References

1. 경재복, 이기화, Okada, A., Watanabe, M., Suzuki, Y. and Takemura, K., 1999, 양산 단층대 남부 상천리 일대의 트렌치 조사에 의한 단층 특성 규명. 한국지구과학회지, 20, 101-110
2. 경재복, 장태우, 2001, 양산단층대 북부 유계리일대의 신기 단층운동. 지질학회지, 37, 563-577
3. 김정환, 김영석, 김정빈, 강성승, 김현철, 김중휘, 박승익, 진광민, 박천득, 2005, 단층시기 및 응력장을 이용한 단층 파괴대 예측연구. 산업자원부 전력산업연구개발사업 보고서(R-2002-0-279)
4. 김옥준, 윤 선, 길영준, 1968, 청하도폭, 국립지질조사소
5. 김옥준, 정봉일, 엄상호, 장기홍, 박봉순, 강필종, 1980, 한반도 지진 지체구조 분석에 관한 연구. 과학기술처, 159
6. 김종렬, 1988, 양산단층의 산상 및 운동사에 관한 연구. 부산대학교 대학원 박사학위 논문, 97p
7. 김종환, 강필종, 임정웅, 1976, Landsat-1 영상에 의한 영남지역 지질구조와 광상과의 관계 연구. 지질학회지, 12, 79-89
8. 손문, 정혜윤, 김인수, 2002, 한반도 남동부 연일구조선 남부일원의 지질과 지질구조. 지질학회지, 38, 175-197
9. 이민성, 강필종, 1964, 양산도폭(1:50,000) 및 설명서. 국립지질조사소, 1-21
10. 이봉주, 류충렬, 최위찬, 1999, 경주시 양남면 일대의 제4기 단층. 지질학회지, 35, 1-14
11. 이윤종, 이인기, 1972, 언양도폭(1:50,000) 및 설명서. 국립지질조사소, 1-22
12. 장천중, 장태우, 1998, 고응력 분석을 통한 양산단층의 구조 운동사, 지질공학, 8, 32-49
13. 장천중, 최원학, 연관희, 2003, 지진 안정성 평가를 위한 단층 지진원의 최대지진 산정방법. 대한지질학회 2003년 추계학술발표회 초록집, 15
14. 장태우, 2001, 울산단층 동쪽지괴의 제4기 지구조 운동. 지질학회지, 37, 431-444
15. 장태우, 채연준, 2004, 울산단층 동부지역 제4기단층 비지대에서 단층작용과 열수활동. 지질학회지, 40, 469-479
16. 장태우, 추창오, 1998, 동래단층지역 단층비지의 생성과정과 K-Ar 연령. 지질공학회지, 20, 25-37
17. 채병곤, 장태우, 1994, 청하-영덕 지역 양산단층의 운동사 및 관련 단열 발달상태. 지질학회지, 30, 379-394
18. 최범영, 류충렬, 권석기, 최위찬, 황재하, 이승렬, 이병주, 2002, 포항-울산 지역의 단층 구조 분석: 활구조 운동에 대한 접근. 지질학회지, 38, 33-50
19. 한국자원연구소, 1998, 양산단층을 고려한 설계기준지진의 재평가 최종 보고서(제 1권), 671 p
20. 한국자원연구소, 2000, 신기 지각 변형 연구(N2-01-02-A-01), 과학기술부. 9-10
21. Burbank, D. W. and Anderson, R. S., 2001, Tectonic Geomorphology. Blackwell Science, Massachusetts, 274p
22. Chang, K., Woo, B., Lee, J., Park, S. and Yao, K., 1990, Cretaceous and Early Cenozoic stratigraphy and history of eastern Kyongsang Basin, South Korea. Journal of the Geological Society of Korea, 26, 471-481
23. Cheong, C.S., Hong, D.G., Lee, K.S., Kim, J.W., Choi, J.H., Murray, A.S., Chwae, U., Im, C.B., Chang, C.J. and Chang, H.W., 2003. Determination of slip rate by optical dating of fluvial deposits from the Wangsan fault, SE Korea. Quaternary Science Reviews, 22, 1207-1211 https://doi.org/10.1016/S0277-3791(03)00020-9
24. Choi, H. I., Oh, J. H., Shin, S. C. and Yang, M. Y., 1980, Geology and geochemistry of the Gyeongsang strata in Ulsan area. Korea Institute of Energy and Resources, Bulletin, 20, 33 p
25. Choi, H. I. and Park, K. S., 1985, Cretaceus/Neogene stratigraphic transition and post-Kyongsang tectonic evolution along and off the southeast coast, Korea. Journal of the Geological Society of Korea, 21, 281-296
26. Grant, L. B., 2002, Paleoseismology. In: Lee, W. H. K., Kanamori, H., Jennings, P. C., Kisslinger, C. (Eds.), International Handbook of Earthquake and Engineering Seismology, vol. 81A. IASPEI, Elsevier, pp. 475-490
27. Hoshino, K., 1985, General remarks on tectonic movement of Korean peninsula. Geology News, 366, 28-46 (in Japanese)
28. Hyndman D. and Hyndman, D., 2006, Natural Hazards and disasters. Thomson Brooks/Cole, Belmont, 490p
29. Joliviet, L., Huchon, P., Lc Pichon, X., Chamot-Rooke, N. and Thomas, C.,1991, Arc deformation and marginal basin opening: Japan sea as a case study. Journal of Geophysical Research, 96, B3, 4367-4384 https://doi.org/10.1029/90JB02455
30. Kanamori, H., 1977, The energy release in great earthquakes. Journal of Geophysical Research, 82, 2981-2987 https://doi.org/10.1029/JB082i020p02981
31. Kang, P. J., 1979, Geological analysis of landsat imagery of South Korea(1). Journal of the Geological Society of Korea, 15, 109-126
32. Kim, Y.-S. and Park, J.-Y., 2006, Cenozoic deformation history of the area around Yangnam-Yangbuk, SE Korea and its tectonic significance. Journal of Asian Earth Sciences, 26, 1-20 https://doi.org/10.1016/j.jseaes.2004.08.008
33. Kim, Y.-S., Park, J.-Y., Kim, J.H., Shin, H.C. and Sanderson, D.J., 2004, Thrust geometries in unconsolidated Quaternary sediments and evolution of the Eupchon Fault, southeast Korea. The Island Arc, 13, 403-415 https://doi.org/10.1111/j.1440-1738.2004.00435.x
