참고문헌
- Aller, L., Bennett, T., Lehr, J.H., Petty, R.J. and Hackkett, G. (1987) DRASTIC: A standard system for evaluating ground water pollution potential using hydrogeologic settings, U.S. Environmental Protection Agency, 600/2-87/035, Washington, D.C., 455p
- Anderson, M. and Kustas, W. (2008) Thermal remote sensing of drought and evapotranspiration, EOS, Am. Geophys. Union Trans., v. 89, p. 233-234 https://doi.org/10.1029/2008EO260001
- Andres, G. and Egger, R. (1985) A new tritium interface method for determining the recharge rate of deep groundwater in the Bavarian Molasse basin, J. Hydrol., v. 82, p. 27-38 https://doi.org/10.1016/0022-1694(85)90044-7
- Arnold, J.G., Muttiah, R.S., Srinivasan, R. and Allen, P.M. (2000) Regional estimation of base flow and groundwater recharge in the upper Mississippi river basin, J. Hydrol., v. 227, p. 21-40 https://doi.org/10.1016/S0022-1694(99)00139-0
- Bae, S-K. and Kim, Y.-H. (2006) Estimation of groundwater recharge rate using the NRSC-CN and the baseflow separation methods, J. Environ. Sci., v. 15, p. 253-260 https://doi.org/10.5322/JES.2006.15.3.253
- Blaney, H.F. and Criddle, W.D. (1950) Determining water requirements in irrigated areas from climatological and irrigation data, USDA(SCS) TP-96, 48p
- Chen, W.-P. and Lee, C.-H. (2003) Estimating groundwater recharge from streamflow records, Environ. J., v. 44, p. 257-265
- Cho, S.-H., Moon, S.-H., Song, M.Y. and Ha, G.-C. (2006) Estimation of groundwater recharge in Yuseong Spa district, Daejeon, 2006 Spring Meeting of Korea Society of Economic and Environmental Geology, p. 651-657
- Choi, B.-S. and Ahn, J.-G. (1998) A study on the estimation of regional groundwater recharge ratio, J. Korean Soc. Groundwater Environ., v. 5, p. 57-65
- Chon, H.-T., Kim, J.D., Kim, O.B., Min, K.W., Park, Y.S. and Yoon, C.H. (1997) Applied Geochemistry, Seoul National University Press, 380p
- Chung, Y.H. and Kim, K.H. (2000) Estimation of groundwater recharge rate with SCS-CN method in Miwon, J. Inst. of Construction Tech., v. 19, p. 181-190
- Doorenbos, J. and Pruitt, W.O. (1977) Crop water requirements. FAO Irrigation and Drainage Paper No. 24. Food and Agricultural Organization of the United Nations, Rome, Italy, 144p
- Fetter, C.W. (2001) Applied hydrogeology, Prentice Hall, Upper Saddle River, NJ 07458, 598p
- Freeze, R.A. and Cherry, J.A. (1979) Groundwater, Prentice Hall, Englewood Cliffs, 604p
- Goel, N.K., Kurothe, R.S., Mathur, B.S. and Vogel, R.M. (2000) A derived flood frequency distribution for correlated rainfall intensity and duration, J. Hydrol., v. 228, p. 56-67 https://doi.org/10.1016/S0022-1694(00)00145-1
- Hamm, S.-Y., Cheong, J.-Y., Kim, H.-S., Hahn, J.-S. and Cha, Y.-H. (2005) Groundwater flow modeling in a riverbank filtration area, Daesan-Myeon, Changwon City, Econ. Environ. Geol., v. 38, p. 67-78
- Koh, Y.-K., Bae, D.-S., Kim, C.-S., Kim, K.-S., Chung, H.-J. and Kim, S.-Y. (2001) Consideration of the groundwater recharge based on environmental isotopic characteristics of the small basin in the Yeosu area, J. Korean Soc. Soil and Groundwater Environ., v. 6, p. 93-106
- Koo, M.H. and Lee, D.H. (2002) A numerical analysis of the water level fluctuation method for quantifying groundwater recharge, J. Geol. Soc. Korea, v. 38, p. 407-420
- Korea Meteorological Administration (2007) http://www.kma.go.kr
- Korea Rail Network Authority and Ilshinhitec Co. (2005) Complementary report on geological survey for designing Gyeongbu Express Railway 13th section, 787p
- Korea Water Resources Corporation (1993) Report on survey of groundwater resources of Korea-preliminary survey and evaluation, 342p
- Korea Water Resources Corporation (1994) The 2nd report on survey of groundwater resources of Korea for legislation of groundwater usage and management as well as for selection of development area of groundwater as substitutive water, 405p
- Korea Water Resources Corporation (1995) The 3rd report on survey of groundwater resources of Korea for groundwater management, 349p
