The hydtogeochemical and isotopic studies on deep groundwater (below a 550m depth from the ground surface) in the Munkyeong area, Kyeongbuk province were carried out. Two types of deep groundwater (CO₂-rich groundwater and alkali groundwater) occur together in the Munkywong area. CO₂-rich groundwater (Ca-HCO₃type) is characterized by low pH (5.8∼6.5) and high TDS (up to 2,682 mg/L), while alkali groundwater (Na-HCO₃type) shows a high pH (9.1∼10.4) and relatively low TDS (72∼116 mg/L). CO₂-rich water may have evolved by CO₂added at depth during groundwater circulation. This process leads to the dissolution of surrounding rocks and Ca, Na, Mg, K and HCO₃concentrations are enriched. The low PCO₂(10-6.4 atm) of alkali groundwaters seems to result from the dissolution of silicate minerals without a supply of CO₂. The δ18O and δD values and tritium data indicate that two types of deep groundwater were both derived from pre-thermonuclear meteoric water and have evolved through prolonged water-rock interaction. The carbon isotope data show that dissolved carbon in the CO₂-rich water was possibly derived from deep-seated CO₂gas, although further studies are needed. The δ34S values of dissolved sulfate show that sulfate reduction occurred at great depths. The appliation of various chemical geothermoneters on CO₂-rich groundwater shows that the calculated deep reservoir temperature is about 130∼175℃. Based on the geological setting, water chemistry and environmental isotope data, each of the two types of deep groundwater represent distinct hydrologic and hydrogeochemical evolution at depth and their movement is controlled by the local fracture system.
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