Increase of electrical conductivity with pressure as an indicator of conduction through a solid phase in midcrustal rocks
- Earth and Environmental Science Division, Los Alamos National Laboratory, Los Alamos, New Mexico (United States)
- Geosciences and Global Security Program, Lawrence Livermore National Laboratory, Livermore, California (United States)
- Department of Earth and Planetary Sciences, American Museum of Natural History, New York (United States)
Rocks freshly cored from depth at the German continental scientific drilling site (KTB) offer an opportunity to study transport properties in relatively unaltered samples resembling material in situ. Electrical conductivity {sigma} was measured to 250 MPa pressure, and room temperature on 1 M NaCl-saturated amphibolites from 4 to 5 km depth. An unexpected feature was an increase of {sigma} with pressure P that appeared (anisotropically) in most samples. To characterize this behavior, we fitted the linear portion of log{sigma} versus P to obtain two parameters: the slope d log {sigma}/dP (of order 10{sup {minus}3}MPa{sup {minus}1}) and the zero-pressure intercept {sigma}{sub 0}. Samples of positive and negative slopes behave differently. Those having negative slopes show strong correlation of {sigma}{sub 0} with a fluid property (permeability). This behavior indicates that fluids exert the dominant control on {sigma}{sub 0} at low pressure when {sigma}{sub 0} is greatest, which is typical behavior observed in previous studies. In contrast, samples with positive slopes lack a correlation of {sigma}{sub 0} with permeability, indicating that fluids are less important to positive pressure behavior. Another result is that samples of negative d log {sigma}/dP have uncorrelated slopes and initial conductivities. In significant contrast, samples of positive slopes have the greatest P dependence for lowest initial conductivity {sigma}{sub 0}, that is, the less fluid, the more positive d log {sigma}/dP. Hence positive d log {sigma}/dP is consistent with reconnection of solid phases into a conductive texture better resembling that of rock at depth. Detailed examination of one sample by electron probe and scanning electron microscope reveals the presence of carbon on internal cleavage surfaces in amphibole, the most abundant mineral present. Thus carbon probably dominates the reconnection, but total {sigma} still involves fluids as well as Fe-Ti oxides. (Abstract Truncated)
- OSTI ID:
- 538433
- Journal Information:
- Journal of Geophysical Research, Vol. 102, Issue B7; Other Information: PBD: Jul 1997
- Country of Publication:
- United States
- Language:
- English
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