Migration and transformation of soil mercury in a karst region of southwest China : implications for groundwater contamination

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Language of the publication
English
Date
2022-10-22
Type
Accepted manuscript
Author(s)
  • Xia, Jicheng
  • Wang, Jianxu
  • Zhang, Leiming
  • Wang, Xun
  • Yuan, Wei
  • Peng, Tao
  • Zheng, Lirong
  • Tian, Weijun
  • Feng, Xinbin
Publisher
Elsevier

Abstract

Guizhou Province is located in the heart of a karst zone in southwest China, which is one of the largest karst areas in the world. Given the fragile surface ecosystem and highly developed underground karst structure, the migration and transformation of soil Hg may impact groundwater quality in karst environments with high Hg background concentrations. This study examines the vertical migration and transformation of soil mercury (Hg) in two karst catchments, Huilong and Chenqi, with the former containing high Hg contents associated with mineralization and the latter representing regional background Hg. The results show that the soil Hg pool in the Huilong catchment was as high as 44.4±4.2 g m−2, whereas in the Chenqi catchment was only 0.17±0.02 g m−2. Compared with farmland soil, forest soil showed a significant loss of Hg. The results of L3 X-ray absorption near edge structure of Hg indicated that α-HgS, the primary mineral of Hg ore, gradually changed to other mineral types during soil formation. In Huilong catchment, the proportion of organic bound Hg(SR)2 out of total Hg decreased from 44.0% to 20.3% when soil depth increased from 10 cm to 160 cm in farmland soil profile and from 39.3% to 34.5% in forest soil profile, while the proportion of ionic Hg increased with soil depth, from 4.2% to 10.7% in the farmland soil profile and from 6.7% to 11.6% in the forestland soil profile. Results from the triple-mixing isotope model show that soil Hg accounts for more than 80% Hg in groundwater in the two catchments. Results from this study indicate potential risks of soil Hg entering into groundwater in this karst area.

Subject

  • Groundwater,
  • Mercury,
  • Soil

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Pagination

33 pages

Peer review

Yes

Open access level

Green

Identifiers

ISSN
1879-2448
0043-1354

Article

Journal title
Water Research
Journal volume
226
Article number
119271
Accepted date
2022-10-17
Submitted date
2022-07-30

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Water

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