2024
DOI: 10.1029/2023je008155
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Depositional and Diagenetic Sulfates of Hogwallow Flats and Yori Pass, Jezero Crater: Evaluating Preservation Potential of Environmental Indicators and Possible Biosignatures From Past Martian Surface Waters and Groundwaters

Kathleen C. Benison,
Karena K. Gill,
Sunanda Sharma
et al.

Abstract: The Mars 2020 Perseverance rover has examined and sampled sulfate‐rich clastic rocks from the Hogwallow Flats member at Hawksbill Gap and the Yori Pass member at Cape Nukshak. Both strata are located on the Jezero crater western fan front, are lithologically and stratigraphically similar, and have been assigned to the Shenandoah formation. In situ analyses demonstrate that these are fine‐grained sandstones composed of phyllosilicates, hematite, Ca‐sulfates, Fe‐Mg‐sulfates, ferric sulfates, and possibly chlorid… Show more

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Cited by 7 publications
(2 citation statements)
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“…Another possibility is that the Ca-sulfates in the upper fan were formed from the same Ca-, Mg-, and sulfatecontaining fluid that flowed across the fan front and crater floor but the Mg-sulfates in the upper fan were formed in a distinct event(s). This is based on the textural observations that Ca-sulfates in both the upper fan and fan front are often observed in mm-sized white veins, crystals or patches which are interpreted as late-stage diagenetic features (Benison et al, 2024) but the hydrated Mg-sulfates in the upper fan do not necessarily show clear textural associations (Table 3). This is unlike the hydrated Mg-sulfates in the crater floor which are localized to visible white crystals or patches rimmed by carbonates (Corpolongo et al, 2023;Siljeström et al, 2024;Wogsland et al, 2023), interpreted to have been precipitated by sulfate-containing fluids filling the voids (Tice et al, 2022).…”
Section: Environmental Implicationsmentioning
confidence: 99%
See 1 more Smart Citation
“…Another possibility is that the Ca-sulfates in the upper fan were formed from the same Ca-, Mg-, and sulfatecontaining fluid that flowed across the fan front and crater floor but the Mg-sulfates in the upper fan were formed in a distinct event(s). This is based on the textural observations that Ca-sulfates in both the upper fan and fan front are often observed in mm-sized white veins, crystals or patches which are interpreted as late-stage diagenetic features (Benison et al, 2024) but the hydrated Mg-sulfates in the upper fan do not necessarily show clear textural associations (Table 3). This is unlike the hydrated Mg-sulfates in the crater floor which are localized to visible white crystals or patches rimmed by carbonates (Corpolongo et al, 2023;Siljeström et al, 2024;Wogsland et al, 2023), interpreted to have been precipitated by sulfate-containing fluids filling the voids (Tice et al, 2022).…”
Section: Environmental Implicationsmentioning
confidence: 99%
“…These alteration minerals suggest that the western fan is composed of materials that experienced aqueous alteration by fluid with near-neutral pH in the source region and/or depositional environment. Image observations from the WATSON and ACI cameras on the rover indicate that the Shenandoah formation is a sedimentary unit dominated by sandstone, with siltstone grain sizes observed only in the abraded target Uganik Island (Benison et al, 2024;Stack et al, 2024; Figure 2).…”
Section: Western Fan Front Shenandoah Formationmentioning
confidence: 99%