Abstract
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This study evaluated the pattern of groundwater fluctuation in cyrstalline rock using time series and factor analyses. From the results, groundwater level for the 18 wells was classified into 4 types reflecting the hydrogeological properties and rainfall event. Type 1 (DB1-5, DB1-6, DB2-2, KB-10, KB-13) was significantly influenced by groundwater flow through water-conducting features, whereas type 2 (DB1-3, DB1-7, KB-1~KB-3, KB-7, KB-11, KB-14, KB-15) was affected by minor fracture network as well as rainfall event. Type 3 (DB1-1, DB1-2) was mainly influenced by surface infiltration of rainfall event. Type 4 (DB1-8, KB-9) was reflected by the irregular variation of groundwater level caused by anisotropy and heterogeneity of crystalline rock.
- Barton, C.A., Zoback, M.D., and Moos, D., 1995, Fluid flow along potentially active faults in crystalline rock, Geology, 23, 683-686.10.1130/0091-7613(1995)023<0683:FFAPAF>2.3.CO;2
- Cheong, J.-Y., Hamm, S.-Y., Kim, H.-S., Son, K.-T., Cha, Y.-H., Jang, S., and Baek, K.-H., 2003, Characterisitics of waterlevel fluctuation in riverside alluvium of Daesan-myeon, Changwon City, J. Eng. Geol., 13(4), 457-474.
- Choi, H.-M. and Lee, J.-Y., 2010, Groundwater level distribution and rainfall response characteristics in Haean basin of Yangu, J. Soil Groundw. Environ., 15(6), 1-8.
- Choi, H.-M., Lee, J.-Y., Ha, K., and Kim, G.-P., 2011, The study on time series analysis of groundwater data and groundwater recharge in Jeju Island, J. Eng. Geol., 21(4), 337-348.10.9720/kseg.2011.21.4.337
- Choi, W.C., Hwang, J.H., Yoon, U., and Kim, D.H., 1988, Gological map and explanatory note of the Eoil sheet (1:50,000), Korea Research of Geology Mining and Materials, 42 p.
- Davis, J.C., 2002, Statistics and data analysis in geology, 3rd ed., John Wiley & Sons, 638 p.
- Domenico, P.A. and Schwartz, F.W., 1990, Physical and Chemical Hydrogeology, John Wiley & Sons, New York, 824 p.
- Hamm, S.-Y., Kim, K.S., Lee, J.-H., Cheong, J.-Y., Sung, I.H., and Jang, S., 2006, Characteristics of groundwater quality in Sasan industrial area, Busan metropolitan city, Econ. Environ. Geol., 39, 753-770.
- Hwang, J.H., Kihm, Y.H., Kim, Y.B., and Song, K.Y., 2007, Tertiary hydroexplosion at Bonggil-ri, Yangbuk-myeon, Gyeongju, J. Geol. Soc. Korea, 43(4), 453-462.
- Jeong, J.-M., Park, Y.-C., Jo, Y.-J., and Lee, J.-Y., 2010, Time series analysis of groundwater level fluctuation data in Cheonjeonri, Chuncheon, Gangwon-do, J. Geol. Soc. Kor., 46(2), 171-176.
- Ji, S.-H., and Koh, Y.-K., 2010, The state-of-the art of groundwater flow modeling for safety assessment of a radwaste repository, J. Geol. Soc. Kor., 46(2), 181-195.
- Joreskog, K.G., Klovan, J.E., and Reyment, R.A., 1976, Geological factor analysis, Elsevier Scientific Publishing Company, Amsterdam. Oxford, New York, 178 p.
- Kim, G.-B., Cha, E.-J., Jeong, H.-G., and Shin, K.-H., 2013, Comparison of the time series of alluvial groundwater levels before and after barrage construction on the lower nakdong river, J. Eng. Geol., 23(2), 105-115.10.9720/kseg.2013.2.105
- Kim, G.-B., Son, Y.-C., Lee, S.-H., Jeong, A.-H., Cha, E.-J., and Ko, M.-J., 2012, Understanding of surface water - groundwater connectivity in an alluvial plain using statistical methods, J. Eng. Geol., 22(2), 207-221.10.9720/kseg.2012.22.2.207
- Kim, K.S. and Jeong, J.G., 2002, Hydrogeological stability study on the underground oil storage caverns by numerical modeling, J. Eng. Geol., 12(1), 35-51.
