期刊
GEOPHYSICAL RESEARCH LETTERS
卷 48, 期 5, 页码 -出版社
AMER GEOPHYSICAL UNION
DOI: 10.1029/2020GL091551
关键词
clay minerals; climate; Mars; mineralogy; weathering
资金
- Research Grants Council General Research Fund [17301718]
Compositional stratigraphy on Mars often shows Al-rich clay minerals overlaying Fe/Mg-rich clay minerals, with some occurrences in settings where the protoliths are likely pyroclastic materials. The presence of clay-bearing deposits in volcanic areas suggests precipitation-driven weathering of ash deposits. The early sedimentary record of Mars may have been dominated by pyroclastic deposits, linking clay minerals to elements of Mars' climate, weathering, and sedimentary processes.
Compositional stratigraphy, generally composed of Al-rich clay minerals overlying Fe/Mg-rich clay minerals, is observed in many locations on Mars. Here we describe the occurrence of such mineralogical stratigraphy in settings where the protoliths are almost certainly pyroclastic materials. One such example includes altered rocks high on the summit and flanks of explosive volcanoes in Thaumasia Planum. These clay-bearing deposits are most consistent with precipitation-driven weathering of ash deposits. Considering explosive volcanism was pervasive in the Noachian, the early sedimentary record of Mars in some locations is likely dominated by glassy, fragmented, porous, chemically reactive materials with highly specific surface area. These pyroclastic deposits were potentially a critical geological component linking clay minerals to elements of Mars' climate, weathering, and sedimentary puzzle.
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