Sources and Dynamic Processes Controlling Background and Peak Concentrations of TGM in Nanjing, China

Total gaseous mercury (TGM) data from urban Nanjing, at the western edge of the Yangtze River Delta (YRD) region in China, over nine months, were analyzed for peak and background mercury concentrations. The background concentration of TGM was found to be 2.2 ng∙m−3. In examining episodic influences...

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Bibliographic Details
Published in:Atmosphere 2014-03, Vol.5 (1), p.124-155
Main Authors: Hall, Casey, Mao, Huiting, Ye, Zhuyun, Talbot, Robert, Ding, Aijun, Zhang, Yang, Zhu, Jialei, Wang, Tijian, Lin, Che-Jen, Fu, Congbin, Yang, Xiuqun
Format: Article
Language:English
Subjects:
Air masses
ASGM
background concentrations
China
Emission inventories
Heterogeneity
Mercury
Rural areas
Seasonal variations
Sulfur dioxide
Total Gaseous Mercury
Troposphere
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Summary:Total gaseous mercury (TGM) data from urban Nanjing, at the western edge of the Yangtze River Delta (YRD) region in China, over nine months, were analyzed for peak and background mercury concentrations. The background concentration of TGM was found to be 2.2 ng∙m−3. In examining episodic influences of free tropospheric air masses on the surface TGM concentrations in Nanjing, we hypothesize heterogeneity in the global distribution of TGM concentrations in the free troposphere. The nine-month averaged diurnal cycles of TGM indicate a strong co-emission with SO2 and an underestimation of greater than 80% TGM emissions in current inventories. Regular peak concentrations of mercury were investigated and the major causes were YRD emissions, transport from rural areas, and monsoonal transport. Transport of rural emissions is hypothesized to be from illegal artisanal small-scale gold mining that are currently missing in the emission inventories. Enhancement of TGM associated with summer monsoon contributed to a maximum TGM concentration in mid-May–early June, an inverse seasonality in comparison to most other observations in China, North America, and Europe.
ISSN:2073-4433
2073-4433
DOI:10.3390/atmos5010124