun Xue, Xinhui Bi, Mingjin Tang, and Wenxing Wang

Subjects
organic nitrates, semivolatile sample, GC/EI-MS, identification, semiquantification, Meteorology. Climatology, QC851-999
Abstract

Semivolatile organic nitrates (SVONs) contribute a large proportion of total organic nitrates and play an important role in the tropospheric chemistry. However, the composition and concentrations of SVONs in the atmosphere remain unclear due to the lack of reliable analytical techniques for specific organic nitrates. In this study, a method based on gas chromatography and electron ionization⁻mass spectrometry was developed to detect ambient SVONs that were collected via polyurethane foam disk enrichment. Three SVONs were identified in the semivolatile samples from urban Jinan during spring based on the characteristic fragment ions of [NO2]+ and [CH2NO3]+ and the characteristic fragment loss of NO2 and NO3: 1-pentyl nitrate (molecular weight [MW] = 133), 4-hydroxy-isoprene nitrate (MW = 147), and (3,4)-di-hydroxy-isoprene nitrate (MW = 163). The latter two isoprene nitrates were rarely detected in the real atmosphere in previous studies. The contents of 1-pentyl nitrate, 4-hydroxy-isoprene nitrate, and (3,4)-di-hydroxy-isoprene nitrate were roughly quantified based on the standard of 1-pentyl nitrate, with a detection limit of 50 μg L−1. In addition, Fourier transform infrared spectrometry was used to determine the total SVONs content. The average concentrations of 1-pentyl nitrate, 4-hydroxy-isoprene nitrate, (3,4)-di-hydroxy-isoprene nitrate, and total SVONs in Jinan during spring were 20.2 ± 7.2, 13.2 ± 7.2, 36.5 ± 8.4, and 380.0 ± 190.8 ng m−3, respectively. The three identified SVONs contributed only 20.2 ± 5.5% to the total SVONs, which suggests that some unidentified SVONs are present in the ambient atmosphere and that studies with improved or advanced analytical techniques will be required to identify them.

Published
2019
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24. Emissions and light absorption of PM

Author

Runqi, Zhang, Sheng, Li, Xuewei, Fu, Chenglei, Pei, Jun, Wang, Zhenfeng, Wu, Shaoxuan, Xiao, Xiaoqing, Huang, Jianqiang, Zeng, Wei, Song, Yanli, Zhang, Xinhui, Bi, and Xinming, Wang

Subjects
Air Pollutants, Nitrates, Methanol, Nitro Compounds, Carbon, Chrysenes, Nitrophenols, Benzo(a)pyrene, Humans, Particulate Matter, Polycyclic Aromatic Hydrocarbons, 2,4-Dinitrophenol, Gasoline, Environmental Monitoring, Vehicle Emissions
Abstract

Vehicle emissions are an important source of nitrated aromatic compounds (NACs) in particulate size smaller 2.5 μm (PM

Published
2022

26. Stability of SARS-CoV-2 in coldchain transportation environments and the efficacy of disinfection measures.

Author

Shuyi Peng, Guojie Li, Yuyin Lin, Xiaolan Guo, Hao Xu, Wenxi Qiu, Huijuan Zhu, Jiaying Zheng, Wei Sun, Xiaodong Hu, Guohua Zhang, Bing Li, Pathak, Janak L., Xinhui Bi, and Jianwei Dai