34. Kyung, J. B. and Lee, K., 1993, Pattern recognition study of large earthquake occurrences in the Korean peninsula (II). Journal of the Geological Society of Korea, 29, 61-72
35. Kyung, J. B. and Okada, A., 1995, Liquefaction phenomena due to the occurrences of great earthquakes: some cases in central Japan and Korea. Journal of the Geological Society of Korea, 31, 237-250
36. Lee, K. and Na, S. H., 1983, A study of microearthquake activity of the Yangsan fault. Journal of the Geological Society of Korea, 19, 127-135
37. Lee, K. and Jin, Y. G., 1991, Segmentation of the Yangsan fault system: geophysical studies on major faults in the Kyeongsang basin. Journal of the Geological Society of Korea, 27, 434-449
38. McCalpin, J.P. 1996, Paleoseismology. Academic Press, San Diego, 439-493
39. Michetti, A. M., Audemard, F. A. and Marco, S., 2005, Future trends in paleoseismology: Integrated study of the seismic landscape as a vital tool in seismic hazard analyses. Tectonophysics, 408, 3-21 https://doi.org/10.1016/j.tecto.2005.05.035
40. Okada, A., Watanabe, M., Sato, H., Jun, M. S., Jo, W. R., Kim, S. K., Jeon, J. S., Chi, H. C. and Oike, K. 1994. Active fault topography and trench survey in the central part of the Yangsan fault, southeast Korea. Jour. Geography 103, 111-126 https://doi.org/10.5026/jgeography.103.2_111
41. Olson, E. L. and Allen, R. M., 2005, The deterministic nature of earthquake rupture. Nature, 438, 212-215 https://doi.org/10.1038/nature04214
42. Ota, Y., Chen, Y.-G. and Chen, W.-S., 2005, Review of paleoseismological and active fault studies in Taiwan in the light of the Chichi earthquake of September 21, 1999. Tectonophysics, 408, 63-77 https://doi.org/10.1016/j.tecto.2005.05.040
43. Otsuki, K. and Ehiro, M., 1978, Major strike-slip faults and their bearing spreading in the Japan Sea, Journal of Physics of the Earth, 26, 537-555 https://doi.org/10.4294/jpe1952.26.Supplement_S537
44. Passchier, C. W. and Trouw, R. A. J., 1998, Microtectonics. Springer, 25p
45. Ramsay, J. G., and Huber, M. I., 1987, The Techniques of Mordern Structural Geology. vol. 2 : Folds and Fractures. Academic Press, London, 700p
46. Ree, J.-H., Lee, Y.-J., Rhodes, E.J., Park, Y., Kwon, S.-T., Chwae, U., Jeon, J.-S. and Lee, B., 2003, Quaternary reactivation of Tertiary faults in the southeastern Korean Peninsula: Age constraint by optically stimulated luminescence dating. The Island Arc, 12, 1-12 https://doi.org/10.1046/j.1440-1738.2003.00372.x
47. Ree, J.-H. and Kwon, S.-T., 2005, The Wangsan Fault: One of the most 'active' faults in South Korea? Geoscience Journal, 9, 223-226 https://doi.org/10.1007/BF02910581
48. Reedman, A. J. and Um, S.H., 1975, Geology of Korea. Geological and Mineralogical Institute of Korea, 139 p
49. Sillitoe, R. H., 1977, Metallogeny of Andean-type continental margin in South Korea: Implication for opening of the Japan Sea. In: Talwani, M. and Pitman, W.C. (eds.), Island arcs, deep sea trenches and back-arc basins, Maurice Ewing series, 1, American Geophysical Union, 303-310
50. Slemmons, D. B. and dePolo, C. M., 1986, Evaluation of active faulting and associated hazard. In: Wallace, R. E. (Panel Chairman). Active Tectonics, National Academy Press, Washington D. C., pp. 45-62
51. Stirling, M., Rhoades, D. and Berryman, K., 2002, Comparison of earthquake scaling relations derived from data of the instrumental and pre-instrumental era. Bulletin of the Seismological Society of America 92, 812-830 https://doi.org/10.1785/0120000221
52. Tagaki, H. and Shibata, K., 1992, K-Ar dating of fault gouge-examples along the Median Tectonic Line. Mem. Geol. Soc. Japan, 40, 31-38
53. Wells, D.L. and Coppersmith, K.J., 1994, New empirical relationships among magnitude, rupture length, rupture width, rupture area, and surface displacement. Bulletin of Seismological Society of America 84, 974-1002