YoungsungShin1·TaehyeongKim1·SuhyungMoon1*·Seong-TaekYun2·DukchulMoon1·HeejooHan1·KyoungguKang1
1Water Resources Research Team, Jeju Special Self-Governing Province Development Co., Jeju 63345 Korea
2Department of Earth and Environmental Sciences, Korea University, Seoul 02841, Korea
신영승1·김태형1·문수형1*·윤성택2·문덕철1·한희주1·강경구1
1제주특별자치도개발공사 수자원연구팀
2고려대학교 지구환경과학과
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This study evaluated monthly, seasonal and altitudinal changes of oxygen and hydrogen isotope compositions of wet precipitation samples (n = 238) that were collected for last four years from 7 altitudes (from 265 to 1,500 m above sea level) in the Jeju Samdasoo watershed at the southeastern part of Jeju island, in order to examine the recharge characteristics of groundwater that is pumped out for the production of the Samdasoo drinking mineral water. Precipitation samples showed a clear seasonal change of O-H isotopic composition as follow, due to the different air masses and relative humidity: δD = 7.3δ18O + 11.3 (R2 = 0.76) in the wet season (June to September), while δD = 7.9δ18O + 9.5 (R2 = 0.91) in the dry season (October to May). In contrast, the stable isotope compositions of groundwater were nearly constant throughout the year and did not show a distinct monthly or seasonal change, implying the well-mixing of infiltrated water during and after its recharge. An altitudinal effect of the oxygen isotope compositions of precipitation was also remarkable with the decrease of –0.19‰ (R2 = 0.91) with the elevation increase by 100 m. Based on the observed altitudinal change, the minimum altitude of groundwater recharge was estimated as 1,200 m above the sea level in the Jeju Samdasoo watershed
Keywords: Groundwater recharge, Jeju Samdasoo watershed, Recharge altitude, Oxygen and hydrogen isotopes of precipitation