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Nitrogen isotope characteristics and source apportionment of atmospheric ammonium in urban cities during a haze event in Northern China Plain.

Authors :
Xiang, Yan-Kun
Dao, Xu
Gao, Meng
Lin, Yu-Chi
Cao, Fang
Yang, Xiao-Ying
Zhang, Yan-Lin
Source :
Atmospheric Environment. Jan2022, Vol. 269, pN.PAG-N.PAG. 1p.
Publication Year :
2022

Abstract

Ammonium (NH 4 +) is a well-known alkaline species for haze formation and possesses potential impacts on human health and biological diversity. To date, regional source apportionments of NH 4 + have been poorly understood in Northern China Plain (NCP). In this study, daily PM 2.5 samples were synchronously collected in eight cities over the NCP region. In addition to water-soluble ions, the nitrogen isotopic composition of NH 4 + (δ15N–NH 4 +) was also analyzed. The average concentrations of NH 4 +, a targeted species, varied from 0.9 μg/m³ to 42.5 μg/m³. Note that the significant enhancements of NH 4 + coincided with increasing PM 2.5 masses, suggesting that NH 4 + was one of the contributing species for haze formation. The δ15N–NH 4 +averaged 12.4 ± 6.9‰ and the average δ15N–NH 3 were further calculated to be −9.0 ± 6.7‰ over the NCP region. Both δ15N–NH 4 + and δ15N–NH 3 showed negative correlations with PM 2.5 mass and there were no obvious differences among those 8 cities. Combining air-mass backward trajectories and quantifying contributions of potential sources, we pointed out that non-agricultural sources (fossil fuel related and NH 3 slip) were dominant sources (totally contributed 42%–85%) not only on extreme haze phase but also on haze accumulation/dissipation phase in all 8 cities of NCP region in winter, the heating season in North China. However, the contribution of fossil fuel related source reduced to only 20%–35% while livestock breeding source rose to about 15%–32% and NH 3 slip source kept contributing about 30% on the extreme haze phase. Thus, we considered that volatilization-related agricultural sources (especially livestock breeding) could discharge considerable NH 3 to form SIA-led haze event in urban cities of the NCP region, even though non-agricultural sources were the foremost sources. [Display omitted] • Regional transmission and source apportionments of atmospheric NH x during a haze event over the NCP were investigated. • Non-agricultural sources were the dominant sources (42%–85%). • Agricultural sources increased over 26% on extreme haze phase than others. [ABSTRACT FROM AUTHOR]

Details

Language :
English
ISSN :
13522310
Volume :
269
Database :
Academic Search Index
Journal :
Atmospheric Environment
Publication Type :
Academic Journal
Accession number :
153955593
Full Text :
https://doi.org/10.1016/j.atmosenv.2021.118800