期刊
JOURNAL OF PETROLOGY
卷 51, 期 1-2, 页码 43-53出版社
OXFORD UNIV PRESS
DOI: 10.1093/petrology/egp057
关键词
olivine; orthopyroxene; mylonite; Josephine; LPO
资金
- Directorate For Geosciences [0738880] Funding Source: National Science Foundation
We conducted a microstructural study of a high-strain mantle shear zone from the Josephine Peridotite, SW Oregon, USA. The goal of this study is to understand how microstructural evolution at large strains leads to transitions in rheological behavior. The shear zone we investigated exhibits higher strain and greater localization than previously studied shear zones in the Josephine Peridotite. The margins of the shear zone have a homogeneous microstructure, characterized by moderately strong olivine fabrics, fairly weak orthopyroxene fabrics, and grain sizes of 2-3 mm. The highly deformed samples from the center of the shear zone display two distinct microstructural domains-a relatively coarse-grained domain (similar to 550 mu m) that contains only olivine and a finer-grained domain (similar to 250 mu m) that contains both olivine and orthopyroxene. The coarse-grained domain has a strong E-type olivine lattice-preferred orientation (LPO). Within the fine-grained domain the olivine LPO is also E-type, but significantly weaker. The E-type fabrics are rotated slightly past the shear plane, providing the first field-based confirmation of similar experimental observations. The presence of E-type fabrics, which form in the presence of moderate quantities of water, also highlights the potential importance of water to shear zone evolution. The orthopyroxene in the fine-grained domains has no LPO, suggesting that a transition to grain-size sensitive deformation occurred. The microstructural transition in orthopyroxene may have resulted in a marked weakening of the rock, suggesting that orthopyroxene plays a critical role in shear localization. These samples provide a crucial microstructural link between moderately localized shear zones and highly deformed ultramylonites.
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