Phase Equilibria and Trace Element Partitioning in a Magma Ocean to 260 Kilobars
Abstract
A magma ocean can solidify in a way that is intermediate between perfect equilibrium and perfect fractional crystallization. In order to model quantitatively any fractional crystallization scenario, it is necessary to understand the geochemical characteristics of the phases that crystallize from a magma ocean, and how they vary with pressure. The crystallizing phase is called the liquidus phase, and their identities were determined by numerous experiments utilizing the multianvil apparatus. For chondritic compositions the liquidus phases are as follows: olivine at 1 atmosphere to 100 kilobars; garnet from 100 to about 260 kilobars; silicate perovskite from 260 kilobars to possibly the core-mantle boundary in the Earth.
- Publication:
-
Physics and Chemistry of Magma Oceans from 1 Bar to 4 Mbar
- Pub Date:
- 1992
- Bibcode:
- 1992pcmo.work...22H
- Keywords:
-
- Crystallization;
- Geochemistry;
- Liquidus;
- Magma;
- Trace Elements;
- Chondrites;
- Garnets;
- Olivine;
- Perovskites;
- Geophysics