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Environmental science and pollution research international
Jun, 2018;25 (17): 16652-16663.

Soil surface Hg emission flux in coalfield in Wuda, Inner Mongolia, China.

Chunhui Li, Handong Liang, Ming Liang, Yang Chen, Yi Zhou
Author Information
  1. Chunhui Li: State Key Laboratory of Coal Resoures and Safe Mining, China University of Mining and Technology, Beijing, 100083, China.
  2. Handong Liang: State Key Laboratory of Coal Resoures and Safe Mining, China University of Mining and Technology, Beijing, 100083, China. hdl6688@vip.sina.com.
  3. Ming Liang: State Key Laboratory of Coal Resoures and Safe Mining, China University of Mining and Technology, Beijing, 100083, China.
  4. Yang Chen: State Key Laboratory of Coal Resoures and Safe Mining, China University of Mining and Technology, Beijing, 100083, China.
  5. Yi Zhou: State Key Laboratory of Coal Resoures and Safe Mining, China University of Mining and Technology, Beijing, 100083, China.
PMID: 29603102 DOI: 10.1007/s11356-018-1804-x

Abstract

Hg emission flux from various land covers, such as forests, wetlands, and urban areas, have been investigated. China has the largest area of coalfield in the world, but data of Hg flux of coalfields, especially, those with coal fires, are seriously limited. In this study, Hg fluxes of a coalfield were measured using the dynamic flux chamber (DFC) method, coupled with a Lumex multifunctional Hg analyzer RA-915+ (Lumex Ltd., Russia). The results show that the Hg flux in Wuda coalfield ranged from 4 to 318 ng m h, and the average value for different areas varied, e.g., coal-fire area 99 and 177 ng m h; no coal-fire area 19 and 32 ng m h; and backfilling area 53 ng m h. Hg continued to be emitted from an underground coal seam, even if there were no phenomena, such as vents, cracks, and smog, of coal fire on the soil surface. This phenomenon occurred in all area types, i.e., coal-fire area, no coal-fire area, and backfilling area, which is universal in Wuda coalfield. Considering that many coalfields in northern China are similar to Wuda coalfield, they may be large sources of atmospheric Hg. The correlations of Hg emission flux with influence factors, such as sunlight intensity, soil surface temperature, and atmospheric Hg content, were also investigated for Wuda coalfield. Graphical abstract ᅟ.

Keywords

Coalfire Dust Hg Hg emission flux Soil Hg Wuda

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MeSH Term

Air Pollutants
China
Coal
Fires
Forests
Mercury
Russia
Soil
Temperature

Chemicals

Air Pollutants
Coal
Soil
Mercury
Journal Article

Word Cloud

Created with Highcharts 10.0.0HgareafluxcoalfieldWudaemissioncoal-fireChinacoalsurfaceareasinvestigatedcoalfieldsLumexebackfillingsoilatmosphericSoilvariouslandcoversforestswetlandsurbanlargestworlddataespeciallyfiresseriouslylimitedstudyfluxesmeasuredusingdynamicchamberDFCmethodcoupledmultifunctionalanalyzerRA-915+LtdRussiaresultsshowranged4318 ng m haveragevaluedifferentvariedg99177 ng m h1932 ng m h53 ng m hcontinuedemittedundergroundseamevenphenomenaventscrackssmogfirephenomenonoccurredtypesiuniversalConsideringmanynorthernsimilarmaylargesourcescorrelationsinfluencefactorssunlightintensitytemperaturecontentalsoGraphicalabstractInnerMongoliaCoalfireDust

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