Subjects
FREEZE-thaw cycles, SARS-CoV-2
Abstract

Background: Low temperature is conducive to the survival of COVID-19. Some studies suggest that cold-chain environment may prolong the survival of severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) and increase the risk of transmission. However, the effect of cold-chain environmental factors and packaging materials on SARS-CoV-2 stability remains unclear. Methods: This study aimed to reveal cold-chain environmental factors that preserve the stability of SARS-CoV-2 and further explore effective disinfection measures for SARS-CoV-2 in the cold-chain environment. The decay rate of SARS-CoV-2 pseudovirus in the cold-chain environment, on various types of packaging material surfaces, i.e., polyethylene plastic, stainless steel, Teflon and cardboard, and in frozen seawater was investigated. The influence of visible light (wavelength 450 nm-780 nm) and airflow on the stability of SARS-CoV-2 pseudovirus at -18°C was subsequently assessed. Results: Experimental data show that SARS-CoV-2 pseudovirus decayed more rapidly on porous cardboard surfaces than on nonporous surfaces, including polyethylene (PE) plastic, stainless steel, and Teflon. Compared with that at 25°C, the decay rate of SARS-CoV-2 pseudovirus was significantly lower at low temperatures. Seawater preserved viral stability both at -18°C and with repeated freeze-thaw cycles compared with that in deionized water. Visible light from light-emitting diode (LED) illumination and airflow at -18°C reduced SARS-CoV-2 pseudovirus stability. Conclusion: Our studies indicate that temperature and seawater in the cold chain are risk factors for SARS-CoV-2 transmission, and LED visible light irradiation and increased airflow may be used as disinfection measures for SARS-CoV-2 in the cold-chain environment. [ABSTRACT FROM AUTHOR]

Published
2023
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28. Evidence for the Formation of Imidazole from Carbonyls and Reduced Nitrogen Species at the Individual Particle Level in the Ambient Atmosphere

Author

Guohua Zhang, Xinming Wang, Xinhui Bi, Xiaodong Hu, Qinhao Lin, Yuxiang Yang, Guoying Sheng, Xiufeng Lian, Long Peng, Feng Jiang, Ping'an Peng, Yuzhen Fu, and Duohong Chen

Subjects
Aqueous solution, Ecology, 010405 organic chemistry, Chemistry, Health, Toxicology and Mutagenesis, Inorganic chemistry, 010402 general chemistry, 01 natural sciences, Pollution, 0104 chemical sciences, Atmosphere, chemistry.chemical_compound, Reduced nitrogen, Environmental Chemistry, Imidazole, Particle, Brown carbon, Waste Management and Disposal, Water Science and Technology
Abstract

While laboratory studies have demonstrated that aqueous reactions between carbonyls and reduced nitrogen species may contribute to the production of N-heterocycle brown carbon (BrC) such as imidazo...

Published
2020
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29. International Scientific-Practical Conference 'Russia, China, the Great Silk Road: A History of Cross-Cultural Contacts'

Author

Iuliia A. Azarenko and Xinhui Bi

Subjects
Cultural Studies, Linguistics and Language, Archeology, History, SILK, Literature and Literary Theory, Economy, Anthropology, Political science, Cross-cultural, China, Language and Linguistics
Abstract

The scientific and practical Conference on China and countries along the Silk Road development issues in the past and modern days. The Conference is held annually in the ‘NSU Confucius Institute / Class’ and the Institute of Archaeology and Ethnography SB RAS joint project framework. In 2019, among participants were experts and professors from Novosibirsk, Barnaul, Krasnoyarsk, Moscow, Omsk, Almaty, Nanjing, Urumqi.

Published
2020
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30. The 2019 Work Summaries of Confucius Institute at Novosibirsk State University

Author

Xinhui Bi and Iulia A. Azarenko

Subjects
Cultural Studies, Linguistics and Language, Archeology, History, Engineering, Literature and Literary Theory, business.industry, media_common.quotation_subject, Library science, Language and Linguistics, Work (electrical), State (polity), Anthropology, business, media_common
Abstract

The Confucius Institute at Novosibirsk State University focused on connotation construction, strengthened teaching management, and improved teaching level in its 2019 work. This year, the Confucius Institute successfully completed the established teaching tasks, successfully held various cultural activities, strengthened exchanges between Novosibirsk State University and Xinjiang Univeristy, and expanded foreign exchanges. In the future, the Confucius Institute will continue to work hard to coordinate all aspects of its work, improve quality and efficiency, and further enhance the influence of the Institute in the region.

