Mars CO2 cycle: Effects of airborne dust and polar cap ice emissivity

Mars General Circulation Model (GCM) simulations are presented to illustrate the importance of the ice emissivity of the seasonal CO₂ polar caps in regulating the effects of airborne dust on the martian CO₂ cycle. Simulated results show that atmospheric dust suppresses CO₂ condensation when the CO₂ ice emissivity is high but enhances it when the CO₂ ice emissivity is low. This raises the possibility that the reason for the repeatable nature of the CO₂ cycle in the presence of a highly variable dust cycle is that the CO₂ ice emissivity is “neutral” - the value that leads to no change in CO₂ condensation with changing atmospheric dust. For this GCM, the “neutral” emissivity is approximately 0.55, which is low compared to observed cap emissivities. This inconsistency poses a problem for this hypothesis. However, it is clear that the CO₂ ice emissivity is a critical physical parameter in determining how atmospheric dust affects the CO₂ cycle on Mars.