Satellite image analysis of a huge landslide at Yi Gong, Tibet, China

At about 8 pm in the evening of Sunday 9 April 2000, a huge landslide occurred in the Yi Gong district, Tibet, China (⇓Fig. 1). A gigantic volume of soil and rock slipped from the upper hillside at more than 5500 mPD (metres above the Principal Datum, i.e, the Yellow Sea Level) along the Zamu gully, down to the Yi Gong River at about 2000 mPD, as shown in the site photos, a & b in ⇓Figure 2 respectively. It travelled about 8 km and lasted about 10 minutes. The landslide debris was composed of snow, glacial ice, trees, soil and rock (marble, slate and granite). It destroyed a 2.5 km long section of the highway connecting Qinghai province to Tibet, blocked the Yi Gong River at the toe of the slope, and resulted in the flooding of several villages. This landslide is estimated to have a volume of 300 000 000 m3 and is thus one of the largest landslides recorded in the world. Fig. 1. Location plan of the Yi Gong Landslide of 9 April 2000, Yi Gong, Tibet, China. Fig. 2. Site photographs illustrating the Yi Gong Landslide: ( a ) The Zone I (Landslide back-scar) and ( b ) Zone III (the Zamu gully mouth and the landslide debris dam). Immediately after the landslide, the central and provincial governments and other relevant organizations carried out investigations of the landslide and urgent remedial works. This paper presents a satellite image analysis of the landslide and its consequences. Satellite images have been used in landslide investigation since the mid-70s when Landsat MSS was launched. Examples of using satellite images to investigate landslides and to identify ground movements can be found in the publications by ⇓McDonald & Grubbs (1975) and ⇓Manotvani et al . (1996). The satellite images and remote sensing data used in the present analysis include the TM …

• Publication year

  2001

• Venue

  Quarterly journal of engineering geology and hydrogeology

• Publication date

  2001-11-01

• Fields of study

  Geology, Environmental Science

• Identifiers
  DOI 10.1144/qjegh.34.4.325
• External record

  Open on Semantic Scholar

• Source metadata

  Semantic Scholar

• No claims are published for this paper.

• No concepts are published for this paper.

• Remote sensing techniques for landslide studies and hazard zonation in Europe

  1996cited by this paper
• LANDSAT imagery analysis: An aid for predicting landslide prone areas for highway construction. [in Arkansas]

  1975cited by this paper

• Back-analysis of the 2000 Yigong dam breach flood morphodynamics: Challenges and promises

  2025cites this paper
• Analysing dynamics of the 2000 Yigong landslide in the Tibetan plateau using seismic observations

  2025cites this paper
• Research review and prospects of the 2000 giant Yigong long-runout landslide: Volume, formation mechanism and recurrence period, Tibetan plateau, China

  2023influential citation
• Numerical analysis of the initiation and sliding process of the Yigong landslide using a continuous–discontinuous method

  2022cites this paper
• Numerical Investigation on the Kinetic Characteristics of the Yigong Debris Flow in Tibet, China

  2021cites this paper
• Geomorphic effects of recurrent outburst superfloods in the Yigong River on the southeastern margin of Tibet

  2021cites this paper
• Recurrent dammed-lake outburst superfloods in the Yigong river, southeastern margin of the Tibet

  2021cites this paper
• Evidence for repeated failure of the giant Yigong landslide on the edge of the Tibetan Plateau

  2020cites this paper
• Morpho-sedimentary and stratigraphic characteristics of the 2000 Yigong River landslide dam outburst flood deposits, eastern Tibetan Plateau

  2020cites this paper
• Numerical Modeling of Overtopping-Induced Breach of Landslide Dams

  2020cites this paper
• A half-century of contributions to landslide knowledge in QJEGH

  2019influential citation
• Dynamic simulation of a mountain disaster chain: landslides, barrier lakes, and outburst floods

  2017cites this paper
• Fluvial processes of incised rivers in Tibet

  2016cites this paper
• The 2000 Yigong landslide (Tibetan Plateau), rockslide-dammed lake and outburst flood: Review, remote sensing analysis, and process modelling

  2015cites this paper
• Simple Scaling of Catastrophic Landslide Dynamics

  2013cites this paper
• Remote Sensing and GIScience in Geomorphological Mapping

  2013cites this paper
• Landslide Hazard and Risk: Issues, Concepts and Approach

  2012cites this paper
• The Formation and Behaviour of Natural and Artificial Rockslide Dams; Implications for Engineering Performance and Hazard Management

  2011cites this paper
• Characterization of the 2000 Yigong Zangbo River (Tibet) Landslide Dam and Impoundment by Remote Sensing

  2011cites this paper
• Some limitations in the interpretation of vertical stereo photographic images for a landslide investigation

  2009cites this paper
• Structural and geologic controls on gigantic (>1 Gm³) landslides in carbonate sequences: case studies from the Zagros Mountains, Iran and Rocky Mountains, Canada

  2008cites this paper
• A rational method for estimating maximum discharge of a landslide-induced debris flow: A case study from southwestern China

  2007cites this paper
• LANDSLIDES FROM MASSIVE ROCK SLOPE FAILURE AND ASSOCIATED PHENOMENA

  2006cites this paper
• THE FORMATION AND FAILURE OF LANDSLIDE DAMS: AN APPROACH TO RISK ASSESSMENT

  2006cites this paper
• SINGLE-EVENT LANDSLIDES RESULTING FROM MASSIVE ROCK SLOPE FAILURE: CHARACTERISING THEIR FREQUENCY AND IMPACT ON SOCIETY

  2006cites this paper
• Distribution of landslides adjacent to the northern side of the Yarlu Tsangpo Grand Canyon in Tibet, China

  2005cites this paper
• Signature of Rhine Valley sturzstrom dam failures in Holocene sediments of Lake Constance, Germany

  2004cites this paper
• A super-large landslide in Tibet in 2000: background, occurrence, disaster, and origin

  2003cites this paper