Science. 1990 May 25;248(4958):993-6. doi: 10.1126/science.248.4958.993.
Geophysical discontinuities in Earth's upper mantle and experimental data predict the structural transformation of pyroxene to garnet and the solid-state dissolution of pyroxene into garnet with increasing depth. These predictions are indirectly verified by omphacitic pyroxene exsolution in pyropic garnet-bearing xenoliths from a diamondiferous kimberlite. Conditions for silicon in octahedral sites in the original garnets are met at pressures greater than 130 kilobars, placing the origin of these xenoliths at depths of 300 to 400 kilometers. These ultradeep xenoliths support the theory that the 400-km seismic discontinuity is marked by a transition from peridotite to eclogite.
地球上地幔中的地球物理不连续面和实验数据预测,随着深度的增加,辉石将发生向石榴石的结构转变以及辉石在固态中溶解进入石榴石。这些预测被金刚石金伯利岩中含尖晶石石榴石的捕虏体中出溶的单斜辉石间接证实。在原始石榴石中八面体位置的硅的条件在压力大于 130 千巴时得到满足,这表明这些捕虏体的起源深度在 300 到 400 公里之间。这些超深捕虏体支持了 400 公里地震不连续面以橄榄岩向榴辉岩的转变为标志的理论。