| Summary: | The geology of the north polar plateau, Planum Boreum, and the surrounding dune fields in the north polar region of Mars has been of interest to the Mars community, as the ice-rich and sedimentary deposits in and around Planum Boreum record the recent sedimentary and climatic history of Mars. The NRC Planetary Science Decadal Survey (2011) identifies the polar regions of Mars as high priority targets for investigation and recommends a north polar lander mission to sample ice cores on the north polar layered deposits (NPLD), to constrain the past climate and geologic processes. However, linking the geologic record at the north pole to the history of the climate will require quantitative age dating of the NPLD, which can only be applied to non-ice lithic materials. Thus, in this study we aim to answer a very important question, “Are datable materials present within the NPLD?”. This study was completed as a part of NASA’s Mars Data Analysis Program, and aims to assess the composition of lithic components within NPLD and thereby constrain the geologic processes actively contributing to its formation. Lithics in the NPLD have previously been hypothesised to be composed of airfall martian dust. In this study, we test the bulk composition of the layered deposits for the presence of other datable primary minerals deposited on the NPLD after formation in impact or volcanic events (e.g., pyroxenes, Fe-bearing glass, etc.), which if detected, will be useful in constraining the geological processes aiding ice and sediment accumulation on Planum Boreum. This study is carried out using hyperspectral CRISM MTRDR data products which are already corrected for atmospheric, photometric and instrumental effects. The analysis is performed using the ENVI software package in conjunction with the CRISM Analysis Toolkit. Spectral summary parameters are used to to qualitatively measure the shape of the spectra to detect various Fe-absorption indicative of primary mafic minerals. These summary parameters are used to generate RGB composite ...
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