Abstract
The ionic and isotopic compositions (δD, δ18O, and 3H) of urban groundwaters have been monitored in Seoul to examine the water quality in relation to land-use. High tritium contents (6.1-12.0 TU) and the absence of spatial/seasonal change of O-H isotope data indicate that groundwaters are well mixed within aquifers with recently recharged waters of high contamination susceptibility. Statistical analyses show a spatial variation of major ions in relation to land-use type. The major ion concentrations tend to increase with anthropogenic contamination, due to the local pollutants recharge. The TDS concentration appears to be a useful contamination indicator, as it generally increases by the order of forested green zone (average 151 mg/l), agricultural area, residential area, traffic area, and industrialized area (average 585 mg/l). With the increased anthropogenic contamination, the groundwater chemistry changes from a Ca-HCO3 type toward a Ca-Cl(+NO3) type. The source and behavior of major ions are discussed and the hydrochemical backgrounds are proposed as the basis of a groundwater management plan.
| Original language | English |
|---|---|
| Pages (from-to) | 979-990 |
| Number of pages | 12 |
| Journal | Environmental Geology |
| Volume | 48 |
| Issue number | 8 |
| DOIs | |
| Publication status | Published - 2005 Oct |
Bibliographical note
Funding Information:Acknowledgements This work was supported by a grant (2000-2-13100-001-3) from the Interdisciplinary Research Program of the Korea Science and Engineering Foundation (KOSEF). The maintenance of a gas-isotope mass spectrometer used for this study was supported by the Korea Basic Science Institute (KBSI) and the Environmental Geosphere Research Lab (EGRL) of Korea University.
Keywords
- Hydrochemistry
- Korea
- Land use and contamination
- Seoul
- Stable isotopes
- Urban groundwater
ASJC Scopus subject areas
- Environmental Chemistry
- Water Science and Technology
- Pollution
- Soil Science
