Rheological properties of the detachment shear zone of an oceanic core complex inferred by plagioclase flow law: Godzilla Megamullion, Parece Vela back-arc basin, Philippine Sea

摘要

We tested plagioclase flow laws for rheological properties of the detachment shear zone developed in an oceanic core complex. Gabbroic mylonites occur extensively over the similar to 125-km length of the Godzilla Megamullion, an enormous oceanic core complex situated in an extinct Philippine Sea back-arc basin. The mylonites were produced in the detachment shear zone at temperatures of 650-850 degrees C in the lower crust over a period of approximately 4 million years, corresponding to a slow spreading rate of 2.54 +/- 0.21 cm/yr (i.e. 8.05 x 10(-10) m/s). Applying the rheological parameters for plagioclase flow laws, combined with the geochronological spreading rate, we calculated deformation mechanism maps of plagioclase as shear strain rates of 10(-12) to 10(-8) s(-1), corresponding to shear zones in thickness of similar to 0.1 to similar to 1000 m. Our results show that, assuming a constant stress condition defined by a shear strain rate of 10(-12) s(-1) for grain size of 1000 mu m in a temperature range between 650 and 850 degrees C, petrofabric parameters such as crystal-preferred orientations and dynamically recrystallized grain sizes along with estimated equilibrium temperatures can be possibly explained by the deformation mechanism maps of plagioclase for shear strain rates mostly of 10(-11) to 10(-9) s(-1). It suggests that even if the entire thickness of the detachment shear zone may lie several hundred meters below the spreading center, the shear zone could be stratified, comprising many anastomosing narrow zones. It implies that, during the development of the detachment fault, strain localization would occur in the lower crust over a broad (similar to 1000 m) zone at high temperatures. (C) 2014 Elsevier B.V. All rights reserved.