Russell Sara S, Joy Katherine H, Jeffries Teresa E, Consolmagno Guy J, Kearsley Anton
Natural History Museum, Cromwell Road, London SW7 5BD, UK
School of Earth, Atmospheric and Environmental Sciences, University of Manchester, Manchester M13 9PL, UK.
Philos Trans A Math Phys Eng Sci. 2014 Sep 13;372(2024):20130241. doi: 10.1098/rsta.2013.0241.
The lunar magma ocean model is a well-established theory of the early evolution of the Moon. By this model, the Moon was initially largely molten and the anorthositic crust that now covers much of the lunar surface directly crystallized from this enormous magma source. We are undertaking a study of the geochemical characteristics of anorthosites from lunar meteorites to test this model. Rare earth and other element abundances have been measured in situ in relict anorthosite clasts from two feldspathic lunar meteorites: Dhofar 908 and Dhofar 081. The rare earth elements were present in abundances of approximately 0.1 to approximately 10× chondritic (CI) abundance. Every plagioclase exhibited a positive Eu-anomaly, with Eu abundances of up to approximately 20×CI. Calculations of the melt in equilibrium with anorthite show that it apparently crystallized from a magma that was unfractionated with respect to rare earth elements and ranged in abundance from 8 to 80×CI. Comparisons of our data with other lunar meteorites and Apollo samples suggest that there is notable heterogeneity in the trace element abundances of lunar anorthosites, suggesting these samples did not all crystallize from a common magma source. Compositional and isotopic data from other authors also suggest that lunar anorthosites are chemically heterogeneous and have a wide range of ages. These observations may support other models of crust formation on the Moon or suggest that there are complexities in the lunar magma ocean scenario to allow for multiple generations of anorthosite formation.
月球岩浆海洋模型是一个关于月球早期演化的成熟理论。根据这个模型,月球最初大部分处于熔融状态,现在覆盖月球大部分表面的斜长岩地壳直接从这个巨大的岩浆源中结晶形成。我们正在对月球陨石中的斜长岩的地球化学特征进行研究,以检验这个模型。已对两块长石质月球陨石(佐法尔908和佐法尔081)中的残余斜长岩碎屑进行了原位稀土元素及其他元素丰度的测量。稀土元素的丰度约为球粒陨石(CI)丰度的0.1至约10倍。每颗斜长石都呈现出正铕异常,铕丰度高达约20倍CI。与钙长石处于平衡状态的熔体计算结果表明,它显然是从一种在稀土元素方面未分异、丰度范围为8至80倍CI的岩浆中结晶形成的。将我们的数据与其他月球陨石及阿波罗样品进行比较表明,月球斜长岩的微量元素丰度存在显著的不均一性,这表明这些样品并非都从同一个岩浆源结晶形成。其他作者的成分和同位素数据也表明,月球斜长岩在化学上是不均一的,且具有广泛的年龄范围。这些观测结果可能支持月球地壳形成的其他模型,或者表明月球岩浆海洋假说存在复杂性,从而允许多代斜长岩的形成。