Fabric controls on strain accommodation in naturally deformed mylonites: The influence of interconnected micaceous layers |
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Affiliation: | 1. Instituto de Geociências, Universidade de São Paulo, Rua do Lago 562, CEP 05508-080 São Paulo, SP, Brazil;2. CPRM – Geological Survey of Brazil, Rua Costa 55, Consolação, CEP 01304-010 São Paulo, SP, Brazil |
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Abstract: | We present microstructural analyses demonstrating how the geometrical distribution and interconnectivity of mica influences quartz crystallographic preferred orientation (CPO) development in naturally deformed rocks. We use a polymineralic (Qtz + Pl + Kfs + Bt + Ms ± Grt ± Tur) mylonite from the Zanskar Shear Zone, a section of the South Tibetan Detachment (NW Himalaya), to demonstrate how quartz CPO intensity decreases from quartz-dominated domains to micaceous domains, independently of whether or not quartz grains are pinned by mica grains. We then use a bimineralic (Qtz + Ms) mylonite from the Main Central Thrust (NW Himalaya) to show how increasing mica grain connectivity is concomitant with a systematic weakening of quartz CPO. Our results draw distinctions between CPO weakening due to: (i) second phase drag, leading to ineffective recovery in quartz; and (ii) increased transmission and localisation of strain between interconnected mica grains. In the latter case, well-connected micaceous layers take up most of the strain, weakening the rock and preventing straining of the stronger quartz matrix. Our findings suggest that rock weakening in quartz-rich crustal rocks is influenced not only by the presence of mica-rich layers but also the degree of mica grain connectivity, which allows for more effective strain localization through the entire rock mass. |
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Keywords: | Main Central Thrust Zanskar shear zone Strain partitioning Second phase Strain localisation Crystallographic preferred orientation Mylonite |
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