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Analysis of Groundwater Level Changes Due to Earthquake in Jeju Island (For the Indonesian Earthquake with Magnitude 7.7 in 2010)
Lee, Soo-Hyoung;Hamm, Se-Yeong;Ha, Kyoo-Chul;Kim, Yong-Cheol;Cheong, Beom-Keun;Ko, Kyung-Seok;Koh, Gi-Won;Kim, Gee-Pyo;
Korea Institute of Geoscience and Mineral Resources;Division of Earth Environmental System, Pusan National University;Korea Institute of Geoscience and Mineral Resources;Korea Institute of Geoscience and Mineral Resources;Korea Institute of Geoscience and Mineral Resources;Korea Institute of Geoscience and Mineral Resources;Water Resource Headquarter, Jeju Special Self-Governing Province;Water Resource Headquarter, Jeju Special Self-Governing Province;
지진에 의한 제주도 지하수위 변동 분석 (2010년 인도네시아 규모 7.7 지진)
이수형;함세영;하규철;김용철;정범근;고경석;고기원;김기표;
한국지질자원연구원;부산대학교 지구환경시스템학부;한국지질자원연구원;한국지질자원연구원;한국지질자원연구원;한국지질자원연구원;제주특별자치도 수자원 본부;제주특별자치도 수자원 본부;

