Variation of the 3-μm absorption feature on Mars: Observations over eastern Valles Marineris by the Mariner 6 infrared spectrometer

Details Variation of the 3-μm absorption feature on Mars: Observations over eastern Valles Marineris by the Mariner 6 infrared spectrometer Variation of the 3-μm absorption feature on Mars: Observations over eastern Valles Marineris by the Mariner 6 infrared spectrometer

Apr 1997

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1997jgr...102.9097c&link_type=abstract

Journal of Geophysical Research, Volume 102, Issue E4, p. 9097-9108

Other

27

Planetology: Solar System Objects: Mars, Planetology: Solid Surface Planets: Remote Sensing, Planetology: Solid Surface Planets: Composition

Scientific paper

A new approach for calibration of the shortest wavelength channel (1.8 to 6.0 μm) of the Mariner 6 infrared spectrometer was derived. This calibration provides a new description of the instrument response function from 1.8 to 3.7 μm and accounts for the thermal contribution to the signal at longer wavelengths. This allows the two segments from 1.8 to 6 μm to be merged into a single spectrum. The broad water of hydration absorption spans these two segments and is examined in these merged spectra using a method of band integration. Unlike previous analyses which rely on ratios at two wavelengths, the integration method can assess the band strength independently from the albedo in the near infrared. Spectra taken over the eastern end of the Valles Marineris are examined for variations of the band-integrated value, and three distinct clusters are found. Within the estimated uncertainty, two clusters (both low and high albedo) have approximately the same integrated band depth. The third cluster (medium albedo) has an integrated band depth about 10% higher. This difference cannot be systematically attributed to either surface or atmospheric parameters and suggests variation in the amount of water either chemically or physically bound in surface materials. Approximately one-half of the high integrated band depth cluster is associated with chaotic terrain at the source of outflow channels, the other half occurs over lower inertia plains adjacent to chasmata. This suggests both surface physical properties and mineralogy as well as water in exchange with the atmosphere contribute to the 3-μm bound water absorption.

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