The Korean Journal of Quaternary Research (한국제4기학회지)
- Volume 18 Issue 2 Serial No. 23
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- Pages.5-16
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- 2004
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- 1226-8448(pISSN)
The Alluvial Fan Surface Deformation of the Northern Part of the Ulsan(Bulguksa) Active Fault System in the Southeastern Korea
- Yoon, Soon-Ock (Department of Geography, College of Science & Research Institute for Basic Sciences, Kyunghee University) ;
- Hwang, Sang-Il (Department of Geography, College of Social Science, Kyunghee University)
- Published : 2004.12.01
Abstract
The geomorphic deformation of the alluvial fans by tectonic movement was investigated along the lineaments of the northem part of the Ulsan(Bulguksa) fault system. Based on the aerial photographs interpretation and field surveys Ulsan fault system was identified as an active reverse fault which has displaced the Quatemary fan deposits. Buguksa fault system strikes for the direction of NW-SE and N-S. These two lineaments of active fault are crossing at Jinty village in Gyeongju city and the fault plane forms here almost vertical dip. The lateral pressures from the two directions have possibly influenced on the formation of the vertical dip at jinty villagy. It should be resulted from that the two pressures responsible for the active reverse fault at which the one with the NW-SE strike thrusts the hanging wall of Tohamsan block southwestward and the other pressure with the N-S strike thrusts it westward over the foot wall of the fan deposits. The marine oxygen isotope stage 8(0.30-0.25 Ma. BP) and stage 6(0.20-0.14 Ma. BP) are presumed to be the ages of high and middle surfaces of the alluvial fan, repectively. The vertical displacements on the high surfaces along the Bulguksa fault system are about 1.05 m at Ha-Dong, 9.5-10.5 m at Jinhyun-Dong, and about 10 m high at Jinty village. And the vertical displacement on the middle surface was measured about 6 m high at Ha-Dong. The average slip rate of vertical displacements is calculated about 0.03-0.43 mm/y.
Keywords
- Ulsan(Bulguksa) fault system;
- the Quatermary;
- active fault;
- reverse fault;
- crossing of lineaments vertical displacement of alluvial fan