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A global SS precursor method for imaging discontinuities: the Moho and beyond

A global SS precursor method for imaging discontinuities: the Moho and beyond
A global SS precursor method for imaging discontinuities: the Moho and beyond

Imaging seismic velocity discontinuities within the Earth's interior offers important insight into our understanding of the tectonic plate, associated mantle dynamics, and the evolution of the planet. However, imaging velocity discontinuities in locations where station coverage is sparse, is sometimes challenging. Here we demonstrate the effectiveness of a new imaging approach using deconvolved SS precursor phases. We demonstrate its effectiveness by applying it to synthetic seismograms. We also apply it to ∼1.6 M SS precursor waveforms from the global seismic database (1990-2018) for comparison with CRUST1.0. We migrate to depth and stack the data in circular 6° bins. The synthetic tests demonstrate that we can recover Moho depths as shallow as 20 km. Globally, the Moho is resolved at 21-67 km depth beneath continental regions. The Moho increases in depth from 21 km ± 4 km beneath the continental shelf to 45-50 km beneath the continental interiors and is as deep as 67 ± 4 km beneath Tibet. We resolve the Moho in 77 percent of all continental bins, within 10 km of CRUST1.0, with all outliers located in coastal regions. We also demonstrate the feasibility of using this method to image discontinuities associated with the mantle transition zone with both synthetic and real data. Overall, the approach shows broad promise for imaging mantle discontinuities.

Body waves, Crustal imaging, Moho depth, Seismic discontinuities, Wave scattering and diffraction
0956-540X
756-763
Dai, Yuhang
81b3f9b9-2faa-49d0-97e5-c4907a194810
Tharimena, Saikiran
d035ee82-5c90-4dac-b0dd-202a55511e9f
Rychert, Catherine
70cf1e3a-58ea-455a-918a-1d570c5e53c5
Harmon, Nicholas
10d11a16-b8b0-4132-9354-652e72d8e830
Dai, Yuhang
81b3f9b9-2faa-49d0-97e5-c4907a194810
Tharimena, Saikiran
d035ee82-5c90-4dac-b0dd-202a55511e9f
Rychert, Catherine
70cf1e3a-58ea-455a-918a-1d570c5e53c5
Harmon, Nicholas
10d11a16-b8b0-4132-9354-652e72d8e830

Dai, Yuhang, Tharimena, Saikiran, Rychert, Catherine and Harmon, Nicholas (2024) A global SS precursor method for imaging discontinuities: the Moho and beyond. Geophysical Journal International, 238 (2), 756-763. (doi:10.1093/gji/ggae145).

Record type: Article

Abstract

Imaging seismic velocity discontinuities within the Earth's interior offers important insight into our understanding of the tectonic plate, associated mantle dynamics, and the evolution of the planet. However, imaging velocity discontinuities in locations where station coverage is sparse, is sometimes challenging. Here we demonstrate the effectiveness of a new imaging approach using deconvolved SS precursor phases. We demonstrate its effectiveness by applying it to synthetic seismograms. We also apply it to ∼1.6 M SS precursor waveforms from the global seismic database (1990-2018) for comparison with CRUST1.0. We migrate to depth and stack the data in circular 6° bins. The synthetic tests demonstrate that we can recover Moho depths as shallow as 20 km. Globally, the Moho is resolved at 21-67 km depth beneath continental regions. The Moho increases in depth from 21 km ± 4 km beneath the continental shelf to 45-50 km beneath the continental interiors and is as deep as 67 ± 4 km beneath Tibet. We resolve the Moho in 77 percent of all continental bins, within 10 km of CRUST1.0, with all outliers located in coastal regions. We also demonstrate the feasibility of using this method to image discontinuities associated with the mantle transition zone with both synthetic and real data. Overall, the approach shows broad promise for imaging mantle discontinuities.

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Accepted/In Press date: 9 April 2024
e-pub ahead of print date: 18 April 2024
Published date: 7 June 2024
Additional Information: Publisher Copyright: © 2024 The Author(s). Published by Oxford University Press on behalf of The Royal Astronomical Society.
Keywords: Body waves, Crustal imaging, Moho depth, Seismic discontinuities, Wave scattering and diffraction
Learn more about Ocean and Earth Science research Learn more about School of Ocean and Earth Science research

Identifiers

Local EPrints ID: 496382
URI: http://eprints.soton.ac.uk/id/eprint/496382
DOI: doi:10.1093/gji/ggae145
ISSN: 0956-540X
PURE UUID: 856b6e6a-b03a-4a7e-a638-24d7bfad38cb
ORCID for Nicholas Harmon: ORCID iD orcid.org/0000-0002-0731-768X

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Date deposited: 12 Dec 2024 18:13
Last modified: 13 Dec 2024 02:43

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Contributors

Author: Yuhang Dai
Author: Saikiran Tharimena
Author: Catherine Rychert
Author: Nicholas Harmon ORCID iD

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