Complexity of hydrology, sewage and industries in distribution and migration pathways of heavy metals at spatial scale of China's brownfields

Hydrologic dynamics, sewage and industries determine the distribution and migration pathways of heavy metals in the natural environments including soils across the urbanized area. In this study, 323 stratified soil samples from a brownfield in Jiangsu Province, China, were collected to assess the he...

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Bibliographic Details
Published in:Ecohydrology 2024-06, Vol.17 (4), p.n/a
Main Authors: Yu, Jie‐Yu, Wang, Jian‐Jian, Zhang, Wei, Kattel, Giri R., Kumar, Amit, Yu, Zhi‐Guo
Format: Article
Language:English
Subjects:
brownfield
Brownfields
Building materials
Cadmium
Catchment area
Complexity
Construction materials
Contaminants
Contamination
Copper
Discharge
Fossil fuels
Fuel combustion
heavy metal contamination
Heavy metals
Hydrology
Jiangsu Province
Lead
Mercury
Mercury (metal)
Metal concentrations
Natural environment
Nickel
Pollution
Pollution index
Pollution sources
Principal components analysis
River catchments
Sewage
Soil
Soil analysis
Soil contamination
Soil pollution
Soil profiles
Soil properties
Soil surfaces
Soils
Solutes
source apportionment
Vertical distribution
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Summary:Hydrologic dynamics, sewage and industries determine the distribution and migration pathways of heavy metals in the natural environments including soils across the urbanized area. In this study, 323 stratified soil samples from a brownfield in Jiangsu Province, China, were collected to assess the heavy metals (Cu, Ni, Pb, Cd, As and Hg) contaminations. Contamination factor (Cfi), Nemerow pollution index (PIN) and enrichment factor (EFi) were evaluated to assess the heavy metal pollution, while sources of pollution were identified in combination with geo‐statistical, correlations and principal components analysis. Moreover, transport of Ni in soil profiles over the next 30 years was simulated using HYDRUS. The vertical distribution revealed that the soil surface (0–10 cm) had the highest concentration of heavy metal contamination. ICP‐MS measurements showed that the soil in the brownfield was enriched with Cu, Ni, Pb, Cd, As and Hg, where Ni was the most severe and prevalent contaminant. The results of source apportionment analysis showed that Ni, Cd, Pb and Cu were mainly derived from building materials and sewage discharge, while As and Hg may come from fossil fuel combustion and agricultural discharges from upstream river catchment. The migration of Ni was largely driven by the combination of hydrological variability including the flow and solute contaminant gradients in soils. Our work highlights the need for a comprehensive understanding of the complexity of hydrology, and sewage discharge in heavy metal dynamics and migration pathways in China's brownfield soil at regional and national scales.
ISSN:1936-0584
1936-0592
DOI:10.1002/eco.2588