Open Access
Size Distribution of HULIS in Ambient Aerosols at a Rural Site in South China
TLDR
In this paper, the abundance and size distributions of HULIS in ambient aerosols were measured in a rural location in South China at a time with a visible presence of crop residue burning.Abstract:
Abstract HUmic-LIke Substances (HULIS) comprise a significant fraction of the water-soluble organic aerosol mass and influence the water uptake properties of aerosols in the atmosphere. In this work, the abundance and size distributions of HULIS in ambient aerosols were measured in a rural location in South China at a time with a visible presence of crop residue burning. PM 2.5 samples of fresh smoke from burning rice straw and sugar cane leaves were also collected and analyzed for HULIS and major aerosol constituents. HULIS were abundant in both ambient samples and in fresh biomass burning emissions, accounting for ∼60% of the water-soluble organic carbon in the ambient aerosols and ∼30% in the fresh biomass burning aerosols. In the particles in the range of 0.32–1.8 μm, the abundance of HULIS was 40–90% of the combined abundance of sulfate and ammonium, suggesting that HULIS should be considered when quantifying the role of sulfate aerosols serving as cloud condensation nuclei. The size distribution of HULIS was characterized by a dominant droplet mode with a mass median aerodynamic diameter (MMAD) in the range of 0.63–0.87 μm, accounting for 81% of the total HULIS mass, a minor condensation mode (12%, MMAD: 0.23–0.28 μm) and a coarse mode (7%, MMAD: 4.0–5.7 μm). The small amount of HULIS in the coarse mode indicated that soil-derived HULIS was a very minor source. On the basis of the size distribution characteristics, HULIS were postulated to have multiple sources, including secondary formation in cloud droplets, secondary formation through heterogeneous reactions or aerosol-phase reactions, and primary emissions from biomass burning.read more
Citations
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Journal ArticleDOI
Secondary organic aerosol formation in cloud droplets and aqueous particles (aqSOA): a review of laboratory, field and model studies
TL;DR: In this paper, a review summarizes the current knowledge on aqueous phase organic reactions and combines evidence that points to a significant role of aqSOA formation in the atmosphere.
Journal ArticleDOI
Generation of reactive oxygen species mediated by humic-like substances in atmospheric aerosols.
Peng Lin,Jian Zhen Yu +1 more
TL;DR: HULIS was found to be the major redox active constituent of the water-extractable organic fraction in PM and it is plausible that HULIS contains reversible redox sites, thereby serving as electron carriers to catalyze the formation of ROS.
Journal ArticleDOI
Elemental composition of HULIS in the Pearl River Delta Region, China: results inferred from positive and negative electrospray high resolution mass spectrometric data.
TL;DR: The elemental compositions deduced from the UHRMS analysis confirm the conclusion from the previous study that biomass burning and SOA formation are both important sources of HULIS in the PRD region.
Journal ArticleDOI
Characterization of high-resolution aerosol mass spectra of primary organic aerosol emissions from Chinese cooking and biomass burning
Ling-Yan He,Yun Lin,Xiao-Feng Huang,Song Guo,Likun Xue,Qiong Su,Min Hu,Shengji Luan,Y. H. Zhang +8 more
TL;DR: In this paper, the authors used an Aerodyne High-Resolution Time-of-Flight AMS (HR-ToF-AMS) to measure primary emissions from four types of Chinese cooking (CC) and six types of biomass burning (BB).
Journal ArticleDOI
Organosulfates in Humic-like Substance Fraction Isolated from Aerosols at Seven Locations in East Asia: A Study by Ultra-High-Resolution Mass Spectrometry
TL;DR: Humic-like substances (HULIS) in ambient aerosols collected at seven locations in East Asia were analyzed using electrospray ionization (ESI) coupled with an ultra-high-resolution mass spectrometer (UHRMS) to suggest the dominant epoxide intermediate pathway for formation of OS compounds without N atoms (defined as CHOS) and confirm the more readily hydrolyzed characteristics of the --ONO₂ group than the --OSO⁂
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