Abstract
An imageodesy study has been carried out, using pre‐ and post‐event Landsat‐7 Enhanced Thematic Mapper Plus (ETM+) images, to reveal regional co‐seismic displacement caused by the Ms 8.1 Kunlun earthquake in November 2001. The two Landsat scenes, Kusai Lake and Buka Daban, cover an area of some 57 600 km2 (320 km W–E and about 180 km N–S), which includes most of the fault rupture zone. The co‐seismic displacement measured in the Kusai Lake scene shows that the average left‐lateral shift along the Kunlun fault is 4.8 m (ranging from 1.5 to 8.1 m) and the maximum shift appears west of the Kusai Lake. The splayed nature of the fault to the west of Buka Daban, where the fault splits into three branches, causes the displacement pattern to become complicated. Here the average left‐lateral shift, between the south side of the southern branch and the north side of the northern branch, is 4.6 m (ranging from 1.0 to 8.2 m). Our results also illustrate that the south side of the fault is the ‘active’ block, moving significantly in an east–south‐easterly direction, relative to the largely ‘stable’ northern block.
Acknowledgement
This research is part of Discovery Net project (GR/R67750/01) supported by EPSRC e‐science pilot project grant. The computing centre of the Imperial College London provided parallel processing facilities and technical support. The MIT Phase correlation website provided free access and technical support for software development. ER Mapper image processing software has been used for data visualization and analysis. Xinjiang Bureau of Seismology is acknowledged for providing field photos and some reference materials. Dr W. S. Hoge from the Harvard Medical School is acknowledged for independent verification of our data co‐registration accuracy.