The stratigraphy and history of Mars' northern lowlands through mineralogy of impact craters: A comprehensive survey
Research output: Contribution to journal › Journal article › peer-review
The basin-filling materials of the northern lowlands, which cover approximately one third of Mars' surface, record the long-term evolution of Mars' geology and climate. The buried stratigraphy was inferred through analyses of impact crater mineralogy, detected using data acquired by the Compact Reconnaissance Imaging Spectrometer for Mars. Examining 1045 impact craters across the northern lowlands, we find widespread olivine and pyroxene and diverse hydrated/hydroxylated minerals, including Fe/Mg smectite, chlorite, prehnite, and hydrated silica. The distribution of mafic minerals is consistent with infilling volcanic materials across the entire lowlands (~1–4 × 107 km3), indicating a significant volume of volatile release by volcanic outgassing. Hydrated/hydroxylated minerals are detected more frequently in large craters, consistent with the scenario that the hydrated minerals are being excavated from deep basement rocks, beneath 1–2 km thick mafic lava flows or volcaniclastic materials. The prevalences of different types of hydrated minerals are similar to statistics from the southern highlands. No evidence of concentrated salt deposits has been found, which would indicate a long-lived global ocean. We also find significant geographical variations of local mineralogy and stratigraphy in different basins (geological provinces), independent of dust cover. For example, many hydrated and mafic minerals are newly discovered within the polar Scandia region (>60°N), and Chryse Planitia has more mafic mineral detections than other basins, possibly due to a previously unrecognized volcanic source.
Original language | English |
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Journal | Journal of Geophysical Research: Planets |
Volume | 122 |
Issue number | 9 |
Pages (from-to) | 1824-1854 |
Number of pages | 31 |
ISSN | 2169-9097 |
DOIs | |
Publication status | Published - Sep 2017 |
Externally published | Yes |
- Mars, northern lowlands, planetary geology, remote sensing, spectroscopy
Research areas
ID: 251602804