Nt. Bridges et al., Characteristics of the Pathfinder APXS sites: Implications for the composition of Martian rocks and soils, J GEO R-PLA, 106(E7), 2001, pp. 14621-14665
An integrated study of spectral, elemental abundance, and image data from t
he Pathfinder alpha proton X-ray spectrometer (APXS) measurement sites has
led to a better understanding of the nature of Martian surface materials. T
his rigorous analysis provides a new level of detail that forms the basis f
or the results reported here and that can be used by future scientists tryi
ng to understand rocks and soils on Mars. Each APXS site has been precisely
located by analyzing stereo Imager for Mars Pathfinder (IMP) and rover cam
era images to determine the position of the APXS during deployment. Rover a
nd IMP images are used to assess local geology, namely, the presence of peb
bles, clods, and aeolian features in soils and surface textures and dust co
ncentrations on rocks. IMP spectra using the latest calibrations for radian
ce and reflectance are analyzed at a number of different illumination geome
tries for each APXS site. The three-dimensional orientation of the sites ha
s been determined and then used to compute the true sunlight (incidence) an
d viewing (emission) angles. Where suitable photometric coverage is availab
le, reflectances are fit to the Hapke-Irvine function. This is then used to
adjust spectral reflectances to a normalized illumination geometry common
to all rocks and soils. Comparing all the data sets shows a positive correl
ation among red/blue reflectance ratio, SO, content, and dust abundance on
rocks, indicating that rocks are coated with varying amounts of sulfur-rich
, red dust. Other elements, such as silicon and iron, are poor tracers for
dust because their abundances within soil are similar to those within rock.
Rock APXS targets that are bluer, poorer in sulfur, and have minimal dust
coverage face toward the northeast, the direction in which winds may be cap
able of efficiently removing loose material under current Martian condition
s. The IMP spectral properties of the soils show poor correlations with APX
S elemental abundances. On the basis of currently released APXS data, bulk
soils at the Pathfinder landing site are richer in silica and sulfur than t
he Viking landing sites, suggesting a different composition. The APXS soils
with the most apparent pebbles are the poorest in SiO2, indicating that ei
ther the pebbles are more mafic than the APXS rocks or the pebble-free soil
component is inherently enriched in SiO2 compared to Viking soils. The mix
ture of materials at the APXS sites is a reflection of the overall complexi
ty of Martian surface materials, a detailed understanding of which should d
rive the choice of future instruments and missions.