Spatial distribution of landslides triggered by the 2008 Ms 8.0 Wenchuan earthquake,China

【摘要】：正The Ms 8.0 Wenchuan earthquake of May 12,2008 is one of the most disastrous earthquakes in China. The earthquake triggered tens of thousands of landslides over a broad area,including shallow,disrupted landslides,rock falls,deep-seated landslides,and rock avalanches,some of which buried large sections of some towns and dammed the rivers.The purpose of this study is to investigate correlations between the occurrence of landslides with geologic and geomorphologic conditions,and seismic parameters.Over 56,000 earthquake-triggered landslides,with a total area of 811 km~2,are interpreted using aerial photographs and remote sensing images taken following the earthquake.The spatial distribution of these landslides is analyzed statistically using both landslide-point density(LPD),defined as the number of landslides per square kilometer,and landslide-area density(LAD),the percentage of the area affected by landslides,to determine how the occurrence of landslides correlates with distance from the epicenter, distance from the major surface rupture,seismic intensity and peak ground acceleration(PGA),slope angle,slope aspect,elevation,and lithology.It is found that both LAD and LPD have strong positive correlations with slope steepness,distance from the major surface rupture and seismic intensity,and that Pre-Sinian schist,and Cambrian sandstone and siltstone intercalated with slate have the most concentrated landslide activities,followed by the Permian limestone intercalated with shale,and Devonian limestone. Statistical analyses also indicate that the major surface rupture has influence on the spatial distribution of landslides,because LAD and LPD are relatively higher on the hanging wall than on the footwall.However,the correlation between the occurrence of landslides with distance from the epicenter of the earthquake is complicated,rather than a relatively simple negative correlation as found from other reported cases of earthquakes.This is possibly due to complicated rupture processes of the earthquake.