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23 results on '"Peretyazhko, Tanya"'

3. Gypsum on Mars: A Detailed View at Gale Crater.

Author

Vaniman, David, Chipera, Steve, Rampe, Elizabeth, Bristow, Thomas, Blake, David, Meusburger, Johannes, Peretyazhko, Tanya, Rapin, William, Berger, Jeff, Ming, Douglas, Craig, Patricia, Castle, Nicholas, Downs, Robert T., Morrison, Shaunna, Hazen, Robert, Morris, Richard, Pandey, Aditi, Treiman, Allan H., Yen, Albert, and Achilles, Cherie

Subjects
GALE Crater (Mars), SULFATE minerals, MARTIAN craters, ANTARCTIC ice, JAROSITE, SAND dunes
Abstract

Gypsum is a common mineral at Gale crater on Mars, currently being explored by the Mars Science Laboratory (MSL) rover, Curiosity. In this paper, we summarize the associations of gypsum with other sulfate minerals (bassanite, anhydrite, jarosite, starkeyite, and kieserite) from the lowest levels of the crater's northern moat zone (Aeolis Palus) up through ~0.8 km of the stratigraphic section in the lower slopes of the sedimentary mound developed around the central peak, Aeolis Mons (informally, Mount Sharp). The analysis is based on results from the CheMin X-ray diffraction instrument on Curiosity, supplemented with information from the rover's versatile instrument suite. Gypsum does not occur with the same frequency as less hydrous Ca-sulfates, likely, in most cases, because of its dehydration to bassanite and possibly to anhydrite. All three of these Ca-sulfate phases often occur together and, along with other sulfates, in mixed assemblages that are evidence of limited equilibration on a cold, dry planet. In almost all samples, at least one of the Ca-sulfate minerals is present, except for a very limited interval where jarosite is the major sulfate mineral, with the implication of more acidic groundwater at a much later time in Gale crater's history. Although observations from orbit reveal a sulfate-rich surface, currently active dark basaltic dunes at Gale crater have only small amounts of a single sulfate mineral, anhydrite. Gale crater has provided the most complete mineralogical analysis of a site on Mars so far, but the data in hand show that Gale crater mineralogy is not a blueprint with planet-wide application. The concurrent study of Jezero crater by the Mars 2020 mission and comparisons to what is believed to be the most extensive deposit of gypsum on Mars, in the dune fields at the north polar ice cap, show significant diversity. Unraveling the stories of gypsum and other sulfates on Mars is just beginning. [ABSTRACT FROM AUTHOR]

Published
2024
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4. The Chemistry and Mineralogy (CheMin) X-ray Diffractometer on the MSL Curiosity Rover: A Decade of Mineralogy from Gale Crater, Mars.

Author

Blake, David, Tu, Valerie, Bristow, Thomas, Rampe, Elizabeth, Vaniman, David, Chipera, Steve, Sarrazin, Philippe, Morris, Richard, Morrison, Shaunna, Yen, Albert, Downs, Robert, Hazen, Robert, Treiman, Allan, Ming, Douglas, Downs, Gordon, Achilles, Cherie, Castle, Nicholas, Peretyazhko, Tanya, De Marais, David, and Craig, Patricia

Subjects
GALE Crater (Mars), MARS rovers, X-ray diffractometers, SEDIMENTARY rocks, SCIENTIFIC apparatus & instruments
Abstract

For more than a decade, the CheMin X-ray diffraction instrument on the Mars Science Laboratory rover, Curiosity, has been returning definitive and quantitative mineralogical and mineral–chemistry data from ~3.5-billion-year-old (Ga) sediments in Gale crater, Mars. To date, 40 drilled rock samples and three scooped soil samples have been analyzed during the rover's 30+ km transit. These samples document the mineralogy of over 800 m of flat-lying fluvial, lacustrine, and aeolian sedimentary rocks that comprise the lower strata of the central mound of Gale crater (Aeolis Mons, informally known as Mt. Sharp) and the surrounding plains (Aeolis Palus, informally known as the Bradbury Rise). The principal mineralogy of the sedimentary rocks is of basaltic composition, with evidence of post-depositional diagenetic overprinting. The rocks in many cases preserve much of their primary mineralogy and sedimentary features, suggesting that they were never strongly heated or deformed. Using aeolian soil composition as a proxy for the composition of the deposited and lithified sediment, it appears that, in many cases, the diagenetic changes observed are principally isochemical. Exceptions to this trend include secondary nodules, calcium sulfate veining, and rare Si-rich alteration halos. A surprising and yet poorly understood observation is that nearly all of the ~3.5 Ga sedimentary rocks analyzed to date contain 15–70 wt.% of X-ray amorphous material. Overall, this >800 m section of sedimentary rock explored in lower Mt. Sharp documents a perennial shallow lake environment grading upward into alternating lacustrine/fluvial and aeolian environments, many of which would have been habitable to microbial life. [ABSTRACT FROM AUTHOR]

