Olivine-wadsleyite-pyroxene topotaxy: Evidence for coherent nucleation and diffusion-controlled growth at the 410-km discontinuity
- 作者:Joseph R. Smytha ; smyth@colorado.edu ; Nobuyoshi Miyajimab ; Gary R. Hussc ; Eric Hellebrandc ; David C. Rubieb ; Daniel J. Frostb
- 关键词:410-km Discontinuity ; Olivine ; Wadsleyite ; Epitaxy ; Water ; H-distribution
- 刊名:Physics of the Earth and Planetary Interiors
- 出版年:2012
- 期刊代码:73_00319201
- 类别:ear
- 出版时间:June, 2012
- 卷:200-201
- 期:Complete
- 页码:85-91
- 文件大小:1509 K
摘要
We have synthesized a hydrous peridotite-composition sample at 13 GPa and 1400 掳C with co-existing coarse grains (鈭?00 渭m) of olivine, wadsleyite, clinoenstatite, plus melt in a multi-anvil press. Some of the olivine grains contain fine-scale (0.5-2 渭m-wide) lamellae of wadsleyite and clinoenstatite that likely resulted from transformation caused by small temperature fluctuations during the four-hour experiment. Phase compositions were determined by electron probe microanalysis (EPMA) and secondary ion mass spectroscopy (SIMS). The olivine ranges from Fo94 to Fo90 in composition and contains about 4000 ppm wt. H2O. The wadsleyite is Fo87卤1 in composition and contains about 10,000 ppm wt. H2O. The clinoenstatite is En93卤1 in composition and about 1400 ppm wt. H2O. Transmission electron microscopy of the wadsleyite lamellae and host olivine shows that the two phases share their close-packed oxygen planes so that the wadsleyite lamellae are nearly planar and perpendicular to the [1 0 0] of olivine. The wadsleyite lamellae thus have their {1 0 1} and {0 2 1} planes parallel to the (1 0 0) plane of olivine. Additionally, larger incoherent grains of wadsleyite in olivine are found. Dislocation microtexures in the olivine and iron concentration profiles across the lamella interface suggest heterogeneous nucleation and diffusion-controlled growth of coherent wadsleyite lamellae on defects in the olivine followed by the nucleation of faster-growing incoherent grains on the lamellae. The results show that, under hydrous conditions, the olivine-wadsleyite transformation occurs close to equilibrium at conditions of the 410-km discontinuity. Furthermore, inheritance of crystallographic preferred orientations (and therefore seismic anisotropy) across the 410-km discontinuity is unlikely to be significant. In addition, hydrogen distributions among the various phases indicate that dehydration by melt extraction at 410 km will be inefficient and that H contents greater than about 4000 ppm wt. H2O are needed to initiate melting at 410 km.