Evidence for Hesperian impact-induced hydrothermalism on Mars |
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Authors: | Giuseppe A Marzo Alfonso F Davila Livio L Tornabene Alberto G Fairén Thomas Kneissl Ted L Roush |
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Institution: | a NASA Ames Research Center, MS245-3, Moffett Field, CA 94035, USA b SETI Institute, 515 N. Whisman Rd., Mountain View, CA 94043, USA c Lunar and Planetary Laboratory, University of Arizona, Tucson, AZ 85721, USA d Department of Hydrology and Water Resources, University of Arizona, Tucson, AZ 85721, USA e Freie Universität Berlin, Institute of Geosciences, Planetary Sciences and Remote Sensing, Malteserstr. 74-100, 12249 Berlin, Germany |
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Abstract: | Several hydrated silicate deposits on Mars are observed within craters and are interpreted as excavated Noachian material. Toro crater (71.8°E, 17.0°N), located on the northern edge of the Syrtis Major Volcanic Plains, shows spectral and morphologic evidence of impact-induced hydrothermal activity. Spectroscopic observations were used to identify extensive hydrated silicate deposits, including prehnite, chlorites, smectites, and opaline material, a suite of phases that frequently results from hydrothermal alteration in terrestrial craters and also expected on Mars from geochemical modeling of hydrothermal environments. When combined with altimetry and high-resolution imaging data, these deposits appear associated predominantly with the central uplift and with portions of the northern part of the crater floor. Detailed geologic mapping of these deposits reveals geomorphic features that are consistent with hydrothermal activity that followed the impact event, including vent-like and conical mound structures, and a complex network of tectonic structures caused by fluid interactions such as fractures and joints. The crater age has been calculated from the cumulative crater size-frequency distributions and is found to be Early Hesperian. The evidence presented here provides support for impact-induced hydrothermal activity in Toro crater, that extends phyllosilicate formation processes beyond the Noachian era. |
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Keywords: | Mars Mars Surface Geological processes Impact processes Spectroscopy |
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