IRTF/CSHELL mapping of atmospheric HDO, H2O and D/H on Mars during northern summer

Abstract

Mapping the D/H isotopic ratio across Mars provides unique insights into the evolution and climatology of its atmosphere, and may help to identify the sources and sinks of atmospheric water vapor on the planet. We present new spatially-resolved measurements of atmospheric H2O, HDO and D/H on Mars during its northern summer at Ls = 126°, on March 21, 2016. High-resolution spectra were acquired at ν/Δν~40,000 using CSHELL, the Cryogenic Near-IR Facility Spectrograph at the 3 m NASA Infrared Telescope Facility (IRTF) on top of Maunakea, Hawaii. We targeted the 2ν2 spectral band of H2O around 2990 cm−1 (3.3 μm), and its deuterated form HDO at its ν1 fundamental band around 2720 cm−1 (3.7 μm). The water vapor and HDO show increased mixing ratios in the northern hemisphere, reaching peak values of 400 ppmv for H2O, 170 ppbv–450 ppbv for HDO, as compared to the southern hemisphere where depleted values of <20 ppmv for H2O and <10 ppbv for HDO were observed. The resulting D/H measurements indicate an enrichment over the terrestrial value, exhibiting a strong variation with latitude, longitude and local times. We report a strong dependence of D/H on local time, with high HDO abundances towards local noon. We observed higher D/H enrichment above basins (Utopia), lower enrichment above high-altitude Mons (Elysium Mons), and low D/H variations over “flat” regions on the planet.