The Abundance of Atmospheric CO2 in Ocean Exoplanets: A Novel CO2 Deposition Mechanism

We consider super-Earth sized planets which have a water mass fraction that is large enough to form an external mantle composed of high pressure water ice polymorphs and that lack a substantial H/He atmosphere.

We consider such planets in their habitable zone so that their outermost condensed mantle is a global deep liquid ocean. For these ocean planets we investigate potential internal reservoirs of CO2; the amount of CO2 dissolved in the ocean for the various saturation conditions encountered, and the ocean-atmosphere exchange flux of CO2. We find that in steady state the abundance of CO2 in the atmosphere has two possible states. When the wind-driven circulation is the dominant CO2 exchange mechanism, an atmosphere of tens of bars of CO2 results, where the exact value depends on the subtropical ocean surface temperature and the deep ocean temperature.

When sea-ice formation, acting on these planets as a CO2 deposition mechanism, is the dominant exchange mechanism, an atmosphere of a few bars of CO2 is established. The exact value depends on the subpolar surface temperature. Our results suggest the possibility of a negative feedback mechanism, unique to water planets, where a reduction in the subpolar temperature drives more CO2 into the atmosphere to increase the greenhouse effect.

Amit Levi, Dimitar Sasselov, Morris Podolak
(Submitted on 26 Sep 2016)

Comments: 114 pages, 55 figures, submitted to the astrophysical journal
Subjects: Earth and Planetary Astrophysics (astro-ph.EP)
Cite as: arXiv:1609.08185 [astro-ph.EP] (or arXiv:1609.08185v1 [astro-ph.EP] for this version)
Submission history
From: Amit Levi
[v1] Mon, 26 Sep 2016 20:47:43 GMT (1088kb,D)

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