Published
2020
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32. Evolution of light absorption properties during photochemical aging of straw open burning aerosols

Author

Zheng Fang, Wei Deng, Xinming Wang, Quanfu He, Yanli Zhang, Weiwei Hu, Wei Song, Ming Zhu, Scott Lowther, Zhaoyi Wang, Xuewei Fu, Qihou Hu, Xinhui Bi, Christian George, and Yinon Rudich

Subjects
Aerosols, Air Pollutants, Environmental Engineering, Soot, Environmental Chemistry, Particulate Matter, Biomass, Pollution, Waste Management and Disposal, Carbon, Environmental Monitoring
Abstract

Straw burning comprises more than 30% of all types of burned biomass in Asia, while the estimation of the emitted aerosols' direct radiative forcing effect suffers from large uncertainties, especially when atmospheric aging processes are considered. In this study, the light absorption properties of primary and aged straw burning aerosols in open fire were characterized at 7 wavelengths ranging from 370 nm to 950 nm in a chamber. The primary rice, corn and wheat straw burning bulk aerosols together had a mass absorption efficiency (MAE) of 2.43 ± 1.36 m

Published
2022

34. A comprehensive study about the in-cloud processing of nitrate through coupled measurements of individual cloud residuals and cloud water

Author

Guohua Zhang, Xiaodong Hu, Wei Sun, Yuxiang Yang, Ziyong Guo, Yuzhen Fu, Haichao Wang, Shengzhen Zhou, Lei Li, Mingjin Tang, Zongbo Shi, Duohong Chen, Xinhui Bi, and Xinming Wang

Subjects
Atmospheric Science, sense organs, complex mixtures
Abstract

While the formation and evolution of nitrate in airborne particles are extensively investigated, little is known about the processing of nitrate in clouds. Here we present a detailed investigation on the in-cloud formation of nitrate, based on the size-resolved mixing state of nitrate in the individual cloud residual and cloud-free particles obtained by single particle mass spectrometry, and also the mass concentrations of nitrate in the cloud water and PM2.5 at a mountain site (1690 m a.s.l. – above sea level) in southern China. The results show a significant enhancement of nitrate mass fraction and relative intensity of nitrate in the cloud water and the cloud residual particles, respectively, reflecting a critical role of in-cloud processing in the formation of nitrate. We first exclude the gas-phase scavenging of HNO3 and the facilitated activation of nitrate-containing particles as the major contribution for the enhanced nitrate, according to the size distribution of nitrate in individual particles. Based on regression analysis and theoretical calculations, we then highlight the role of N2O5 hydrolysis in the in-cloud formation of nitrate, even during the daytime, attributed to the diminished light in clouds. Nitrate is highly related (R2= ∼ 0.6) to the variations in [NOx][O3], temperature, and droplet surface area in clouds. Accounting for droplet surface area greatly enhances the predictability of the observed nitrate, compared with using [NOx][O3] and temperature. The substantial contribution of N2O5 hydrolysis to nitrate in clouds with diminished light during the daytime can be reproduced by a multiphase chemical box model. Assuming a photolysis rate at 30 % of the default setting, the overall contribution of N2O5 hydrolysis pathway to nitrate formation increases by ∼ 20 % in clouds. Given that N2O5 hydrolysis acts as a major sink of NOx in the atmosphere, further model updates would improve our understanding about the processes contributing to nitrate production in cloud and the cycling of odd nitrogen.

Published
2022
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36. Seasonal Variations of Imidazoles in Urban Areas of Beijing and Guangzhou, China by Single Particle Mass Spectrometry

Author

Xiufeng Lian, Guigang Tang, Xu Dao, Xiaodong Hu, Xin Xiong, Guohua Zhang, Zaihua Wang, Chunlei Cheng, Xiaofei Wang, Xinhui Bi, Lei Li, Mei Li, and Zhen Zhou

Subjects
Aerosols, Air Pollutants, China, History, Environmental Engineering, Polymers and Plastics, Imidazoles, Pollution, Carbon, Mass Spectrometry, Industrial and Manufacturing Engineering, Beijing, Potassium, Environmental Chemistry, Particulate Matter, Seasons, Particle Size, Business and International Management, Waste Management and Disposal, Environmental Monitoring
Abstract

