成月撞击器对硅酸盐块状地球挥发物清单的贡献

IF 3.8 Q2 ASTRONOMY & ASTROPHYSICS
Damanveer S. Grewal, Yoshinori Miyazaki, Nicole X. Nie
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引用次数: 0

摘要

关于大块硅酸盐地球(BSE)中生命必需挥发物氢-碳-氮-硫(H-C-N-S)现今存量形成的时间和机制存在争议。在这项研究中,我们模拟了H-C-N-S在地核、岩浆海洋(MO)和大气之间的平衡分配,以确定月球形成撞击器(MFI)是否是大块硅酸盐地球中挥发物的主要来源。我们的研究结果表明,MFI的内核和MO脱气的大气层是其主要的H-C-N-S库。由于MFI很可能在发生巨大撞击之前就失去了MO脱气的大气层,因此BSE的大部分挥发物必须来自MFI内核中与地球撞击后MO重新平衡的一小部分。这意味着 MFI 中有大量的 H-C-N-S(富含挥发物的碳质软玉高达 50%)来确定 BSE 的挥发物预算。尽管非挥发性元素的同位素组成并不排除大量富挥发性碳质物质吸积的可能性,但由于MFI是从热变质/分化的类星体碰撞生长而来,因此在其分化过程中不可能含有相当于碳质软玉的50%的H-C-N。因此,MFI不可能是BSE中挥发物的主要来源。BSE的大部分挥发物(尤其是H和C)可能在成月事件之前就存在了。为了防止挥发物流失到太空并被分离到地核中,含挥发物的物质必须在成月事件之前的最后一次(多次)增殖事件中输送。原地球在这一阶段的巨大体积,加上成月过程中有限的金属-硅酸盐平衡,促进了这些挥发物在 BSE 内的保留。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Contribution of the Moon-forming Impactor to the Volatile Inventory in the Bulk Silicate Earth
The timing and mechanism by which the present-day inventory of life-essential volatiles hydrogen–carbon–nitrogen–sulfur (H–C–N–S) in the bulk silicate Earth (BSE) was established are debated. In this study we have modeled the equilibrium partitioning of H–C–N–S between core, magma ocean (MO), and atmosphere to determine whether the Moon-forming impactor (MFI) was the primary source of volatiles in the BSE. Our findings suggest that the MFI’s core and MO-degassed atmosphere were its primary H–C–N–S reservoirs. Since the MFI likely lost its MO-degassed atmosphere before the giant impact, most of the BSE’s volatiles must come from the small fraction of the MFI’s core which reequilibrated with Earth’s post-impact MO. This implies a high H–C–N–S inventory in the MFI (up to 50% of volatile-rich carbonaceous chondrites) to establish the BSE’s volatile budget. Although isotopic compositions of nonvolatile elements do not rule out the possibility of substantial volatile-rich, carbonaceous material accretion, MFI’s collisional growth from thermally metamorphosed/differentiated planetesimals makes it improbable that it contained ∼50% carbonaceous chondrite equivalent of H–C–N during its differentiation. Therefore, the MFI was unlikely the primary source of volatiles in the BSE. A significant portion of the BSE’s volatile inventory (especially H and C) likely predates the Moon-forming event. To prevent loss to space and segregation into Earth’s core, volatile-bearing materials must be delivered during the final accretion event(s) preceding the Moon-forming event. The substantial size of the proto-Earth at this stage, combined with limited metal–silicate equilibration during the Moon-forming event, facilitated the retention of these volatiles within the BSE.
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来源期刊
The Planetary Science Journal
The Planetary Science Journal Earth and Planetary Sciences-Geophysics
CiteScore
5.20
自引率
0.00%
发文量
249
审稿时长
15 weeks
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