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  • 标题:Formation of anorthosite on the Moon through magma ocean fractional crystallization
  • 本地全文:下载
  • 作者:Tatsuyuki Arai ; Tatsuyuki Arai ; Shigenori Maruyama
  • 期刊名称:Geoscience Frontiers
  • 印刷版ISSN:1674-9871
  • 出版年度:2017
  • 卷号:8
  • 期号:2
  • 页码:299-308
  • DOI:10.1016/j.gsf.2016.11.007
  • 语种:English
  • 出版社:Elsevier
  • 摘要:Abstract Lunar anorthosite is a major rock of the lunar highlands, which formed as a result of plagioclase-floatation in the lunar magma ocean (LMO). Constraints on the sufficient conditions that resulted in the formation of a thick pure anorthosite (mode of plagioclase >95 vol.%) is a key to reveal the early magmatic evolution of the terrestrial planets. To form the pure lunar anorthosite, plagioclase should have separated from the magma ocean with low crystal fraction. Crystal networks of plagioclase and mafic minerals develop when the crystal fraction in the magma (φ) is higher than ca. 40–60 vol.%, which inhibit the formation of pure anorthosite. In contrast, when φ is small, the magma ocean is highly turbulent, and plagioclase is likely to become entrained in the turbulent magma rather than separated from the melt. To determine the necessary conditions in which anorthosite forms from the LMO, this study adopted the energy criterion formulated by Solomatov. The composition of melt, temperature, and pressure when plagioclase crystallizes are constrained by using MELTS/pMELTS to calculate the density and viscosity of the melt. When plagioclase starts to crystallize, the Mg# of melt becomes 0.59 at 1291 °C. The density of the melt is smaller than that of plagioclase for P > 2.1 kbar (ca. 50 km deep), and the critical diameter of plagioclase to separate from the melt becomes larger than the typical crystal diameter of plagioclase (1.8–3 cm). This suggests that plagioclase is likely entrained in the LMO just after the plagioclase starts to crystallize. When the Mg# of melt becomes 0.54 at 1263 °C, the density of melt becomes larger than that of plagioclase even for 0 kbar. When the Mg# of melt decreases down to 0.46 at 1218 °C, the critical diameter of plagioclase to separate from the melt becomes 1.5–2.5 cm, which is nearly equal to the typical plagioclase of the lunar anorthosite. This suggests that plagioclase could separate from the melt. One of the differences between the Earth and the Moon is the presence of water. If the terrestrial magma ocean was saturated with H2O, plagioclase could not crystallize, and anorthosite could not form. Graphical abstract Display Omitted Highlights • The lunar anorthosite formed as a result of plagioclase-floatation of the magma ocean. • A sufficient condition that formed the thick anorthosite was constrained. • Plagioclase will be entrained just after plagioclase starts to crystallize. • Plagioclase will separate from the magma when the melt becomes enriched in FeO. • If the terrestrial magma ocean was saturated with H2O, anorthosite could not form.
  • 关键词:KeywordsenMoonAnorthositeMagma oceanMELTSFractional crystallization
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