Imidazoles (IMs) are potential contributors to brown carbon; they may notably contribute to climate radiative forcing. However, only a few studies have assessed the mixing state, seasonal and spatial distributions of IMs, and influencing factors for IM formation in urban aerosols. In this study, two single-particle aerosol mass spectrometers were employed to investigate the IM-containing particles in the urban areas of Beijing and Guangzhou, China. IM-containing particles were identified in the size range (d

Published
2022
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37. Influence of meteorological parameters and oxidizing capacity on characteristics of airborne particulate amines in an urban area of the Pearl River Delta, China

Author

Fengxian Liu, Guohua Zhang, Xiufeng Lian, Yuzhen Fu, Qinhao Lin, Yuxiang Yang, Xinhui Bi, Xinming Wang, Ping'an Peng, and Guoying Sheng

Subjects
Aerosols, Air Pollutants, China, Water, Dust, Humidity, Biochemistry, Rivers, Air Pollution, Particulate Matter, Amines, Oxidation-Reduction, General Environmental Science, Environmental Monitoring
Abstract

Nine amine species in atmospheric particles during haze and low-pollution days with low and high relative humidity (RH) were analyzed in urban Guangzhou, China. The mean concentrations of total measured amines (Ʃamines) in fine particles were 208 ± 127, 63.7 ± 21.3, and 120 ± 20.1 ng m

Published
2021

38. The optical properties and in-situ observational evidence for the formation of brown carbon in cloud

Author

Yuzhen Fu, Xiaocong Peng, Duohong Chen, Wei Sun, Xiaodong Hu, Ping'an Peng, Yuxiang Yang, Xinming Wang, Guohua Zhang, Ziyong Guo, and Xinhui Bi

Subjects
Total organic carbon, In situ, business.industry, Analytical chemistry, Environmental science, Cloud computing, Precipitation, Radiative forcing, Aethalometer, business, Ion, Aerosol
Abstract

Atmospheric brown carbon (BrC) makes a substantial contribution to aerosol light-absorbing and thus the global radiative forcing. Although BrC may change the lifetime of the cloud and ultimately affect precipitation, little is known regarding the optical properties and formation of BrC in the cloud. In the present study, the light-absorption properties of cloud droplet residual (cloud RES) were measured by coupled a ground-based counterflow virtual impactor (GCVI) and an Aethalometer (AE-33), in addition to the cloud interstitial (cloud INT) and ambient (cloud-free) particles by PM2.5 inlet-AE-33, at Mt. Tianjing (1690 m a.s.l.), a remote mountain site in southern China, from November to December 2020. Meanwhile, the light-absorption and fluorescence properties of water-soluble organic carbon (WSOC) in the collected cloud water and PM2.5 samples were also obtained, associated with the concentration of water-soluble ions. The mean light-absorption coefficient (Abs370) of the cloud RES, cloud INT, and cloud-free particles were 0.25 ± 0.15, 1.16 ± 1.14, and 1.47 ± 1.23 Mm−1, respectively. The Abs365 of WSOC was 0.11 ± 0.08 Mm−1 in cloud water and 0.40 ± 0.31 Mm−1 in PM2.5, and the corresponding mass absorption efficiency (MAE365) was 0.17 ± 0.07 and 0.31 ± 0.21 m2·g−1, respectively. A comparison of the light-absorption coefficient between BrC in the cloud RES/cloud INT and WSOC in cloud water/PM2.5 indicates a considerable contribution (48–75 %) of water-insoluble BrC to total BrC light-absorption. Secondary BrC estimated by minimum R squared (MRS) method dominated the total BrC in cloud RES (67–85 %), rather than in the cloud-free (11–16 %) and cloud INT (9–23 %) particles. It may indicate the formation of secondary BrC during cloud processing. Supporting evidence includes the enhanced WSOC and dominant contribution of secondary formation/biomass burning factor (> 80 %) to Abs365 in cloud water provided by Positive Matrix Factorization (PMF) analysis. In addition, we showed that the light-absorption of BrC in cloud water was closely related to humic-like substances and tyrosine/proteins-like substances (r > 0.63, p < 0.01), whereas only humic-like substances for PM2.5, as identified by excitation-emission matrix fluorescence spectroscopy.

