New radar imaging system shows how earthquakes warp a landscape

February 10, 2012 – BAJA, California – A team of geologists from the U.S., Mexico and China are using light detection and ranging (LiDAR) laser altimetry to study how an earthquake can change a landscape. In particular, the geologists want to know more about the magnitude 7.2 earthquake that struck April 4, 2010, near Mexicali in northern Mexico. Airborne LiDAR equipment, which bounces a stream of laser pulses off the ground, can measure surface features to within a few centimeters. The researchers were able to make a detailed scan of the affected area over about 360 square kilometers in less than three days, they report in the February 10 issue of the journal Science. In the above image, blue shows where ground surface moved down whereas red indicates upward movement compared with the previous survey. Some changes brought about by the quake are readily visible from the ground, such as a 1.5-meter clifflike ridge created when part of a hillside abruptly moved up and sideways. But the LiDAR survey also revealed some features that could not easily be detected otherwise, Oskin reports, such as a warping of the ground surface above the Indiviso Fault, which runs beneath agricultural fields along the Colorado River floodplain. The 2010 Mexicali earthquake did not occur on a major fault, such as the San Andreas, but rather ran through a series of smaller fractures in Earth’s crust. The new LiDAR survey shows how seven of these small faults came together to cause a major quake. –Scientific American