Lattice Preferred Orientation, Water Content, and Seismic Anisotropy of Orthopyroxene

Lattice preferred orientation (LPO) and seismic anisotropy of orthopyroxene (enstatite) in mantle xenoliths from Spitsbergen, Svalbard, near the Arctic, are studied. LPOs of enstatite were determined using electron backscattered diffraction (EBSD). We found four types of LPOs of orthopy-roxene and defined them as type-AC,-AB,-BC, and-ABC. Type-AC LPO of orthopyroxene is defined as (100) plane aligned subparallel to foliation and [001] axis aligned subparallel to lineation. Type-AB LPO is defined as (100) plane aligned subparallel to foliation and [010] axis aligned subparallel to linea-tion. Type-BC LPO is defined as (010) plane aligned subparallel to foliation and [001] axis aligned sub-parallel to lineation. Type-ABC LPO is defined as both (100) and (010) planes aligned subparallel to fo-liation with a girdle distribution of both [100] and [010] axes normal to lineation and [001] axis aligned subparallel to lineation. We report for the first time the type-AB,-BC, and-ABC LPO of orthopyrox-ene. We found that the LPO pattern has a correlation with the content of orthopyroxene in the speci-men. Nicolet 6700 FTIR (Fourier transformation infrared) study of enstatite showed that type-AC LPO was observed mostly in the samples of enstatite with low water content. It is found that the strength of the LPO of enstatite decreases with increasing water content and has a correlation with the strength of the LPO of olivine: the stronger the LPO of enstatite, the stronger the LPO of olivine. Seismic anisot-ropy of enstatite was smaller than that of olivine in the same specimen.