Paper No. 9
Presentation Time: 1:30 PM-5:30 PM
THE CHARACTERISTICS OF GROUNDWATER QUALITY USING HYDROGEOCHEMICAL ANALYSIS AT THE GIMHAE CITY, KOREA
Groundwater and surface water were analyzed to understand the hydrogeochemical characteristics of groundwater at the Gimhae City in Korea. Trilinear diagram showed that CaHCO3 type (53%) was the most predominant, and CaCl2 type (39.2%) and NaCl type (7.8%) were dominant in order. The main components of groundwater contamination were Cl- from saline water, and NO3-N from sewage, livestock and fertilizer. The origin of NO3-N was estimated from the nitrogen isotope ratio δ15N. The main source of nitrogen was municipal sewage and livestock. Groundwater was classified into 4 groups using the background concentration of Cl- and NO3-N extracted from Sinclair′s method (1974). The background concentration was 61.2 mg/L for Cl- and 9.1 mg/L for NO3-N. The influence of groundwater from saline water was examined by Cl/HCO3 ratio, Na/Cl ratio, Br/Cl ratio, and SO4/Cl ratio. Cl/HCO3 ratio showed that 52.8% of groundwater was fresh water, and 24.9% of groundwater was contaminated by saline water. The Na/Cl ratio was 1.53 in average, and was much higher than the average ratio 0.85 (Cho et al., 2003) of seawater. The Br/Cl ratio was 39.1X10-4 in average, and was higher than the average ratio 34.7X10-4 (Morris and Riley, 1966) of seawater. The SO4/Cl ratio was 0.1546 in average, and was much higher than the average ratio 0.1050 (Steinkampf, 1982) of seawater. Hydrogen and Oxygen Isotope Ratio was used for the identification of groundwater origin. The hydrogen isotope ratio δD was from -62.0 to -32.7, and the oxygen isotope ratio δ18O was from -8.8 to -5.4. The data of Hydrogen and Oxygen Isotope Ratio were very close to meteoric water line (δD = 8δ18O + 10) of Craig (1961), and indicated that the groundwater of study area came from the meteoric water. Therefore, It was concluded that the origin of chloride was not directly from the sea, but from the old residual saline water.