Sinkhole detection using electrical resistivity tomography in Saudi Arabia

Abstract

Karst phenomena exist in different areas in the Kingdom of Saudi Arabia, causing serious environmental problems that affect urban development and infrastructure (buildings, roads and highways). One of the most important problems are sinkholes, which most of the time consist of unfilled voids. These sinkholes are formed as a result of the chemical leaching of carbonate and evaporite formations by percolating water. Field investigations show that there are many surface expressions of sinkholes in the area; some appear on the ground surface and others are hidden in the subsurface. Geophysical data were collected at the study area using two-dimensional electrical resistivity tomography (ERT) with different electrode spacings to delineate buried sinkholes and associated subsurface cavities. Our findings indicated that the dipole-dipole method using an electrode spacing of 1m was successful in detecting a known subsurface sinkhole. According to the ERT method the detected sinkhole depth ranges from 2to 4m, its height ranges from 2 to 4m, and its width ranges from 5 to 7m. Field observation has verified the geophysical data, especially along the profile A-A \. Finally, closely spaced ERT profiles were successful in determining the three-dimensional volume of the subsurface sinkhole. © 2012 Sinopec Geophysical Research Institute.