基于铌/钽系统研究行星核与地月系统的演化

Evolution of planetary cores and the Earth-Moon system from Nb/Ta systematics.

作者信息

Münker Carsten, Pfänder Jörg A, Weyer Stefan, Büchl Anette, Kleine Thorsten, Mezger Klaus

机构信息

Institut für Mineralogie, Corrensstrasse 24, Universität Münster, 48149 Münster, Germany.

出版信息

Science. 2003 Jul 4;301(5629):84-7. doi: 10.1126/science.1084662.

DOI:10.1126/science.1084662

PMID:12843390

Abstract

It has been assumed that Nb and Ta are not fractionated during differentiation processes on terrestrial planets and that both elements are lithophile. High-precision measurements of Nb/Ta and Zr/Hf reveal that Nb is moderately siderophile at high pressures. Nb/Ta values in the bulk silicate Earth (14.0 +/- 0.3) and the Moon (17.0 +/- 0.8) are below the chondritic ratio of 19.9 +/- 0.6, in contrast to Mars and asteroids. The lunar Nb/Ta constrains the mass fraction of impactor material in the Moon to less than 65%. Moreover, the Moon-forming impact can be linked in time with the final core-mantle equilibration on Earth 4.533 billion years ago.

摘要

人们一直认为，铌（Nb）和钽（Ta）在类地行星的分化过程中不会发生分馏，且这两种元素均为亲石元素。铌钽比（Nb/Ta）和锆铪比（Zr/Hf）的高精度测量结果表明，在高压下铌具有中等程度的亲铁性。与火星和小行星不同，地球整体硅酸盐（14.0±0.3）和月球（17.0±0.8）中的Nb/Ta值低于球粒陨石19.9±0.6的比值。月球的Nb/Ta值将撞击体物质在月球中的质量分数限制在65%以下。此外，月球形成的撞击事件在时间上可能与45.33亿年前地球最终的核幔平衡有关。