Published
2021
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42. Measurement of the mixing state of PAHs in individual particles and its effect on PAH transport in urban and remote areas and from major sources

Author

Xiufeng Lian, Guohua Zhang, Yuxiang Yang, Mubai Chen, Wenda Yang, Chunlei Cheng, Bo Huang, Zhong Fu, Xinhui Bi, Zhen Zhou, and Mei Li

Subjects
Aerosols, Air Pollutants, Potassium, Particulate Matter, Polycyclic Aromatic Hydrocarbons, Biochemistry, Carbon, Environmental Monitoring, General Environmental Science
Abstract

Although recent laboratory simulations have demonstrated that organic matter prevents the degradation of polycyclic aromatic hydrocarbons (PAHs), their role in the long-range transport of PAHs in the real atmosphere remains poorly understood. In this study, we measured the chemical composition and mixing state of PAHs-containing individual particles in aerosols from three sources, one urban area and one remote area. PAHs-containing particles were classified into five types: organic carbon (OC), potassium mixed with organic carbon (KOC), potassium mixed with sodium (KNa), Krich and PAH-rich. The PAH-rich and KOC particles were the main types of particles produced by vehicle exhaust/coal burning and biomass burning, respectively, accounting for50% of the PAHs-containing particles. It was found that organic matter enhancement of PAHs-containing particles occurs in the ambient atmosphere, with organic-rich (OC and KOC) particles accounting for90%. Further analysis revealed that the increase in the fractions of PAHs was related to the mixing state with organic compounds due to the protection of organics against PAHs and/or the aging of PAHs-containing particles. The results of this study improve our understanding of the chemical composition and mixing state of PAHs particles in atmospheric aerosols from emission sources and urban and remote areas, and provide field observation evidence to support the promotion of the study of long-range transport of PAHs by organics.

Published
2022
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43. Black Carbon Involved Photochemistry Enhances the Formation of Sulfate in the Ambient Atmosphere: Evidence From In Situ Individual Particle Investigation

Author

Lei Li, Xinhui Bi, Mingjin Tang, Duohong Chen, Xiufeng Lian, Wei Song, Zongbo Shi, Guohua Zhang, Xiaocong Peng, Yuzhen Fu, Xinming Wang, Wei Sun, and Weiwei Hu

Subjects
In situ, Atmosphere, Atmospheric Science, chemistry.chemical_compound, Geophysics, chemistry, Space and Planetary Science, Environmental chemistry, Earth and Planetary Sciences (miscellaneous), Particle, Carbon black, Sulfate
Published
2021
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44. Measurement report: Molecular characteristics of cloud water in southern China and insights into aqueous-phase processes from Fourier Transform Ion Cyclotron Resonance Mass Spectrometry

Author

Wei Sun, Yuzhen Fu, Guohua Zhang, Yuxiang Yang, Feng Jiang, Xiufeng Lian, Bin Jiang, Yuhong Liao, Xinhui Bi, Duohong Chen, Jianmin Chen, Xinming Wang, Jie Ou, Ping'an Peng, and Guoying Sheng

