Mathematics – Logic
Scientific paper
Dec 2009
adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=2009agufm.p13a1253b&link_type=abstract
American Geophysical Union, Fall Meeting 2009, abstract #P13A-1253
Mathematics
Logic
[5462] Planetary Sciences: Solid Surface Planets / Polar Regions, [5464] Planetary Sciences: Solid Surface Planets / Remote Sensing, [6225] Planetary Sciences: Solar System Objects / Mars
Scientific paper
The northern high latitude non-ice geology of Mars is dominated by large, low-albedo sand dunes and sand sheet deposits. These materials have experienced a complex geologic history, including evidence preserved in the morphology for aeolian deposition, transport, and erosion (e.g., Tanaka et al., Icarus, 196, 318, 2008), and evidence preserved in the mineralogy for aqueous alteration processes (e.g., Langevin et al., Science, 307, 1584, 2005). These low-albedo materials span the circumpolar plains of Vastitas Borealis north of about 75 deg. latitude, and extend down to about 30 deg. north in the Acidalia Planitia region (from about 15 to 45 deg. west) where they are the type locality for the Mars Global Surveyor Thermal Emission Spectrometer (MGS/TES) "Surface Type 2" global compositional endmember. We are assessing both the morphology and primary (mafic) and secondary mineralogy of north polar sand deposits using high spatial and spectral resolution data sets, working to test hypotheses for the formation and evolution of these materials throughout Martian history. Here we report on our initial mineralogic analyses of TES mid-IR spectra of these low albedo materials. Because of the relatively low surface temperatures at high northern latitudes on Mars, assembling a high-quality TES data set that covers a significant fraction of representative terrains is a challenge. Ultimately we were able to identify and assemble a data subset of more than 5000 TES emissivity spectra having temperatures above 250K and covering surface regions with bolometric albedo below 0.15 during times of relatively clear atmospheric conditions. These spectra cover only a few percent of the north polar low albedo deposits, but they provide representative sampling of many terrains. We are performing atmospheric corrections and deriving estimated mineral abundances for these spectra using an iterative linear matrix inversion spectral unmixing method (Noe Dobrea et al., JGR, 111, 2006) and laboratory-derived mineral endmembers from the publicly-available TES library. This method allows us to compute best-fit abundances for all possible endmember combinations within a user-defined library subset, and to estimate average abundances for each modeled mineral. Minerals not detected above a minimum detection threshold are discarded, which then allows us to converge on models with the most statistically accurate representation of the likely mineral assemblage. The best-fit models of our average polar sand deposit spectra (using 68 spectrally-unique endmembers chosen to represent a range of potential primary and secondary mineralogies relevant to Mars) included "expected" mafic minerals (olivine, pyroxene, feldspar) plus a silica-bearing amorphous phase. The best models also included minor amounts of other phases, however, like Mg-, Al-, and Fe-bearing sulfates and iron oxides. Our TES mid-IR results enhance and augment previous interpretations (Horgan et al., JGR, 114, 2009) of the composition and mineralogy of these regions from Mars Express/OMEGA near-IR imaging spectroscopic observations, allowing us to explore the processes and relationships between primary minerals and previously-identified secondary alteration products in the region like polyhydrated sulfates.
Bell Jon F.
Horgan B.
Noe Dobrea Eldar Z.
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