On the origin of small‐scale seismic scatters at 660‐km depth

Mao, Wei; Gurnis, Michael; Wu, Wenbo

On the origin of small‐scale seismic scatters at 660‐km depth

Date

2022-11-19

Authors

Mao, Wei
Gurnis, Michael
Wu, Wenbo

Linked Authors

Person

Mao, Wei

Person

Gurnis, Michael

Person

Wu, Wenbo

DOI

10.1029/2022gc010560

Keywords

Seismic Scatter
Mantle Convection
Subduction
Mantle Transition zone
Mechanical mixing
Mantle heterogeneities

Abstract

Strong small‐scale seismic scatters (<10 km) have been recently observed at 660 km depth, but their origin remains uncertain. We systematically conduct both high‐resolution 2‐D geodynamic computations that include realistic thermodynamic properties, synthetic seismic waveforms, and insight from shallow seismic observations to explore their origin. We demonstrate that neither short‐term subduction, nor long‐term mechanical mantle mixing processes can produce sufficiently strong heterogeneities to explain the origin of such small‐scale seismic scatters. Instead, the intrinsic heterogeneities inside the oceanic lithosphere which subducts into the mantle transition zone and the uppermost lower mantle can explain the observed short‐wavelength scatter waves.Plain Language Summary

Description

© The Author(s), 2022. This article is distributed under the terms of the Creative Commons Attribution License. The definitive version was published in Mao, W., Gurnis, M., & Wu, W. On the origin of small‐scale seismic scatters at 660‐km depth. Geochemistry, Geophysics, Geosystems, 23(12), (2022): e2022GC010560, https://doi.org/10.1029/2022gc010560.

Citation

Mao, W., Gurnis, M., & Wu, W. (2022). On the origin of small‐scale seismic scatters at 660‐km depth. Geochemistry, Geophysics, Geosystems, 23(12), e2022GC010560.

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Geology and Geophysics (G&G)

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