제주연구원 제주지하수 연구센터 - 제주 지하수와 용천수의 순환 시스템 규명 연구-

References

1. Clark, L. D., & Fritz, P.(1997). Envirorunental Isotopes in Hydrology.
2. Dansgaard, W.(1964). Stable isotopes in precipitation. tellus, 16(4), 436-468.
3. K-water, 2021, 수위-유량관계 곡선식 산정 SW 매뉴얼.
4. Koh, D.C., Plummer, N.L., Solomon, K.D., Busenberg, E., Kim, Y., Chang, H., 2007. Application of environmental tracers to mixing, evolution, and nitrate contamination of ground water in Jeju Island, Korea. J. Hydrol. 327, 258-275.
5. Kong, Y., Pu, T., Wang, K., Shi, X., Ren, Y., Zhang, W., ... & Cuntz, M., 2023, Ambiguity in the altitude effect of precipitation isotopes for estimating groundwater recharge elevation and paleoelevation reconstruction in the leeward side of a mountain, Hydrogeology Journal, 31(5), 1259-1270.
6. Lee, S., Shimada, J., & Kayane, I. (1999). Stable isotopes in precipitation in the volcanic island of Cheju, Korea. Hydrological processes, 13(1), 113-121.
7. Plummer, L.N.,Bunsenberg, E., 2000. Chlorofluorocarbons. In: Cook, P.G., Herczeg, A.L. (Eds.), Environmental Tracers in Subsurface Hydrology. Kluwer Academic Publishers, Boston, Massachusetts, pp.441-478.
8. Sin, M, J., Moon, S, H., Moon, D, K., 2020, Analysis of groundwater level variability in the middle mountain area of Pyoseon watershed in Jeju Island using normalized standard deviation and cross correlation coefficient, J. Korea Water Resour, Vol. 53, pp.337-345.
9. Yang, J, S., and Kim, N, K., 2011, The correlation between the moving average of precipitation and groundwater level in Korea, Journal of the Korea Society of Civil Engineers, Vol. 31, No. 3B, pp. 265-276.
10. 제주지하수연구센터. 2021. 제주특별자치도 용천수 관리계획 보완계획(2022~2026).
11. 제주특별자치도, 2022, 제주특별자치도 통합물관리 기본계획(2013-2022).