- Lee, D.-R. (1995) Prediction of long-term low streamflow and groundwater recharge using groundwater recession curve. Ph. D. thesis, Korea University, Seoul, Korea, 359p
- Lee, D.-R. and Yoon, Y.N. (1996) Estimation and analysis of groundwater recharge in Korea, J. Civil Eng., v. 16, p. 321-334
- Lee, M.S. and Kang, P.C. (1964) Geological map and explanatory text of Yangsan area, Geological Survey of Korea, 24p
- Lee, S.H. and Bae, S.K. (2004) Estimation of precipitation recharge in the Pyungchang River basin using SCS-CN method, J. Environ. Sci., v. 13, p. 1033-1039 https://doi.org/10.5322/JES.2004.13.12.1033
- Lee, Y.J. and Lee, I.K. (1972) Geological map and explanatory text of Eonyang area, Geological Survey of Korea, 22p
- Linsley, R.K., Kohler, M.A. and Paulhus, J.L.H. (1949) Applied hydrology, McGraw-Hill, Inc., 639p
- McCuen, R.H. (1982) A guide to hydrologic analysis using SCS methods, Prentice Hall, Englewood Cliffs, 110p
- Meyboom, P. (1961) Estimating groundwater recharge from stream hydrographs, J. Geophys. Res., v. 66, p. 1203-1214 https://doi.org/10.1029/JZ066i004p01203
- Mockus, V. (1949) Estimation of total (and peak rates of) surface runoff for individual storms. Exhibit A of Appendix B, Interim Survey Report, Grand (Neosho) River watershed, USDA, Washington, DC
- Monteith, J.L. (1965) Evaporation and environment, In Fogg, G.E., ed., symposium of the Society for Experimental Biology, The State and Movement of Water in Living Organisms, 19, Academic Press, Inc., NY, p. 205-234
- Moon, S.-K. and Woo, N.-C. (2001) Estimation of groundwater recharge ratio using cumulative precipitation and water-level change, J. Korean Soc. Soil and Groundwater Environ., v. 6, p. 33-43
- Morel-Seytoux, H.J. and Verdin, J.P. (1981) Extension of the soil conservation service rainfall-runoff methodology for ungaged watersheds, Report FHWA/RD-81/060 Offices of Research & Development Environmental Division, U.S. Federal Highway Administration, 75p
- National Institute for Disaster Prevention (2008) http://www.nidp.go.kr
- Park, C.-K. (1996a) Estimation of the available amount of groundwater in South Korea: 1. Development of the method, J. Korean Soc. Groundwater Environ., v. 3, p. 15-20
- Park, C.-K. (1996b) Estimation of the available amount of groundwater in South Korea: 2. Application of five major river basins, J. Korean Soc. Groundwater Environ., v. 3, p. 21-26
- Penman, H.L. (1948) Natural evapotranspiration from open water, bare soil, and grass, Proc. Roy. Soc. London, Ser. A, Mathematical and Physical Sciences, v. 193, p. 120-145 https://doi.org/10.1098/rspa.1948.0037
- Ponce, V.M. and Hawkins, R.H. (1996) Runoff curve number: has it reached maturity?, J. Hydrologic Eng., v. 1, p. 11-19 https://doi.org/10.1061/(ASCE)1084-0699(1996)1:1(11)
- Scozzafava, M. and Tallini, M. (2001) Net infiltration in the Gran Sasso Massif of central Italy using the thornthwaite water buget and curve-number method, Hydrogeol. J., v. 9, p. 461-475 https://doi.org/10.1007/s100400100151
-
Solomon, D.K., Schief, S.L., Poreda, R.J. and Clarke, W.B. (1993) A validation of
$^3H$ /$^3He$ method for determining groundwater recharge, Water Resour. Res., v. 29, p. 2951-2962 https://doi.org/10.1029/93WR00968 - Sukhija, B.S., Reddy, D.V., Nagabhushanam, P. and Hussain, S. (1996) Environmental and injected tracers methodology to estimate direct precipitation recharge to a confined aquifer, J. Hydrol., v. 177, p. 77-97 https://doi.org/10.1016/0022-1694(95)02788-2
- Sunwoo, J.H. (1992) The need for development of groundwater in Korea, J. Korea Water Resour. Assoc., v. 25, p. 6-17
- Thornthwaite, C.W. (1944) Report of the committee on transpiration and evaporation, Am. Geophys. Union Trans., v. 25, p. 683-693 https://doi.org/10.1029/TR025i005p00683
- Thornthwaite, C.W. and Mather, J.R. (1957) Instruction and tables for computing potential evapotranspiration and the water balance, 5th printing, v.10, CW Thornthwaite Associates, Laboratory of Climatology, Elmer, NJ, USA
- Turc, L. (1963) Evaluation des besoins en eau d'irrigation, evapotranspiration potentielle, formulation simplifie et mise a jour, Ann. Agron., v. 12, p. 13-49