New Evidence on the State of Stress of the San Andreas Fault System

Zoback, Mark D.; Zoback, Mary Lou; Mount, Van S.; Suppe, John; Eaton, Jerry P.; Healy, J. H.; Oppenheimer, David H.; Reasenberg, Paul A.; Jones, Lucile M.; Raleigh, C. B.; Wong, Ivan G.; Scotti, Oona; Wentworth, Carl M.

doi:10.1126/science.238.4830.1105

Cited by 934 publications

(480 citation statements)

References 51 publications

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“…Under these conditions, the breakout orientation develops in the direction of the least principal horizontal stress. It has been previously demonstrated that stress orientations deduced from rock breakouts are consistent with other independent indicators (Bell and Gough, 1979;Zoback et al, 1988).…”

Section: Formation Microscanner Tool (Fms)supporting

confidence: 58%

Explanatory Notes

1990

Proceedings of the Ocean Drilling Program, 129 Initial Reports

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Appendix (Shipboard Scientific Party) Following the text of each site chapter are summary downhole logs. Core descriptions ("barrel sheets" and igneous rock visual core descriptions) and photographs of each core appear in Section 3, near the back of this volume. DEFINITIONS Conventional Use of Time and Time-Rock UnitsThe subdivisions of epochs/series into early, middle, late, or lower, middle, upper have no real formal standing in stratigraphy. The subdivision of lithostratigraphic (rock), chronostratigraphic (time-rock), and geochronologic (time) units is defined as follows throughout this volume. Lithostratigraphic UnitsFor rock units, the terms lower, middle, and upper describe sections of rocks subdivided on the basis of superposition, without any implication of time-partitioning.

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Section: Formation Microscanner Tool (Fms)supporting

confidence: 58%

Explanatory Notes

1990

Proceedings of the Ocean Drilling Program, 129 Initial Reports

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“…The fault has changed its location, at times stranding slivers of material [Sims, 1991]. The plate motion changed slightly about 3.5 Ma so that there is a compressional component [Harbert and Cox, 1989], generally taken up off the San Andreas fault [Zoback et al, 1987].…”

Section: Geologic Settingmentioning

confidence: 99%

Seismotectonics of the Loma Prieta, California, region determined from three‐dimensional V_p, V_p/ V_s, and seismicity

Eberhart‐Phillips¹,

Michael²

1998

J. Geophys. Res.

131

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“…In addition, the flow of fluids within larger fault zones, also controlled by the fault products contained within them, has major implications for fault zone mechanics. If high fluid pressures within faults zones can be maintained by low-permeability fault rocks for significant periods of time, then this will affect the overall strength of the fault zone, perhaps explaining observations such as the apparent low strength of the San Andreas fault system as suggested by the stress/heat flow paradox [Zoback et al, 1987;Lachenbruch and Sass, 1980]. Clay-bearing fault gouges are common constituents of large fault zones [Rutter et al, 1986;Miller, 1996] be present at depth to perhaps 10 km in currently active large faults [Wintsch et al, 1995;Hacker, 1997].…”

Section: Introductionmentioning

confidence: 99%

Comparisons of water and argon permeability in natural clay‐bearing fault gouge under high pressure at 20°C

Faulkner¹,

Rutter²

2000

J. Geophys. Res.

178

152

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Abstract. Quantification of fluid transport through fault zones is critical for the understanding of fault mechanics and prediction of subsurface fluid flow. The permeability of clay-bearing fault gouge has been determined using first argon then water as pore fluids under total confining pressures ranging up to 200 MPa and pore pressures of 40 MPa at room temperature. Use of the two pore fluids allows interactions between the gouge and pore fluids to be examined. Natural clay-bearing fault gouge recovered from surface exposures of the Carboneras fault zone in southeastern Spain was used and was collected in such a way that the in situ microstructure was preserved. Cores were collected in directions relative to the well-developed planar fabrics seen in these types of fault rock. The mineralogy of the gouges included muscovite/illite, chlorite, and quartz, with minor amounts of gypsum, albite, and graphite. Glycolation of the gouge showed no discernible amounts of swelling phases. Grain size analyses revealed a bimodal grain size distribution, with the <2 •xm fraction dominant (>50 wt %). This fraction contained predominantly 17 2 22clay phases. Permeabilities in the range of 10-m to 10-m 2 were measured. Experimental results show that the previous highest in situ effective pressure to which the fault gouge had been subjected (overconsolidation pressure) could not be determined from changes in permeability. Differences between water and argon permeabilities determined on the same sample amounted to -•1 order of magnitude, even if the sample had been pressure cycled (reduction to zero and reapplication of both confining and pore pressure) using argon as pore fluid until asymptotic values for permeability had been attained. Volumetric strain measurements showed no enhanced compaction due to the introduction of water as the pore fluid, leading to the conclusion that the reduction in permeability must be due to physicochemical interactions of the water with the fault gouge. The low permeabilities measured support models invoking high fluid pressure weakening of large faults with minimal fluid loss. The stability of structured water films with varying temperature, water pressure and water chemistrv may produce a heterogeneous permeability profile with depth in fault zones.

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New Evidence on the State of Stress of the San Andreas Fault System

Cited by 934 publications

References 51 publications

Explanatory Notes

Explanatory Notes

Seismotectonics of the Loma Prieta, California, region determined from three‐dimensional V_p, V_p/ V_s, and seismicity

Comparisons of water and argon permeability in natural clay‐bearing fault gouge under high pressure at 20°C

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New Evidence on the State of Stress of the San Andreas Fault System

Cited by 934 publications

References 51 publications

Explanatory Notes

Explanatory Notes

Seismotectonics of the Loma Prieta, California, region determined from three‐dimensional Vp, Vp/ Vs, and seismicity

Comparisons of water and argon permeability in natural clay‐bearing fault gouge under high pressure at 20°C

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Product

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Seismotectonics of the Loma Prieta, California, region determined from three‐dimensional V_p, V_p/ V_s, and seismicity