- Kim, K.-S., Kim, C.-S., Bae, D.-S., Ji, S.-H., and Yoon, S.-T., 2008, Hydrogeological characteristics of the LILW disposal site, J. Korean Radioactive Waste Soc., 6(4), 245-255.
- Kim, Y., Kim, T., Kim, K.-Y., Hwang, S.-H., and Chae, B.-G., 2005, Analysis of groundwater flow characterization in fractured aquifer system, J. Soil Groundw. Environ., 10(4), 33-44.
- Ko, N.-Y., Ji, S.-H., Koh, Y.-K. and Choi, J.-W., 2010, Influence of the fractured zone seize on the regional groundwater flow model of Olkiluoto site, Finland, J. Geol. Soc. Korea, 46(6), 619-631.
- Ko, K.-S., Ahn, S.S., Suk, H.J., Lee, J.S. and Kim, H.-S., 2008, Hydrogeochemistry and statistical analysis of water quality for small potable water supply system in Nonsan area. J. Soil Groundw. Environ., 13(6), 72-84.
- Larocque, M., Mangin, A., Razack, M., and Banton, O., 1998, Contribution of correlation and spectral analysis to the regional study of a large karst aquifer (Charente, France), J. Hydrol., 205, 217-231.10.1016/S0022-1694(97)00155-8
- Leckenby, R.J., Sanderson, D.J., and Lonergan, L., 2005, Estimating flow heterogeneity in natural fracture systems, J. Volcanol. Geotherm. Res., 148, 116-129.10.1016/j.jvolgeores.2005.03.017
- Lee, J.-H., Hamm, S.-Y., Cheong, J.-Y., Jeong, J.-H., Kim, N.-H., Kim, K.-S., and Jeon, H.-T., 2009a, Estimation of groundwater flow rate into jikri tunnel using groundwater fluctuation data and modeling, J. Soil Groundw. Environ., 14(5), 29-40.
- Lee, J.-H., Hamm, S.-Y., Cheong, J.-Y., Jeong, J.-H., Park, S.-K., Kim, N.-H., and Kim, G.-B., 2010, Numerical simulation of the change in groundwater level due to construction of the Giheung tunnel, J. Eng. Geol., 20(4), 449-459.
- Lee, J.-H., Hamm, S.-Y., Cheong, J.-Y., Kim, H.-S., Ko, E.-J., Lee, K.-S., and Lee, S.-I., 2009b, Characterizing riverbank-filtered water and river water qualities at a site in the lower Nakdong River basin, Republic of Korea, J. Hydrol., 376, 209-220.10.1016/j.jhydrol.2009.07.030
- Lee, J.-H., Hamm, S.-Y., Kim, K.S., Cheong, J.-Y., Ryu, S.M., Kim, D.-H., and Kim, H.-J., 2009c, Evaluation of groundwater quality using factor analyses and agrochemicals in an agricultural area, Econ. Environ. Geol., 42(3), 149-162.
- Lee, J.-H., Jung, H., Lee, E., and Kim, S., 2013, Estimation of groundwater level fluctuation of the crystalline site using time series analyses in South Korea, J. Korean Radioactive Waste Soc., 11(3), 179-192.10.7733/jnfcwt-k.2013.11.3.179
- Lee, J.-Y. and Lee, L.-K., 2002, A comparative study on characteristics of waterlevel responses to rainfall in the two aquifer system, Journal of Soil and Groundwater Environment, 7(1), 3-14.
