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Journal of Mountain Science

, Volume 10, Issue 2, pp 305–314 | Cite as

Debris flow warning threshold based on antecedent rainfall: A case study in Jiangjia Ravine, Yunnan, China

  • Xiao-jun Guo
  • Peng CuiEmail author
  • Yong Li
Article

Abstract

Debris flows in Jiangjia Ravine in Yunnan province, China are not only triggered by intense storms but also by short-duration and low-intensity rainfalls. This reflects the significance of antecedent rainfall. This paper tries to find the debris flow-triggering threshold by considering antecedent rainfall through a case study in Jiangjia Ravine. From 23 debris flow events, the I-D (Intensity-Duration) threshold was found, which is very close to the line of 95th percentile regression line of rainfall events, representing that 95% of rainfalls can potentially induce debris flows and reflects the limitation of I-D threshold application in this area. Taking into account the effect of antecedent rainfall, the debris flow-triggering threshold for rainfall quantity and intensity is statistically and empirically derived. The relationships can be used in debris flow warning system as key thresholds. Coupling with the rainfall characteristics in this area, new thresholds are proposed as triggering and warning thresholds.

Keywords

I-D threshold debris flow warning system antecedent rainfall Jiangjia Ravine 

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References

  1. Aleotti P (2004). A warning system for rainfall-induced shallow failures. Engineering Geology 73: 247–265.CrossRefGoogle Scholar
  2. Brooks SM, Crozier MJ, Glade TW (2004) Towards establishing climatic thresholds for slope instability: use of a physically-based combined soil hydrology-slope stability model. Pure and Applied Geophysics 161(4):881–905.CrossRefGoogle Scholar
  3. Caine N (1980) The rainfall intensity-duration control of shallow landslides and debris flows. Geografiska Annaler. Series A. Physical Geography 62: 23–27.CrossRefGoogle Scholar
  4. Cannon S, Gartner J, Wilson R, et al. (2008) Storm rainfall conditions for floods and debris flows from recently burned areas in southwestern Colorado and southern California. Geomorphology 96: 250–269.CrossRefGoogle Scholar
  5. Chien-Yuan C, Tien-Chien C, Fan-Chieh Y, et al. (2005) Rainfall duration and debris-flow initiated studies for real-time monitoring. Environmental Geology 47: 715–724.CrossRefGoogle Scholar
  6. Corominas J, Moya J (1999) Reconstructing recent landslide activity in relation to rainfall in the lLobregat River basin, Eastern Pyrenees, Spain. Geomorphology 30(1): 79–93.CrossRefGoogle Scholar
  7. Crosta G, Frattini P (2008) Rainfall-induced landslides and debris flows. Hydrological Processes 22: 473–477.CrossRefGoogle Scholar
  8. Crozier MJ (1999) Prediction of rainfall-triggered landslides: a test of the antecedent water status model. Earth Surface Processes and Landforms 24: 825–833.CrossRefGoogle Scholar
  9. Crozier MJ, Eyles RJ (1980) Assessing the probability of rapid mass movement. In: New Zealand Institution of Engineers-Proceedings of Technical Groups (ed.), Proc. Third Australia-New Zealand Conference on Geomechanics, Wellington. pp 247–251.Google Scholar
  10. Cui P (1999) Impact of debris flow on river channel in the upper reaches of the Yangtze River. International Journal of Sediment Research 14(2): 201–203.Google Scholar
  11. Cui P, Chen XQ, Wang YY, et al. (2005) Jiangia Ravine debris flows in south-western China. In: Jakob M, Hungr O (eds.), Debris-flow hazards and related Phenomena. Springer, Heidelberg. pp. 565–594.CrossRefGoogle Scholar
  12. Cui P, Chen XQ, Zhu YY, et al. (2011) The Wenchuan Earthquake (May 12, 2008), Sichuan Province, China, and resulting geohazards. Nat Hazards 56:19–36CrossRefGoogle Scholar
  13. Cui P, Yang K, Chen J (2003) Relationships between occurrence debris flows and antecedent rainfall: taking Jiangjia Gully as an example. Science of Soil and Water Conservation 1(1): 11–15. (In Chinese)Google Scholar
  14. Cui P, Zhu YY, Chen J, et al. (2007) Relationships between antecedent rainfall and debris flows in Jiangjia Ravine, China. In: Chen C L and Major J J (eds.), Debris-flow hazard mitigation-Mechanics, Prediction, and Assessment. Millpress, Rotterdam. pp 1–10.Google Scholar
  15. Dahal R, Hasegawa S, Nonomura A, et al. (2009) Failure characteristics of rainfall-induced shallow landslides in granitic terrains of Shikoku Island of Japan. Environmental Geology 56: 1295–1310.CrossRefGoogle Scholar
