Stress variations in space and time within the mantle section of an oceanic transform zone: Evidence for the seismic cycle
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[1] B. Tikoff,et al. Constraints on the rheology of lower crust in a strike-slip plate boundary : Evidence from the San Quintin xenoliths, Baja California, Mexico , 2017 .
[2] J. Avouac,et al. The influence of stress history on the grain size and microstructure of experimentally deformed quartzite , 2016 .
[3] C. Trepmann,et al. The deformation record of olivine in mylonitic peridotites from the Finero Complex, Ivrea Zone: Separate deformation cycles during exhumation , 2015 .
[4] B. Tikoff,et al. Mantle strength of the San Andreas fault system and the role of mantle-crust feedbacks , 2015 .
[5] K. Fischer,et al. Localized shear in the deep lithosphere beneath the San Andreas fault system , 2014 .
[6] S. Reddy,et al. Mantle deformation during rifting: Constraints from quantitative microstructural analysis of olivine from the East African Rift (Marsabit, Kenya) , 2013 .
[7] J. Renner,et al. Experimental deformation and recrystallization of olivine – processes and timescales of damage healing during postseismic relaxation at mantle depths , 2013 .
[8] A. Tommasi,et al. Low strength of Earth’s uppermost mantle inferred from tri-axial deformation experiments on dry olivine crystals , 2013 .
[9] R. Heilbronner,et al. Transition from fracturing to viscous flow in granulite facies perthitic feldspar (Lofoten, Norway) , 2013 .
[10] A. Vauchez,et al. Faults (shear zones) in the Earth's mantle , 2012 .
[11] Greg Hirth,et al. Using short-term postseismic displacements to infer the ambient deformation conditions of the upper mantle , 2011 .
[12] S. Titus,et al. Fabric development in the mantle section of a paleotransform fault and its effect on ophiolite obduction, New Caledonia , 2011 .
[13] Jeffrey J. McGuire,et al. Seismic Cycles and Earthquake Predictability on East Pacific Rise Transform Faults , 2008 .
[14] B. Stöckhert,et al. Elevated stresses and creep rates beneath the brittle‐ductile transition caused by seismic faulting in the upper crust , 2004 .
[15] L. Montési,et al. Grain size evolution and the rheology of ductile shear zones: from laboratory experiments to postseismic creep , 2003 .
[16] Dana S. Henry,et al. Microstructural Evidence for Grain Size Sensitive Deformation Mechanisms in Naturally Deformed Peridotites , 2002 .
[17] Laurent G. J. Montési,et al. A unified description of localization for application to large-scale tectonics , 2002 .
[18] G. Ekström,et al. Earthquake slip on oceanic transform faults , 2001, Nature.
[19] W. Taylor. An experimental test of some geothermometr and geobarometer formulations for upper mantle peridotites with application to the thermobarometry of fertile lherzolite and garnte websterite , 1998 .
[20] H. Wenk,et al. Development of phyllonite from granodiorite: Mechanisms of grain-size reduction in the Santa Rosa mylonite zone, California , 1995 .
[21] S. Meffre,et al. Eocene arc-continent collision in New Caledonia and implications for regional southwest Pacific tectonic evolution , 1995 .
[22] J. Gerald,et al. Relationships between dynamically recrystallized grain size and deformation conditions in experimentally deformed olivine rocks , 1993 .
[23] R. Vissers,et al. Shear localisation in upper mantle peridotites , 1991 .
[24] G. Witt-Eickschen,et al. Solubility of Ca and Al in orthopyroxene from spinel peridotite: an improved version of an empirical geothermometer , 1991 .
[25] T. Köhler,et al. Geothermobarometry in Four-phase Lherzolites II. New Thermobarometers, and Practical Assessment of Existing Thermobarometers , 1990 .
[26] A. Nicolas,et al. The Bogota Peninsula, New Caledonia: A Possible Oceanic Transform Fault , 1980, The Journal of Geology.
[27] C. Teyssier,et al. Strike-slip partitioned transpression of the San Andreas fault system: a lithospheric-scale approach , 1998, Geological Society, London, Special Publications.