Litcius/Paper detail

Obliquity‐Driven CO<sub>2</sub> Exchange Between Mars' Atmosphere, Regolith, and Polar Cap

P. B. Buhler, S. Piqueux

2021Journal of Geophysical Research Planets26 citationsDOI

Abstract

Abstract Discerning the total mass of Mars’ obliquity‐timescale (∼10 5 ‐year) exchangeable CO 2 inventory has been elusive for decades due to the unknown adsorptive capacity of its regolith. Now, however, the stratigraphy of Mars’ recently discovered South Polar Massive CO 2 Ice Deposit (MCID) provides a record of orbit‐driven CO 2 exchange between its polar cap, atmosphere, and regolith with sufficient constraint to calculate the adsorptive capacity of its regolith and therefore the total mass of its exchangeable CO 2 inventory. We use a numerical climate model and Markov Chain Monte Carlo analysis to show that the observed MCID stratigraphic record is most consistent with a mobile CO 2 inventory of kg ( mbar, 68% confidence interval) that exchanges on obliquity timescales. We find that adsorptive CO 2 exchange with the regolith on obliquity timescales likely occurs in the depth range of &gt;∼200 m to &lt;∼1 km, with the deeper bound set by thermal processes and adsorptive surface availability. Our best‐fit model yields a peak mean annual surface pressure 40% lower than CO 2 exchange models that neglect an adsorbing regolith. We provide machine‐readable text files of our results to aid future study of Mars’ climate.

Topics & Concepts

RegolithMars Exploration ProgramAstrobiologyAtmosphere (unit)GeologyAtmosphere of MarsPolarAtmospheric sciencesEnvironmental scienceMartianPhysicsMeteorologyAstronomyPlanetary Science and ExplorationAstro and Planetary ScienceSpace Science and Extraterrestrial Life