- Lee, J.-Y. and Lee, K.-K., 2000, Use of hydrologic time series data for identification of recharge mechanism in a fractured bedrock aquifer system, J. Hydrol., 229, 190-201.10.1016/S0022-1694(00)00158-X
- Lee, J.-Y., Yi, M.J., and Hwang D., 2005, Dependency of hydrologic responses and recharge estimates on waterlevel monitoring locations within a small catchment, Geo. J., 9(3), 277-286.10.1007/BF02910588
- Lee, S.R., Kim, Y.S., Lee, J.W., Park, J.H., and Woo, I., 2004, Development of a technique for lineament density calculation and its application to groundwater yield, J. Geol. Soc. Kor., 40(3), 293-304.
- Massei, N., Dupont, J.P., Mahler, B.J., Laignel, B., Fournier, M., Valdes, D., and Ogier, S., 2006, Investigating transport properties and turbidity dynamics of karst aquifer using correlation, spectral, and wavelet analyses, J. Hydrol., 329, 244-257.10.1016/j.jhydrol.2006.02.021
- Meiri, D., 1985, Unconfined groundwater flow calculation into a tunnel, J. Hydrol., 82, 69-75.10.1016/0022-1694(85)90047-2
- Ministry of Construction & Transportation, 2002, Report of development of National groundwater monitoring network, GW-2002, Korea Water Resources Corporation, 393 p (in Korea).
- Moon, S.-H., Kim, Y.-S., Ha, K., Won, C.H., and Lee, J.-Y., 2010, Geological structures and their relation to groundwater system around K-1 oil stockpile, Econ. Environ. Geol., 43(2), 149-162.
- NAGRA, 1998, Geology of the crystalline basement of northern Switzerland and derivation of geological input data for safety assessment models, Technical Report 93-12, 236 p.
- NAGRA, 1994, Kristallin- Safety assessment report, Technical Report 93-22, 396 p.
- Panagopoulos, G. and Lambrakis, N., 2006, The contribution of time series analysis to the study of the hydrodynamic characteristics of the karst systems : application on two typical karst aquifers of Greece (Trifilia, Almyros Crete), J. Hydrol., 329, 368-376.10.1016/j.jhydrol.2006.02.023
- Papatheodorou, G., Lambrakis, N., and Panagopoulos, G., 2007, Application of multivariate statistical procedures to the hydrochemical study of a coastal aquifer: an example from Crete, Greece, Hydrol. Process., 21, 1482-1495.10.1002/hyp.6322
- Park, K.W., Ji, S.-H., Kim, C.S., Kim, K.S., Kim, J.Y., 2008, Numerical simulation of groundwater flow in LILW Repository site: . Grondwater flow modeling, J. Korean Radioactive Waste Soc., 6(4), 265-282.
- Park, K.W., Kim, K., Koh, Y.K., and Choi, J.W., 2011, Synthetic study on the geological and hydrogeological model around KURT, J. Korean Radioactive Waste Soc., 9(1), 13-21.10.7733/jkrws.2011.9.1.13
- Reghunath, R., Murthy, T.R.S., and Raghavan, B.R., 2002, The utility of multivariate statistical techniques in Hydrogeochemical studies: an example from Karnataka, India, Water Res., 36, 2437-2442.10.1016/S0043-1354(01)00490-0
- Song, Y.-S., Jang, Y.H., and Kim, J.-S., 2005, Landslide characteristics induced by heavy rainfall in Samcheok area, J. Eng. Geol., 15(4), 435-445.
- Yi, M.-J., Kim, G.-B., Sohn, Y.-C., Lee, J.-Y., and Lee, K.-K., 2004, Time series analysis of groundwater level data obtained from national groundwater monitoring station, J. Geol. Kor., 40(3), 305-329.
- SAS Institute Inc., 1995, SAS Version 9.1.3 Cary, North Carolina : SAS Institute Inc.
- SKB, 1998, Parameters of importance to determine during geoscientific site investigation, Technical Report 98-02, 130 p.
- Publisher :The Korean Society of Soil and Groundwater Environment
- Publisher(Ko) :한국지하수토양환경학회
- Journal Title :Journal of Soil and Groundwater Environment
- Journal Title(Ko) :지하수토양환경
- Volume : 19
- No :4
- Pages :12 ~ 22
- DOI :https://doi.org/10.7857/JSGE.2014.19.4.012


Journal of Soil and Groundwater Environment