  16. Fan JC, Liu CH, Wu MF, et al (2003) Determination of critical thresholds for debris flow occurrence in central Taiwan and their revision after the 1999 ChiChi great earthquake, In: Debris Flow Hazard Mitigation: Mechanics, Prediction, and Assessment, (Eds) Rickenmann D and Chen CL, Millpress, Rotterdam. pp 103–114.Google Scholar
  17. Fraccarollo F, Papa M (2000) Numerical simulation of real debris flow events. Physics and Chemistry of the Earth. B25(9): 757–763.Google Scholar
  18. Gao MX, Cheng Y (1994) the characteristics of storms and its relationship with debris flows in Dandong regions. In: Preceeding of 4th Debris Flow Seminar. Gansu culture Press, Lanzhou. pp 204–213.Google Scholar
  19. Glade T, Crozier M, Smith P (2000) Applying probability determination to refine landslide-triggering rainfall thresholds using an empirical “antecedent daily rainfall model”. Pure and Applied Geophysics 157: 1059–1079.CrossRefGoogle Scholar
  20. Guzzetti F, Peruccacci S, Rossi M, et al. (2007) Rainfall thresholds for the initiation of landslides in central and southern Europe. Meteorology and Atmospheric Physics 98: 239–267.CrossRefGoogle Scholar
  21. Guzzetti F, Peruccacci S, Rossi M, et al. (2008) The rainfall intensity-duration control of shallow landslides and debris flows: An update. Landslides 5: 3–17.CrossRefGoogle Scholar
  22. Hitoshi S, Daichi N, Hiroshi Matsuyama (2010). Relationship between the initiation of a shallow landslide and rainfall intensity-duration thresholds in Japan. Geomorphology 118: 167–175.CrossRefGoogle Scholar
  23. Hu KH, Cui P, Wang CC (2010) Characteristic Rainfall for Warning of Debris Flows. Journal of Mountain Sciences 7: 207–214.CrossRefGoogle Scholar
  24. Innes L (1983) Debris flows. Progress in Physical Geography 7: 469–501.CrossRefGoogle Scholar
  25. Jan CD, Lee MH (2004) A debris flow rainfall-based warning model. Journal of Soil and Water Conservation 35(3): 275–285. (In Chinese)Google Scholar
  26. Jibson RW (1989) Debris flow in southern Puerto Rico. Geological Society of America 236(Special Paper): pp 29–55. Doi: 10.1130/SPE236-p29CrossRefGoogle Scholar
  27. Kang ZC, Lee CF, Ma AN (2004) Debris flow study in China. Beijing: Science Press.Google Scholar
  28. Larsen M, Simon A (1993) A rainfall intensity-duration threshold for landslides in a humid-tropical environment, Puerto Rico. Geografiska Annaler 75A: 13–23.CrossRefGoogle Scholar
  29. Li CZ, Liu XN, Cao SY (2001) Contrast research on sediment yield relationship of minor watershed between prestrom and different sediment source conditions. Journal of Soil and Water Conservation 15(6):36–39 (In Chinese)Google Scholar
  30. Reichenbach P, Cardinali M, De Vita P, et al. (1998) Regional hydrological thresholds for landslides and floods in the Tiber River Basin (Central Italy). Environmental Geology 35(2–3):146–159CrossRefGoogle Scholar
  31. Shieh ZL, Lu YZ, You BS, et al. (1995) Study on critical rainfall line for debris flow occurrence. Journal of Chinese Soil and Water Conservation 26(3): 167–172. (In Chinese)Google Scholar
  32. Tan WP, Wang CH, Yao LK (1994) Regional prediction on rainfall debris flow and landslide. Chengdu: Sichuan Science and Technology Press. (In Chinese)Google Scholar
  33. Tiranti D, Bonetto S and Mandrone G (2008) Quantitative basin characterization to refine debris-flow triggering criteria and processes: an example from the Italian Western Alps. Landslides 5:45–57.CrossRefGoogle Scholar
  34. Wang D (1994) The features of shallow debris landslides and preliminary study of its relationship with rainfall. Hydrogeology and Engineering Geology 1:20–23.Google Scholar
  35. Wang YY, Zhou RY, Li CZ (1999) Research on the relationship between the erosion of debris flow and triggering rainfall. Journal of Soil and Water Conservation 5(6):34–38 (In Chinese)Google Scholar
  36. Wieczorek GF (1996) Landslide triggering mechanisms. In: Turner, Shuster (Eds.), Landslides: Investigation and Mitigation. Transportation Research Board-National Research Council, Special Report 247: 76–90.Google Scholar
  37. Zhang LP, Tang KL (1999) Artificial rain simulation the startup of formative regional loosening soil body and erosion experiment. Journal of Mountain Science 17(1): 45–53. (In Chinese)Google Scholar

Copyright information

© Science Press, Institute of Mountain Hazards and Environment, CAS and Springer-Verlag Berlin Heidelberg 2013

Authors and Affiliations

  1. 1.Key Laboratory of Mountain Hazards and Earth Surface Process and /Institute of Mountain Hazards and EnvironmentChinese Academy of SciencesChengduChina
  2. 2.Asian Network on Debris FlowChengduChina
  3. 3.Graduate University of Chinese Academy of SciencesBeijingChina

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