Constraints on the composition and particle size of chloride salt‐bearing deposits on Mars

Glotch, T. D.; Bandfield, J. L.; Wolff, Michael; Arnold, Jessica A.; Che, C.

doi:10.1002/2015je004921

Cited by 55 publications

(77 citation statements)

References 76 publications

(138 reference statements)

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“…This increased fidelity to reality increases the likelihood that such models can be used to determine the compositions of finely particulate surfaces like Martian dusty regions or lunar regolith from MIR spectra. The effectiveness of the T‐matrix/RT hybrid models has already allowed researchers to constrain mineral percentages in fine particulate mixtures [ Glotch et al ., ]. Mie‐based approaches would likely have a tremendous difficulty completing a similar task due to very poor modeling of spectral features (e.g., transparency features, Reststrahlen bands) that make the Mie/RT modeled spectra mostly impractical for such applications.…”

Section: Discussionmentioning

confidence: 99%

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T‐matrix and radiative transfer hybrid models for densely packed particulates at mid‐infrared wavelengths

2017

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Mid‐infrared spectroscopy is a useful tool for remotely sensing the composition of Earth and other planets. Quantitative mineralogical investigations are possible using remotely sensed data; however, the difficulty in modeling complex interactions of light with particles that are on the order of the wavelength limits the usefulness of the remote sensing data. As part of an effort to develop a more effective treatment of light scattering in planetary regolith, we explore the ability of T‐matrix and radiative transfer (RT) hybrid models to produce emissivity spectra that are consistent with laboratory measurements. Parameters obtained from T‐matrix calculations are used in three different RT models to construct emissivity spectra of enstatite particles of different sizes. Compared to the widely used Mie/RT hybrid models, the T‐matrix/RT hybrid models produce more consistent emissivity spectra for the finest particle size fraction (3.3 μm). Overall, T‐matrix hybrid models produce improved emissivity spectra, but larger particle sizes are still difficult to model. The improvement observed in T‐matrix/RT hybrid models is a result of the inclusion of multiple scattering in closely packed media, and it demonstrates the importance of the implementation of physically realistic factors in developing a more effective light scattering model for planetary regolith. Further development and implementation of this and similar hybrid models will result in an improvement in quantitative assessments of planetary particulate surfaces from mid‐infrared spectra.

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Section: Discussionmentioning

confidence: 99%

“… γ T and ζ T are dependent on single scattering albedo ( ω T ) and hemispherical asymmetry parameter ( β T ). For ease of calculation, the asymmetry parameter β T can be substituted with the cosine asymmetry parameter, g , derived from either the Mie or T‐matrix model [ Arnold , ; Glotch et al , ; Hardgrove et al , ].…”

Section: Theoriesmentioning

confidence: 99%

T‐matrix and radiative transfer hybrid models for densely packed particulates at mid‐infrared wavelengths

2017

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“…The estimated porosity of this surface is 45%, based on previous studies of terrestrial playa such as Lake Bonneville [ Turk et al ., ]. The areal fraction of chloride required to produce spectral slopes in the TIR is estimated to have a range of 10–25% [ Glotch et al ., ]. The optical depth of TIR in chloride minerals is approximately ~150 µm [ Berger et al ., ].…”

Section: Resultsmentioning

confidence: 99%

“…Additional laboratory studies indicate that Martian chloride spectra are best replicated by a mixture of chloride grains with the remainder best represented by surface type 1 (ST1) basalts [ Osterloo et al ., ; Jensen and Glotch , ; Glotch et al ., ]. The work of Glotch et al .…”

Section: Introductionmentioning

confidence: 99%

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Recurring slope lineae and chlorides on the surface of Mars

Mitchell

Christensen

2016

JGR Planets

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Recurring Slope Lineae (RSL) are dark streaks that appear on steep slopes on the Martian surface. While their apparent movement suggests liquid flow, remote sensing studies have not found evidence of fresh water. Some RSL have been observed at temperatures below the freezing point of water; if liquid water is present, therefore, it is likely in the form of a brine. In contrast to studies of other dissolved species such as perchlorates, this study explores the possibility of chloride as a dissolved component in RSL. Using Thermal Emission Imaging System decorrelation stretch products and High‐Resolution Imaging Science Experiment images, the presence of chloride lag deposits at RSL sites was assessed on a global scale. Though faint potential chloride signatures were detected at two RSL sites, emissivity spectra showed no significant variation from surrounding geology. No other RSL showed indications of chlorides. Using a simple model, the upper limit of chloride required for positive detection is estimated to be ~30 ± 15 g/m2. The total brine required to produce a detectable lag deposit is ~80 ± 35 mL/m2 at a eutectic concentration of calcium chloride. Over the last climate cycle, brine production could be up to 8 ± 3 × 10−4 mL/m2‐yr without producing a detectable lag deposit. Based on these results, we conclude that chloride abundance is not the limiting factor for RSL generation. RSL could be produced by capillary wicking of chloride‐rich brines to the surface, where small amounts of brine produce lag deposits below the detection limits of currently orbiting instruments.

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Paleohydrology on Mars constrained by mass balance and mineralogy of pre‐Amazonian sodium chloride lakes

Daswani

Kite

2017

JGR Planets

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Constraints on the composition and particle size of chloride salt‐bearing deposits on Mars

Cited by 55 publications

References 76 publications

T‐matrix and radiative transfer hybrid models for densely packed particulates at mid‐infrared wavelengths

T‐matrix and radiative transfer hybrid models for densely packed particulates at mid‐infrared wavelengths

Recurring slope lineae and chlorides on the surface of Mars

Paleohydrology on Mars constrained by mass balance and mineralogy of pre‐Amazonian sodium chloride lakes

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