TY - JOUR
T1 - Isotopic compositions of atmospheric total gaseous mercury in 10 Chinese cities and implications for land surface emissions
AU - Fu, Xuewu
AU - Liu, Chen
AU - Zhang, Hui
AU - Xu, Yue
AU - Zhang, Hui
AU - Li, Jun
AU - Lyu, Xiaopu
AU - Zhang, Gan
AU - Guo, Hai
AU - Wang, Xun
AU - Zhang, Leiming
AU - Feng, Xinbin
N1 - Funding Information:
Acknowledgements. This work was funded by the National Key R&D Program of China (2017YFC0212001), the Chinese Academy of Sciences (ZDBS-LY-DQC029 and 2017443), the National Nature Science Foundation of China (41622305) and the K. C. Wong Education Foundation. We also thank Guangcai Zhong, Shuhao Dong, Baoxin Li, Shizhen Zhao, Bolun Zhang, Jiao Tang, Hongxing Jiang, Buqing Xu, Yu Wang, Dawen Yao, Fengwen Huang, Kun Nie, Lingxi Zhan, Jiaying Wang, Liuyuan Zhao and Zhanxiang Wang who have contributed to the sampling of TGM. We thank the two anonymous reviewers for their thoughtful suggestions.
Funding Information:
Financial support. This research has been supported by
Publisher Copyright:
© 2021 EDP Sciences. All rights reserved.
PY - 2021/5
Y1 - 2021/5
N2 - Land surface emissions are an important source of atmospheric total gaseous
mercury (TGM); however, its role on the variations of TGM isotopic
compositions and concentrations has not been properly evaluated. In this
study, TGM isotope compositions, a powerful tracer for sources and
transformation of Hg, were measured at 10 urban sites and one rural site in
China. TGM concentrations were higher in summer than in winter in most
cities except in Guiyang and Guangzhou in the low latitudes. The summertime
high TGM concentrations coincided with prevailing low TGM δ202Hg and high TGM Δ199Hg signatures. These seasonal
patterns were in contrast with those typically observed in rural areas in
the Northern Hemisphere, suggesting that atmospheric oxidation chemistry,
vegetation activity and residential coal combustion were likely not
the dominant mechanisms contributing to the TGM concentration and isotopic
composition seasonality in Chinese cities. The amplitudes of seasonal
variations in TGM concentrations and Δ199Hg (or TGM δ202Hg) were significantly positively (or negatively) correlated with
that of the simulated soil GEM emission flux. These results suggest that the
seasonal variations in TGM isotopic compositions and concentrations in the
10 Chinese cities were likely controlled by land surface emissions that
were observed or reported with highly negative δ202Hg
signatures.
AB - Land surface emissions are an important source of atmospheric total gaseous
mercury (TGM); however, its role on the variations of TGM isotopic
compositions and concentrations has not been properly evaluated. In this
study, TGM isotope compositions, a powerful tracer for sources and
transformation of Hg, were measured at 10 urban sites and one rural site in
China. TGM concentrations were higher in summer than in winter in most
cities except in Guiyang and Guangzhou in the low latitudes. The summertime
high TGM concentrations coincided with prevailing low TGM δ202Hg and high TGM Δ199Hg signatures. These seasonal
patterns were in contrast with those typically observed in rural areas in
the Northern Hemisphere, suggesting that atmospheric oxidation chemistry,
vegetation activity and residential coal combustion were likely not
the dominant mechanisms contributing to the TGM concentration and isotopic
composition seasonality in Chinese cities. The amplitudes of seasonal
variations in TGM concentrations and Δ199Hg (or TGM δ202Hg) were significantly positively (or negatively) correlated with
that of the simulated soil GEM emission flux. These results suggest that the
seasonal variations in TGM isotopic compositions and concentrations in the
10 Chinese cities were likely controlled by land surface emissions that
were observed or reported with highly negative δ202Hg
signatures.
UR - http://www.scopus.com/inward/record.url?scp=85105478869&partnerID=8YFLogxK
U2 - 10.5194/acp-21-6721-2021
DO - 10.5194/acp-21-6721-2021
M3 - Journal article
AN - SCOPUS:85105478869
SN - 1680-7316
VL - 21
SP - 6721
EP - 6734
JO - Atmospheric Chemistry and Physics
JF - Atmospheric Chemistry and Physics
IS - 9
ER -