The Uenzaru peridotite complex, located in the northern part of the Hidaka metamorphic belt in central Hokkaido, contains mylonitized plagioclase lherzolite. Mylonitization appears to occur because of a subsolidus phase transformation reaction from spinel lherzolite to plagioclase lherzolite^[1]. In this study, we focused on the mylonitization of plagioclase lherzolite in the Uenzaru peridotite complex using polarized light microscopy and scanning electron microscopy with electron backscatter diffraction (SEM-EBSD). We analyzed an oriented plagioclase lherzolite sample. Polished thin sections were made in a plane normal to foliation and parallel to lineation (XZ plane). Plagioclase lherzolite shows a porphyroclastic texture with porphyroclasts consisting of olivine, highly elongated orthopyroxene (ca. 15 mm), clinopyroxene, and spinel in a fine-grained matrix of olivine, orthopyroxene, clinopyroxene, plagioclase, spinel, and amphibole. Symplectites, composed of vermicular olivine and plagioclase, occur between the orthopyroxene and spinel porphyroclasts. Furthermore, fine-grained plagioclase grains were observed around the margins of spinel porphyroclasts. The SEM-EBSD analysis showed that the amphibole modal ratio was approximately 3 %. The crystallographic preferred orientation of olivine was (001)[100] slip (E-type). The spinel porphyroclasts were locally ductilely elongated and showed a boudin texture with small grains in the necking zone. Based on these results, we discuss the microstructural development of the mylonitized plagioclase lherzolite in the Uenzaru peridotite complex.

[1] Furusho & Kanagawa 1999 Tectonophysics.