References

1. 고기원, 1997, 제주도의 지하수 부존특성과 서귀포층의 수문지질학적 관련성, 박사학위논문, p. 325.
2. 고기원, 2001, 하와이주의 수문지질과 지하수관리, 제주도 광역수자원관리본부, p. 313.
3. 국립해양조사원, 2010, 2010년 조석표, http://www.khoa.go.kr.
4. 기상청, 2010a, 2010년 국외 지진정보, http://www.kma.go.kr/.
5. 기상청, 2010b, 제주 기상연보, http://www.kma.go.kr/.
6. 옥순일, 함세영, 김봉상, 정재열, 우남칠, 이수형, 고기원, 박윤석, 2010, 제주도 서부지역의 대수층 체계와 지진에 의한 지하수위 변동 특성, 자원환경지질, 43(4), 359-369.
7. 윤선, 고기원, 김인탁, 1995, 제주도 형성사, 제주도지(98), 148-164 p.
8. 최병수, 1999, 제주도 지하수의 우물 비양구량자료를 이용한 대수층상수 결정방법, 지하수 환경, 6(4), 108-187.
9. 한국지질자원연구원, 2008, 제주도 지하수 부존 특성에 대한 지구과학적 해석, p. 365.
10. 한국지질자원연구원, 2010, 버자야제주리조트 예래 휴양형 주거단지 조성에 따른 용천수 영향 조사, p. 187.
11. Brodsky, E.E., Roeloffs, E., Woodcock, D., Gall, I., and Manga M., 2003, A mechnism for sustained groundwater pressure changes induced by distant earthquakes, Journal of Geophysical Research, 108(b8), 2390.
12. Caporali, A., Braitenberg, C., and Massironi, M., 2005, Geodetic and hydrological aspects of the Merano earthquake of 17 July 2001, Journal of Geodynamics, 39, 317-336.
13. Chia, Y., Chiu, J.J., Chiang, Y-H., Lee T.P., and Lee, C-W., 2008, Spatial and Temporal Changes of Groundwater Level Induced by Thrust Faulting, Pure appl, Geophys, (165), 5-16.
14. Chiu, F., Hsu, U., and Wang, C., 2010, Earthquake-induced Anomalous Groundwater Hydrologic Changes in Dor-Her station, Tawan, AGU, West. Pac. Geophys.
15. Chen, C., Wang, C., Chiu, F., Lia, W., Wang, C., Hsu, K., and Chia, Y., 2010, A large-scale groundwater level precursor associated with the 1999 Taiwan Chi-Chi earthquake, AGU, West. Pac. Geophys.
16. Cooper, H.H. and Jacob, C.E., 1946, A generalized graphical method for evaluating formation constants and summarizing well field history, Am. Geophys. Union Trans., 27, 526-534.
17. Cutillo, P.A. and Ge, S., 2006, Analysis of strain-induced groundwater fluctuations at Devils Hole, Navada, Geofluids, 6, 319-333.
18. Gau, H-S., Chen, T-C., Chen J-S., and Liu, C-W., 2007, Time series decomposition of groundwater level changes in wells due to the Chi-Chi earthquake in Taiwan: a possible hydrological precursor to earthquakes, Hydrological Processes, 21, 510-524.
19. Grecksch, G., Roth, F., and Kumple, H.J., 1999, Coseismic well level changes due to the 1992 Roermond earthquake compared with static deformation of half space solutions, Geophysical Journal International, 138, 470-478.
20. Ekemen Keskin, T., 2010, Groundwater changes in relation to seismic activity: a case study from Eskipazar (Karabuk, Turkcy). Hydrogeology Journal, 10, 1007.
21. Hamm, S.-Y., Cheong, J.-Y., Jang, S., Jung, C.-Y., and Kim, B.- S., 2005, Relationship between transmissivity and specific capacity in the volcanic aquifers of Jeju Island, Korea, Journal of Hydrology, 310, 111-121.
22. Hamm, S.-Y., Lee, S.-H., Park, Y.-S., Koh, K.-W., Cheong, J.-Y. and Lee, J.-H., 2009, Relationship between earthquake and groundwater change observed in Jeju Island, Korea, Asia Oceania Geosciences Society(AOGS) 6th Annual Meeting, Singapore, 110.
23. Kim, M., Lee, H., and Woo, N.C., 2010, Changes in groundwater level, temperature and EC due to Sichuan earthquake (M7.8) in Korea National Groundwater Monitoring Network, AGU, West. Pac. Geophys.
24. Koizumi, N., Kitagawai, Y., Matsumoto, N., Takahashi, M., Sato, T., Kamigaich, O., and Nakamura, K., 2004, Pre-seismic groundwater level changes induced by crustal deformations related to earthquake swarms off the east coast of Izu Peninsula, Japan, Geophysical Research Letters, 31, L10606.
25. Moench, A.F., 1985, Transient flow to a large-diameter well in an aquifer with storage semiconfining layers, Water Resources Research, 21, 1121-1131.
26. Montgomery, D.R. and Manga, M., 2003, Streamflow and water well responses to earthquakes, Science, 300, 2047-2049.
27. Muir-Wood, R. and King, G.C.P., 1993, Hydrological signature of earthquake strain, Journal of Geophysical Research, 98(22), 035-068.
28. Ohno, M., Sato, T., Notsu, K., Wakita, H., and Ozawa, K., 2006, Groundwater-level changes due to pressure gradient induced by nearby earthquakes off Izu Peninsula, 1997, Pure and Applied Geophysics, 163, 647-655.
29. Ramana, D.V., Chadha, R.K., Singh, C., and Shekar, M., 2007, Water level fluctuations due to earthquakes in Koyna-Warna region, India, Natural Hazards, 40, 585-592.
30. Roeloffs, E.A., 1998, Persistent water level changes in a well near Parkfield, California, due to local and distant earthquake, Journal of Geophysical Research, 103, 869-889.
31. Rojstaczer, S., Wolf, S., and Michel, R., 1992, Permeability enhancement in the shallow crust as a cause of earthquake induced hydrological changes, Nature 373, 237-239.
32. Sato, T., Takahashi, M., Matsumoto, N., and Tsukuda, E., 1995, Anomalous ground water discharge after the 1995 kobe(Hyogoken- nanbu) earthquake in the Awaji island, Japan, Chishitsu News (496), 61-66.
33. Sibson, R.H., 1981, Fluid flow accomapanying faulting: Field evidence and models. In: Simpson, D.W., Richards, P.G. (Eds.). Earthquake Prediction, American Geophysical Maurice Ewing Series, 4, 593-603.
34. Singh, V.S., 2008, Impact of the earthquake and Tsunami of December 26, 2004, on the groundwater regime at Neill Island (south Andaman), Journal of Environmental Management, 89, 58-62.
35. Shih, D.C-F., 2009, Srorage in confined aquifer: Spectral analysis of groundwater response to seismic Rayleigh waves, Journal of Hydrology, 374, 83-91.
36. Takamura, H. and Kono, T., 1996, Trend of spring water and groundwater in the Awaji Island after the 1995 Hyogo-nanbu earthquake. Journal of Groundwater Hydrology, 38, 331-338.
37. Tokunaga, T., 1999, Modeling of earthquake-induced hydrological changes and possible permeability enhancement due to the 17 January 1995 Kobe Earthquake, Japan, Journal of Hydrology 223, 221-229.
38. Wakita, H., 1975, Water wells as possible indicators of tectonic strain, Science, 189, 553-555.
39. Wang, C.Y., Wang, C.H., and Kuo, C.H., 2004, Temporal changes in groundwater level following the 1999 (Mw = 7.5) Chi-Chi earthquake, Taiwan, Geofluids, 4, 210-220.
40. Won, J.-H., Lee, J.-Y., Kim, J.-W., and Koh, G.-W., 2006, Groundwater occurrence on Jeju Island, Korea, Hydrogeology Journal, 14, 532-547.
41. Yoon, S., 1997, Miocene-Pleistocene volcanism and tectonics in southern Korea and their relationship to the opening of the Japan Sea, Tectonophysics, 281, 53-70.

This Article

2011; 16(2): 41-51

Published on Apr 30, 2011
10.7857/JSGE.2011.16.2.041
Received on Nov 29, 2010
Accepted on Apr 1, 2011

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