期刊
LITHOS
卷 83, 期 3-4, 页码 394-419出版社
ELSEVIER
DOI: 10.1016/j.lithos.2005.03.011
关键词
partitioning; olivine; trace elements; petrogenesis; modeling
Variation of Nernst partition coefficients (D) between olivine and silicate melt,, cannot he neglected when modeling partial melting and fractional crystallization. Published natural and experimental (olivine liquid) D data were examined for covariation with pressure, temperature, olivine forsterite content, and melt SiO2, H2O, MgO and Mgo MgO + FeOtotal. Values of(olivine/liquid)D generally increase with decreasing temperature and melt MgO content and with increasing melt SiO2 content but generally show poor correlations with other variables. Multi-element(olivine liquid)D profiles calculated from regressions or 1) REE Sc Y vs. melt MgO content are compared to results of the Lattice Strain Model to link melt Mgo and: A, (the strain compensated partition coefficient), E-M(3+) (Young's Modulus), and r(0) (the size of the M site). Ln D-0 varies linearly with Ln MgO in the melt. E-M(3+) varies linearly with melt MgO, with a dog-leg at ca. 1.5% MgO; and r(0) remains constant at 0.807 A, These equations are then used to calculate D-olivine/liquid for these elements using the Lattice Strain Model. These empirical parameterizations of D-olivine liquid variations yield results comparable to experimental or natural Partitioning data, and can easily he integrated into existing trace element modeling algorithms. The D-olivine/liquid data suggest that basaltic melts in equilibrium with pure olivine may acquire small negative Ta-Hf-Zr-Ti anomalies, but that negative Nb anomalies tire unlikely to develop, Misfits between results of the Lattice Strain Model and most light rare earth and large ion lithophile partitioning data suggest that kinetic eftects may limit the lower value of D for extremely incompatible elements in natural situations characterized by high cooling crystallization rates. (c) 2005 Elsevier B.V All rights reserved.
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