Structure Along the Martian Dichotomy Constrained by Rayleigh and Love Waves and Their Overtones

D. Kim; S. C. Stähler; S. Ceylan; V. Lekic; R. Maguire; G. Zenhäusern; J. Clinton; D. Giardini; A. Khan; M. P. Panning; P. Davis; M. Wieczorek; N. Schmerr; P. Lognonné; W. B. Banerdt

doi:10.1029/2022GL101666

Geophysical Research Letters (Apr 2023)

Structure Along the Martian Dichotomy Constrained by Rayleigh and Love Waves and Their Overtones

D. Kim,
S. C. Stähler,
S. Ceylan,
V. Lekic,
R. Maguire,
G. Zenhäusern,
J. Clinton,
D. Giardini,
A. Khan,
M. P. Panning,
P. Davis,
M. Wieczorek,
N. Schmerr,
P. Lognonné,
W. B. Banerdt

Affiliations

D. Kim: Institute of Geophysics ETH Zürich Zürich Switzerland
S. C. Stähler: Institute of Geophysics ETH Zürich Zürich Switzerland
S. Ceylan: Institute of Geophysics ETH Zürich Zürich Switzerland
V. Lekic: Department of Geology University of Maryland College Park MD USA
R. Maguire: Department of Geology University of Illinois Urbana‐Champaign Urbana IL USA
G. Zenhäusern: Institute of Geophysics ETH Zürich Zürich Switzerland
J. Clinton: Swiss Seismological Service ETH Zürich Zürich Switzerland
D. Giardini: Institute of Geophysics ETH Zürich Zürich Switzerland
A. Khan: Institute of Geophysics ETH Zürich Zürich Switzerland
M. P. Panning: Jet Propulsion Laboratory California Institute of Technology Pasadena CA USA
P. Davis: Department of Earth Planetary and Space Sciences University of California Los Angeles CA USA
M. Wieczorek: Université Côte d'Azur Observatoire de la Côte d'Azur CNRS Laboratoire Lagrange Nice France
N. Schmerr: Department of Geology University of Maryland College Park MD USA
P. Lognonné: Université Paris Cité Institut de physique du globe de Paris CNRS Paris France
W. B. Banerdt: Jet Propulsion Laboratory California Institute of Technology Pasadena CA USA

DOI: https://doi.org/10.1029/2022GL101666
Journal volume & issue: Vol. 50, no. 8
pp. n/a – n/a

Abstract

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Abstract Using seismic recordings of event S1222a, we measure dispersion curves of Rayleigh and Love waves, including their first overtones, and invert these for shear velocity (VS) and radial anisotropic structure of the Martian crust. The crustal structure along the topographic dichotomy is characterized by a fairly uniform vertically polarized shear velocity (VSV) of 3.17 km/s between ∼5 and 30 km depth, compatible with the previous study by Kim et al. (2022), https://doi.org/10.1126/science.abq7157. Radial anisotropy as large as 12% (VSH > VSV) is required in the crust between 5 and 40 km depth. At greater depths, we observe a large discontinuity near 63 ± 10 km, below which VSV reaches 4.1 km/s. We interpret this velocity increase as the crust‐mantle boundary along the path. Combined gravimetric modeling suggests that the observed average crustal thickness favors the absence of large‐scale density differences across the topographic dichotomy.

Published in Geophysical Research Letters

ISSN: 0094-8276 (Print); 1944-8007 (Online)
Publisher: Wiley
Country of publisher: United States
LCC subjects: Science: Physics: Geophysics. Cosmic physics
Website: https://agupubs.onlinelibrary.wiley.com/journal/19448007

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