Subjects
Earth sciences, ddc:550
Abstract

Characterizing the molecular composition of cloud water could provide unique insights into aqueous chemistry. Field measurements were conducted at Mt. Tianjing in southern China in May, 2018. There are thousands of formulas (C$_{5-30}$H$_{4-55}$O$_{1-15}$N$_{0-2}$S$_{0-2}$) identified in cloud water by Fourier transform ion cyclotron resonance mass spectrometry (FT-ICR MS). CHON formulas (formulas containing C, H, O, and N elements; the same is true for CHO and CHOS) represent the dominant component (43.6 %���65.3 % of relative abundance), followed by CHO (13.8 %���52.1%). S-containing formulas constitute ���5 %���20 % of all assigned formulas. Cloud water has a relative-abundance-weighted average O/C of 0.45���0.56, and the double bond equivalent of 5.10���5.70. Most of the formulas (>85 %) are assigned as aliphatic and olefinic species. No statistical difference in the oxidation state is observed between cloud water and interstitial PM$_{2.5}$. CHON with aromatic structures are abundant in cloud water, suggesting their enhanced in-cloud formation. Other organics in cloud water are mainly from biomass burning and oxidation of biogenic volatile organic compounds. The cloud water contains more abundant CHON and CHOS at night, which are primarily contributed by ���N$_{2}$O$_{5}$ function and organosulfates, demonstrating the enhanced formation in dark aqueous or multi-phase reactions. While more abundant CHO is observed during the daytime, likely due to the photochemical oxidation and photolysis of N- or S-containing formulas. The results provide an improved understanding of the in-cloud aqueous-phase reactions.

Published
2021
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46. Real‐Time Characterization of Aerosol Compositions, Sources, and Aging Processes in Guangzhou During PRIDE‐GBA 2018 Campaign

Author

Wei Song, Weiwei Hu, Yingkun Wang, Qicong Song, André S. H. Prévôt, Min Shao, Francesco Canonaco, Ming Zhu, Wei Chen, Baolin Wang, Shan Huang, Huaishan Zhou, Chaomin Wang, Yuqing Ye, Xinhui Bi, Xinming Wang, Bin Yuan, Junwen Liu, Xiufeng Lian, Tianle Pan, Guohua Zhang, Fan Jiang, and Chenshuo Ye

Subjects
Atmospheric Science, Pride, Geophysics, Meteorology, Space and Planetary Science, media_common.quotation_subject, Earth and Planetary Sciences (miscellaneous), Environmental science, Aerosol, media_common, Characterization (materials science)
Published
2021
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47. Effect of lightning activities on surface atmospheric NO, O3 and submicron particles based on artificially triggered lightning technology: A case study

Author

Qinhao Lin, Yiqiang Zhang, Lo Yin Chan, Leilei Fei, Shaodong Chen, Chaoping Cen, Yonglin Liu, Xu Yan, Xinming Wang, and Xinhui Bi

Subjects
Atmospheric Science, Ozone, 010504 meteorology & atmospheric sciences, 010501 environmental sciences, Wind direction, Atmospheric sciences, 01 natural sciences, Pollution, Lightning, Atmosphere, chemistry.chemical_compound, Flash (photography), chemistry, High pressure, Atmospheric chemistry, Environmental science, Waste Management and Disposal, NOx, 0105 earth and related environmental sciences
Abstract

Lightning can cause a variety of atmospheric chemical reactions because of its high temperature and high pressure. Known as a major natural source of atmospheric nitrogen oxides (NOx), lightning can also affect the abundance of ozone (O3) and result in the generation of new particles in the atmosphere. This study explores the effect of lightning activities on surface atmospheric nitric oxide (NO), O3 and submicron particles utilizing artificially triggered lightning experiments. Five lightning flashes were successfully triggered in Guangzhou on 19th August 2014. Concentrations of surface NO, O3 and submicron particles were observed together with lightning and meteorological parameters. Results show that NO concentration increased rapidly from 0.4 ppbv to 220.5 ppbv after a successful upwind artificially triggered lightning flash. Wind direction played an important role in the enhancement of NO concentration at different levels caused by each triggered lightning flash. O3 concentration increased from 15.8 ppbv to 28.7 ppbv before triggering lightning. After the first triggered lightning flash, O3 concentration decreased rapidly to the valley value of 16.9 ppbv because of titration effect. In addition, the number concentration of submicron particles also increased rapidly after successful triggered lightning experiments. The finds resulting from this study give a deeper insight into the impact of lightning on atmospheric chemistry.

