Moon-forming impactor as a source of Earth's basal mantle anomalies
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1.
California Institute of Technology
Abstract
Seismic images of Earth's interior have revealed two continent-sized anomalies with low seismic velocities, known as the large low-velocity provinces (LLVPs), in the lowermost mantle1. The LLVPs are often interpreted as intrinsically dense heterogeneities that are compositionally distinct from the surrounding mantle2. Here we show that LLVPs may represent buried relics of Theia mantle material (TMM) that was preserved in proto-Earth's mantle after the Moon-forming giant impact3. Our canonical giant-impact simulations show that a fraction of Theia's mantle could have been delivered to proto-Earth's solid lower mantle. We find that TMM is intrinsically 2.0–3.5% denser than proto-Earth's mantle based on models of Theia's mantle and the observed higher FeO content of the Moon. Our mantle convection models show that dense TMM blobs with a size of tens of kilometres after the impact can later sink and accumulate into LLVP-like thermochemical piles atop Earth's core and survive to the present day. The LLVPs may, thus, be a natural consequence of the Moon-forming giant impact. Because giant impacts are common at the end stages of planet accretion, similar mantle heterogeneities caused by impacts may also exist in the interiors of other planetary bodies.
Copyright and License
© The Author(s), under exclusive licence to Springer Nature Limited 2023.
Acknowledgement
We thank M. Gurnis, D. Stevenson, R. Canup, P. Olson, S. Stewart, M. Zolotov, T. Becker, M. Jackson, S.-H. Shim, D. Grady, R. Shi and S. Yuan for their support, discussions and insights. The numerical models were performed on the Agave cluster at Arizona State University. Any use of trade, firm or product names is for descriptive purposes only and does not imply endorsement by the U.S. Government. This work is supported by National Science Foundation grants EAR-1849949, EAR-1855624 and EAR-2216564. Q.Y. acknowledges support from the O. K. Earl Postdoctoral Fellowship at Caltech. T.S.J.G. recognizes support from the U.S. Geological Survey, Astrogeology Science Center. J.A.K. acknowledges support from a NASA Postdoctoral Program Fellowship, administered by Oak Ridge Associated Universities. Y.M. acknowledges a Stanback Postdoctoral Fellowship from the Caltech Center for Comparative Planetary Evolution. V.R.E. is supported by Science and Technology Facilities Council (STFC) grant ST/T000244/1. The MFM giant-impact simulations were performed on the Piz Daint supercomputer of the Swiss Nation Supercomputing Centre and the local cluster of the Shanghai Astronomical Observatory. The research in this paper made use of the SWIFT open-source simulation code70,85, v.0.9.0. This work used the DiRAC@Durham facility managed by the Institute for Computational Cosmology on behalf of the STFC DiRAC High-Performance Computing Facility (www.dirac.ac.uk). The equipment was funded by capital funding from the Department for Business, Energy and Industrial Strategy via STFC capital grants ST/K00042X/1, ST/P002293/1, ST/R002371/1 and ST/S002502/1, Durham University and STFC operations grant ST/R000832/1. DiRAC is part of the National e-Infrastructure.
Contributions
Q.Y. and E.J.G. conceptualized the initial idea. Q.Y., M.M.L. and E.J.G. designed the study. Q.Y. performed and analysed the geodynamic models with supervision from M.M.L. S.J.D. constrained the impact scenario and provided the composition of Theia. B.K. and Q.Y. computed the thermodynamic and seismic calculations. H.P.D., J.A.K. and V.R.E. performed the impact simulations and analysed the results. T.S.J.G. performed independent verifications of the SPH results and consulted on the SPH numerics. Y.M. developed the thermal evolution model. P.D.A. examined the fragmentation, dilution effect and magma mixing associated with the impact. All authors contributed to the writing and editing of the manuscript.
Data Availability
All data and parameters are available in the main text or the supplementary materials. The data that support the findings of this study are also available at https://doi.org/10.6084/m9.figshare.24013776.v1. Source data are provided with this paper.
Code Availability
The author's modified 2D Citcom code used in this study is available from https://figshare.com/projects/Yuan_Li_2022_NG/129185. The GIZMO code is made available at http://www.tapir.caltech.edu/~phopkins/Site/GIZMO.html. SWIFT is publicly available at http://swiftsim.com. WoMa is publicly available at https://github.com/srbonilla/WoMa, or the Python module can be installed directly with pip (https://pypi.org/project/woma/).
Conflict of Interest
The authors declare no competing interests.
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Additional details
- ISSN
- 1476-4687
- URL
- https://rdcu.be/dp438
- National Science Foundation
- EAR-1849949
- National Science Foundation
- EAR-1855624
- National Science Foundation
- EAR-2216564
- California Institute of Technology
- O. K. Earl Postdoctoral Fellowship
- United States Geological Survey
- National Aeronautics and Space Administration
- Postdoctoral Fellowship
- California Institute of Technology
- Foster and Coco Stanbeck Fellowship
- Science and Technology Facilities Council
- ST/T000244/1
- Science and Technology Facilities Council
- ST/K00042X/1
- Science and Technology Facilities Council
- ST/P002293/1
- Science and Technology Facilities Council
- ST/R002371/1
- Science and Technology Facilities Council
- ST/S002502/1
- Durham University
- Science and Technology Facilities Council
- ST/R000832/1
- Caltech groups
- Division of Geological and Planetary Sciences, Caltech Center for Comparative Planetary Evolution