Global Crustal Thickness Revealed by Surface Waves Orbiting Mars

Authors :: Kim, Doyeon
Duran, Andrea Cecilia
Giardini, Domenico
Plesa, Ana-Catalina
Stähler, Simon Christian
Boehm, C.
Lekić, Vedran
McLennan, Scott M.
Ceylan, Savas
Clinton, John Francis
Davis, P.
Khan, Amir
Knapmeyer-Endrun, Brigitte
Panning, Mark P.
Wieczorek, Mark A.
Lognonné, Philippe
Banerdt, Bruce
Source :: Geophysical Research Letters, 50 (12)
Publication Year :: 2023
Publisher :: American Geophysical Union, 2023.
Abstract: We report observations of Rayleigh waves that orbit around Mars up to three times following the S1222a marsquake. Averaging these signals, we find the largest amplitude signals at 30 and 85 s central period, propagating with distinctly different group velocities of 2.9 and 3.8 km/s, respectively. The group velocities constraining the average crustal thickness beneath the great circle path rule out the majority of previous crustal models of Mars that have a >200 kg/m(3) density contrast across the equatorial dichotomy between northern lowlands and southern highlands. We find that the thickness of the Martian crust is 42-56 km on average, and thus thicker than the crusts of the Earth and Moon. Considered with the context of thermal evolution models, a thick Martian crust suggests that the crust must contain 50%-70% of the total heat production to explain present-day local melt zones in the interior of Mars.<br />Geophysical Research Letters, 50 (12)<br />ISSN:0094-8276<br />ISSN:1944-8007