Detection of Widespread Fluids in the Tibetan Crust by Magnetotelluric Studies

Citations Over TimeTop 1% of 2001 papers

Abstract

Magnetotelluric exploration has shown that the middle and lower crust is anomalously conductive across most of the north-to-south width of the Tibetan plateau. The integrated conductivity (conductance) of the Tibetan crust ranges from 3000 to greater than 20,000 siemens. In contrast, stable continental regions typically exhibit conductances from 20 to 1000 siemens, averaging 100 siemens. Such pervasively high conductance suggests that partial melt and/or aqueous fluids are widespread within the Tibetan crust. In southern Tibet, the high-conductivity layer is at a depth of 15 to 20 kilometers and is probably due to partial melt and aqueous fluids in the crust. In northern Tibet, the conductive layer is at 30 to 40 kilometers and is due to partial melting. Zones of fluid may represent weaker areas that could accommodate deformation and lower crustal flow.

Related Papers

• → Composition of the Continental Crust(2013)5,576 cited
• → Implications of crustal property variations for models of Tibetan plateau evolution(1997)621 cited
• → The differentiation and rates of generation of the continental crust(2005)128 cited
• Dynamic model for Pb isotope evolution in the continental crust of China.(2001)
• → Analysis of the rising and sinking movement of the crust in Qinghai-Xizang Plateau, China(1994)