Published
2019
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48. Organosulfur Compounds Formed from Heterogeneous Reaction between SO2 and Particulate-Bound Unsaturated Fatty Acids in Ambient Air

Author

Zhiqianng Yu, Bin Jiang, Ming Zhu, Christian George, Qingqing Yu, Xinming Wang, Xinhui Bi, Yanli Zhang, Jian Zhen Yu, Xu Yu, Sheng Li, Guangzhou Institute of Geochemistry, Chinese Academy of Sciences, Guangzhou, China, Hong Kong University of Science and Technology (HKUST), Institut de recherches sur la catalyse et l'environnement de Lyon (IRCELYON), Université Claude Bernard Lyon 1 (UCBL), and Université de Lyon-Université de Lyon-Institut de Chimie du CNRS (INC)-Centre National de la Recherche Scientifique (CNRS)

Subjects
010504 meteorology & atmospheric sciences, Ecology, Chemistry, Health, Toxicology and Mutagenesis, [CHIM.CATA]Chemical Sciences/Catalysis, 010501 environmental sciences, Particulates, [SDE.ES]Environmental Sciences/Environmental and Society, complex mixtures, 01 natural sciences, Pollution, Ambient air, Oleic acid, chemistry.chemical_compound, 13. Climate action, Environmental Chemistry, Organic chemistry, Waste Management and Disposal, Organosulfur compounds, 0105 earth and related environmental sciences, Water Science and Technology
Abstract

SSCI-VIDE+CARE+CGO:XWG; International audience; Laboratory studies have demonstrated that uptake of SO2 on oleic acid (OLA) could directly produce organosulfates (OS); yet, it is unknown whether this pathway is significant in secondary organosulfur production in ambient air. Here, we collected filter-based samples of ambient fine particles (PM2.5) in the Pearl River Delta region in southern China and determined organosulfur compounds with Fourier transform ion cyclotron resonance mass spectrometry (FT-ICR-MS). The results are in agreement with the occurrence of organosulfurs formed from the reactive uptake of SO2 by OLA and a wider range of C14−C24 unsaturated fatty acids in ambient air as reported by laboratory studies, as well as additional species that are likely oxidation products of the primary products previously identified. OS formed from the heterogeneous reaction between SO2 and unsaturated fatty acids accounted for 7%−13% sulfur of the CHOS species and 5%−7% sulfur of all the CHOS and CHONS species. They contributed about 0.3‰−0.9‰ of the total organic mass of the fine particle samples collected.

Published
2019
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49. Characteristics and Formation Mechanisms of Sulfate and Nitrate in Size-segregated Atmospheric Particles from Urban Guangzhou, China

Author

Qinhao Lin, Guoying Sheng, Xinhui Bi, Xinming Wang, Guohua Zhang, Yuxiang Yang, Feng Jiang, Fengxian Liu, Xiufeng Lian, Yuzhen Fu, and Long Peng

Subjects
Aqueous solution, 010504 meteorology & atmospheric sciences, Ammonium nitrate, chemistry.chemical_element, 01 natural sciences, Pollution, Sulfur, Aerosol, Atmosphere, chemistry.chemical_compound, chemistry, Nitrate, Environmental chemistry, Environmental Chemistry, Relative humidity, Sulfate, 0105 earth and related environmental sciences
Abstract

