Your search keyword '"Adrian J. Brown"' showing total 2 results

1. Visible–Near Infrared Point Spectrometry of Drill Core Samples from Río Tinto, Spain: Results from the 2005 Mars Astrobiology Research and Technology Experiment (MARTE) Drilling Exercise.

Author

Brad Sutter, Adrian J. Brown, and Carol R. Stoker

Subjects

*SPECTROMETRY, *SPACE biology, *MOLDING materials, *SPECTRUM analysis

Abstract

AbstractSampling of subsurface rock may be required to detect evidence of past biological activity on Mars. The Mars Astrobiology Research and Technology Experiment (MARTE) utilized the Río Tinto region, Spain, as a Mars analog site to test dry drilling technologies specific to Mars that retrieve subsurface rock for biological analysis. This work examines the usefulness of visible–near infrared (VNIR) (450–1000 nm) point spectrometry to characterize ferric iron minerals in core material retrieved during a simulated Mars drilling mission. VNIR spectrometry can indicate the presence of aqueously precipitated ferric iron minerals and, thus, determine whether biological analysis of retrieved rock is warranted. Core spectra obtained during the mission with T1 (893–897 nm) and T2 (644–652 nm) features indicate goethite-dominated samples, while relatively lower wavelength T1 (832–880 nm) features indicate hematite. Hematite/goethite molar ratios varied from 0 to 1.4, and within the 880–898 nm range, T1 features were used to estimate hematite/goethite molar ratios. Post-mission X-ray analysis detected phyllosilicates, which indicates that examining beyond the VNIR (e.g., shortwave infrared, 1000–2500 nm) will enhance the detection of other minerals formed by aqueous processes. Despite the limited spectral range of VNIR point spectrometry utilized in the MARTE Mars drilling simulation project, ferric iron minerals could be identified in retrieved core material, and their distribution served to direct core subsampling for biological analysis. Astrobiology 8, 1049–1060. [ABSTRACT FROM AUTHOR]

Published

2008

2. The MARTE VNIR Imaging Spectrometer Experiment: Design and Analysis.

Author

Adrian J. Brown, Brad Sutter, and Stephen Dunagan

Subjects

*SPECTRUM analysis instruments, *OXIDE minerals, *IRON ores, *SPACE biology

Abstract

AbstractWe report on the design, operation, and data analysis methods employed on the VNIR imaging spectrometer instrument that was part of the Mars Astrobiology Research and Technology Experiment (MARTE). The imaging spectrometer is a hyperspectral scanning pushbroom device sensitive to VNIR wavelengths from 400–1000 nm. During the MARTE project, the spectrometer was deployed to the Río Tinto region of Spain. We analyzed subsets of three cores from Río Tinto using a new band modeling technique. We found most of the MARTE drill cores to contain predominantly goethite, though spatially coherent areas of hematite were identified in Core 23. We also distinguished non Fe-bearing minerals that were subsequently analyzed by X-ray diffraction (XRD) and found to be primarily muscovite. We present drill core maps that include spectra of goethite, hematite, and non Fe-bearing minerals. Astrobiology 8, 1001–1011. [ABSTRACT FROM AUTHOR]

Published

2008