Abstract
The Wenchuan Earthquake on 12 May 2008 triggered a large number of geo-hazards including landslides, slope collapses and debris flows. Field investigations and remote-sensing interpretation identified 11,308 geo-hazards in 16 seriously damaged counties in Sichuan Province, south west China. The paper reports an analysis of the distribution of these geo-hazards, particularly the earthquake-triggered landslides. Not surprisingly, the most significant geo-hazards were related to the main fault and on the hanging-wall side, although some occurred in deeply incised river gorges further away from the main rupture zone. Due to the high seismic intensity of the earthquake, most of the large landslides moved at high speed and for considerable distances.
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Abrahamson NA, Silva WJ (1997) Empirical response spectral attenuation relations for shallow crustal earthquakes. Seism Res Lett 68(1):94–109
Abrahamson NA, Somerville PG (1996) Effects of the hanging wall and footwall on ground motions recorded during the Northridge earthquake. Bull Seism Soc Am 86(1B):S93–S99
Bao YJ, Gao MT, Jiang H (2005) Probabilistic analysis of earthquake-induced landslides. Chin J Rock Mech Eng 24(1):66–70 (in Chinese)
Boore DM, Joyner WB, Fumal TE (1997) Equations for estimating horizontal response spectra and peak acceleration from western North American earthquakes: a summary of recent work. Seism Res Lett 68(1):128–153
Campbell KW (1997) Empirical near-source attenuation relationships for horizontal and vertical components of peak ground acceleration, peak ground velocity, and pseudo-absolute acceleration response spectra. Seism Res Lett 68(1):154–179
Chen YT (2008a) On the magnitude and the fault length of the Great Wenchuan Earthquake. Sci Technol Rev 26(10):26–27 (in Chinese)
Chen YT (2008) Why was Wenchuan Earthquake so serious? (2008-06-26). http://www.sciencenet.cn/htmlnews/2008/6/200862781145413208421.html (in Chinese)
He HL, Sun SM, Wang SY et al (2008) Rupture of the MS 8.0 Wenchuan Earthquake. Seismol Geol 30(2):359–361 (in Chinese)
Heim A (1932) Bergsturz und Menschenleben. Fretz und Wasmuth, Zurich
Hsu KJ (1975) Catastrophic debris streams (sturzstroms) generated by rockfalls. Geol Soc Am Bull 86:129–140
Hu Gt (1995) Landslide dynamics. Geological Publishing House Press, Beijing (in Chinese)
Huang RQ, Pei XJ, Li TB (2008a) Analysis of general characteristic and formation mechanism of the Daguangbao giant landslide triggered by the Wenchuan Earthquake. J Eng Geol 16(6) (in Chinese)
Huang RQ, Xu Q et al (2008b) Catastrophic landslides in China. Science Press, Beijing, p 553 (in Chinese)
Jibson RW, Harp EL, Michael JA (2000) A method for producing digital probabilistic seismic landslide hazard maps. Eng Geol Spec Issue 58:3–4
Keefer DV (2000) Statistical analysis of an earthquake-induced landslide distribution—the 1989 Loma Prieta, California event. Eng Geol 58:231–249
Li ZS (2003) The state of the art of the research on seismic landslide hazard at home and abroad. J Catastrophol 18(4):64–70 (in Chinese)
Lin QW, Lai WJ, Huang ML et al (1999) The cause of the 1999 Chi–Chi earthquake in Taiwan and its fault active mechanism. Nat Sci Newsl 11(4):147–155 (in Chinese)
Mao YL, Hu GT, Zhao FS et al (1998) Mechanics of the landslide sliding caused by seismic. J Xi’an Eng Univ 20(4):45–48 (in Chinese)
Mohammad R, Mahdavifar M, Solaymani S, Mohammad K, Jafari M (2006) Landslides triggered by the Avaj, Iran earthquake of June 22, 2002. Eng Geol 86:166–182
Sadigh K, Chang CY, Egan JA et al (1997) Attenuation relationships for shallow crustal earthquakes based on California strong motion data. Seism Res Lett 68(1):180–189
Scheidegger AE (1973) On the prediction of the reach and velocity of catastrophic landslides. Rock Mech 5:231–236
Shreve RL (1968) The Blackhawk landslide. Special Paper, vol 108. Geological Society of America, p 47
Wang WN, Nakamura H, Tsuchiya S, Chen CC (2002) Distributions of landslides triggered by the Chi–Chi earthquake in Central Taiwan on September 21, 1999. Journal of the Japan Landslide Society 38(4):318–326
Yu YX, Gao MT (2001) Effects of the hanging wall and footwall on peak acceleration during the Chi–Chi earthquake, Taiwan. Acta Seismol Sin 23(6):615–621 (in Chinese)
Acknowledgments
This study is financially supported by the National Basic Research Program “973” Project of the Ministry of Science and Technology of the People’s Republic of China (2008CB425801), and the National Foundation for Natural Science of China (40772206). The authors would like to thank Prof. Niek Rengers for revising the article and his many helpful suggestions.
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Huang, R.Q., Li, W.L. Analysis of the geo-hazards triggered by the 12 May 2008 Wenchuan Earthquake, China. Bull Eng Geol Environ 68, 363–371 (2009). https://doi.org/10.1007/s10064-009-0207-0
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DOI: https://doi.org/10.1007/s10064-009-0207-0