Various water-soluble inorganic compounds, including Na+, NH4+, K+, Ca2+, Mg2+, Cl–, NO3–, PO43– and SO42–, were analyzed in 130 sets of size-segregated (< 0.49, 0.49–0.95, 0.95–1.5, 1.5–3.0, 3.0–7.2 and 7.2–10.0 µm) aerosol samples collected from March 2013 to April 2014 in Guangzhou, China. SO42– was unimodally distributed and peaked during a typical droplet mode (0.49–0.95 µm). However, the distribution of NO3– significantly varied across the four seasons. It was unimodally distributed in summer and autumn, peaking in the coarse mode (3.0–7.2 µm), and bimodally distributed in winter and spring, peaking in the size ranges of 0.49–0.95 µm and 3.0–7.2 µm, respectively. The coarse-mode NO3– was mainly related to the influence of soil/dust. The additional mode during winter and spring was attributable to the formation of ammonium nitrate. Compared to clean days, polluted days favored the formation of SO42– in summer and autumn and NO3– in winter and spring. The sulfur oxidation ratios (SORs) for < 0.49, 0.49–0.95 and 0.95–1.5 µm particles were negatively correlated with the relative humidity (RH) in spring, summer and autumn, respectively. However, the SORs for 0.49–3.0 µm particles were positively correlated with the RH in winter, implying an important contribution from the aqueous oxidation of SO2. Further analysis shows that the SO42– in < 0.49 µm particles was formed primarily through gas-phase photochemical oxidation of SO2 during all four seasons. The formation of NO3– was mainly attributable to heterogeneous reactions for 1.5–3.0 µm particles year-round and homogeneous gas-phase reactions for < 0.49 µm particles in winter. Correlation analysis also indicates a positive influence from biomass burning on the formation of nitrate and sulfate. The average pH of PM3 was calculated to be 2.6–5.6. Thus, the aqueous oxidation of SO2 by NO2 plays a limited role in the formation of sulfate in the atmosphere of Guangzhou.

Published
2019
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50. Real time analysis of lead-containing atmospheric particles in Guangzhou during wintertime using single particle aerosol mass spectrometry

Author

Chak K. Chan, Xinhui Bi, Mei Li, Jingbo Zhou, Bo Huang, Jianglin Lu, Chunlei Cheng, Yiming Qin, Li Ma, Lei Li, Mubai Chen, Zhen Zhou, Chenglei Pei, and Haobo Tan

Subjects
China, Health, Toxicology and Mutagenesis, 0211 other engineering and technologies, Coal combustion products, Incineration, 02 engineering and technology, 010501 environmental sciences, Combustion, 01 natural sciences, Mass Spectrometry, Humans, Industry, Coal, Particle Size, 0105 earth and related environmental sciences, Aerosols, Air Pollutants, 021110 strategic, defence & security studies, Nitrates, business.industry, Spectrum Analysis, Public Health, Environmental and Occupational Health, Dust, General Medicine, Pollution, Aerosol, Lead, Environmental chemistry, Aerosol mass spectrometry, Environmental science, Particle, Particulate Matter, Seasons, business, Environmental Monitoring, Waste disposal
Abstract

The toxic effects of lead on human health and the environment have long been a focus of research. To explore sources of lead in Guangzhou, China, we investigated atmospheric lead-containing particles (LCPs) during wintertime using a single particle aerosol mass spectrometer (SPAMS). Based on mass spectral features, LCPs were classified into eight major particle types, including Pb-Cl and Pb-Cl-Li (coal combustion and waste incineration), Pb-Cl-EC and Pb-Cl-OC (diesel trucks and coal combustion), Pb-Cl-Fe (iron and steel industry), Pb-Cl-AlSi (dust), Pb-Sec (secondary formation), and Pb-Cl-Zn (industrial process); these sources (in parentheses) were identified by comparing atmospheric LCP mass spectra with authentic Pb emission source mass spectra. Sampling periods with LCP number fractions (NFs) more than three times the average LCP NF (APF = 4.35%) and below the APF were defined as high LCP NF periods (HLFPs: H1, H3, and H5) and low LCP NF APF periods (LLFPs: L2 and L4), respectively. Diurnal patterns and high Pb-Sec content during LLFPs indicate that photochemical activity and heterogeneous reactions may have controlled Pb-Sec particle formation. The inverse Pb-Cl and Pb-Sec particle diurnal trends during LLFPs suggest the replacement of Cl by sulfate and nitrate. On average over the five periods, ~ 76% of the LCPs likely arose from coal combustion and/or waste incineration, which were dominant sources during all five periods, followed by diesel trucks during LLFPs and iron- and steel-related sources during HLFPs; HLFP LCPs arose mainly from primary emissions. These results can be used to more efficiently control Pb emission sources and prevent harm to human and environmental health from Pb toxicity.

Published
2019
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