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Water vapor mixing ratios and air temperatures for three martian years from Curiosity

The Mars Science Laboratory (MSL) Rover Environmental Monitoring Station humidity instrument (REMS-H) onboard the Curiosity rover is measuring daily minimum water vapor mixing ratios (min vmr), the respective pre-dawn air temperatures (T), and vmr at 2200LT. These are displayed for nearly three mart...

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Bibliographic Details
Published in:Icarus (New York, N.Y. 1962) N.Y. 1962), 2019-07, Vol.326, p.170-175
Main Authors: Savijärvi, Hannu, McConnochie, Timothy H., Harri, Ari-Matti, Paton, Mark
Format: Article
Language:English
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Summary:The Mars Science Laboratory (MSL) Rover Environmental Monitoring Station humidity instrument (REMS-H) onboard the Curiosity rover is measuring daily minimum water vapor mixing ratios (min vmr), the respective pre-dawn air temperatures (T), and vmr at 2200LT. These are displayed for nearly three martian years (sols 10–2003) and compared with adsorptive column model simulations. The model was initialized with MSL-observed local column water contents, optical depths and surface pressures from sols 230–1291, assuming the same annual cycle outside this period. The first two and a half MSL years present rather similar annual cycles in the REMS-H data, whereas from about sol 1800 onward the min vmr and T suddenly increase and the 2200LT vmr values get closer to the min vmr, indicating less depletion of water vapor during the nights. Model experiments with typical regolith (ground thermal inertia of 300 SI units and porosity of 30% for adsorption) match the observed min vmr and T relatively well for the first 2.5 years. However, from about sol 1800 onward, when Curiosity started to climb onto Mt. Sharp, simulations with higher thermal inertia of about 400 SI units and very low porosity of ~0.3%, suggesting exposed bedrock, provide a far better fit. Some other periods of bedrock- and dune-dominated ground can be detected from the REMS-H vmr and air-T data along the Curiosity traverse. •MSL REMS-H daily minimum vmr and T are shown for three martian years and compared with adsorptive column model simulations.•The first 2.5 MSL years display similar annual cycles, whereas from about sol 1800 onward min vmr and T suddenly increase.•Model with typical regolith matches the first 2.5 years of T and vmr relatively well.•Model with exposed bedrock matches T and min vmr relatively well from sol 1800 onward.•Shorter periods of bedrock- and dune-like ground can be detected from both the T- and vmr data along the Curiosity traverse.
ISSN:0019-1035
1090-2643
DOI:10.1016/j.icarus.2019.03.020