Published
2024
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5. Manganese-Iron Phosphate Nodules at the Groken Site, Gale Crater, Mars

Author

Treiman, Allan H., primary, Lanza, Nina L., additional, VanBommel, Scott, additional, Berger, Jeff, additional, Wiens, Roger, additional, Bristow, Thomas, additional, Johnson, Jeffrey, additional, Rice, Melissa, additional, Hart, Reginald, additional, McAdam, Amy, additional, Gasda, Patrick, additional, Meslin, Pierre-Yves, additional, Yen, Albert, additional, Williams, Amy J., additional, Vasavada, Ashwin, additional, Vaniman, David, additional, Tu, Valerie, additional, Thorpe, Michael, additional, Swanner, Elizabeth D., additional, Seeger, Christina, additional, Schwenzer, Susanne P., additional, Schröder, Susanne, additional, Rampe, Elizabeth, additional, Rapin, William, additional, Ralston, Silas J., additional, Peretyazhko, Tanya, additional, Newsom, Horton, additional, Morris, Richard V., additional, Ming, Douglas, additional, Loche, Matteo, additional, Le Mouélic, Stéphane, additional, House, Christopher, additional, Hazen, Robert, additional, Grotzinger, John P., additional, Gellert, Ralf, additional, Gasnault, Olivier, additional, Fischer, Woodward W., additional, Essunfeld, Ari, additional, Downs, Robert T., additional, Downs, Gordon W., additional, Dehouck, Erwin, additional, Crossey, Laura J., additional, Cousin, Agnes, additional, Comellas, Jade M., additional, Clark, Joanna V., additional, Clark, Benton, additional, Chipera, Steve, additional, Caravaca, Gwenaël, additional, Bridges, John, additional, Blake, David F., additional, and Anderson, Ryan, additional

Published
2023
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7. X-ray Amorphous and Poorly Crystalline Fe-Containing Phases in Terrestrial Field Environments and Implications for Materials Detected on Mars

Author

Feldman, A. D, Hausrath, E. M, Tschauner, O, Burnley, P, Lanzirotti, A, Rampe, Elizabeth B, Peretyazhko, Tanya, Calvin, W, Azua, B, and Adcock, C. T

Subjects
Lunar And Planetary Science And Exploration
Abstract

Recent analyses of X-ray diffraction (XRD) data from the CheMin instrument using the FULLPAT program have documented the presence of X-ray amorphous materials at multiple sites within Gale Crater, Mars. These materials are believed to be to be iron-rich based on chemical data, and at least some of them are believed to be weathering products based on volatile contents. However, the characteristics of these proposed Fe-rich weathering products remain poorly understood. To better understand these X-ray amorphous materials on Mars, we are 1) examining weathering products formed on Fe-rich parent material in terrestrial soils across a range of climatic conditions, and 2) performing burial experiments of Fe- and Mg- rich olivine in these soils. We describe each of these approaches below.

Published
2019

9. An Experimental Flow-Through Assessment of Acidic Fe/Mg Smectite Formation on Early Mars

Author

Sutter, Brad, Peretyazhko, Tanya, Garcia, Angela H, and Ming, Douglas W

Subjects
Lunar And Planetary Science And Exploration
Abstract

Orbital observations have detected the phyllosilicate smectite in layered material hundreds of meters thick, intracrater depositional fans, and plains sediments on Mars; however, the detection of carbonate deposits is limited. Instead of neutral/alkaline conditions during the Noachian, early Mars may have experienced mildly acidic conditions derived from volcanic acid-sulfate solutions that allowed Fe/Mg smectite formation but prevented widespread carbonate formation. The detection of acid sulfates (e.g., jarosite) associated with smectite in Mawrth Vallis supports this hypothesis. Previous work demonstrated smectite (saponite) formation in closed hydrologic systems (batch reactor) from basaltic glass at pH 4 and 200°C (Peretyazhko et al., 2016 GCA). This work presents results from alteration of basaltic glass from alkaline to acidic conditions in open hydrologic systems (flow-through reactor). Preliminary experiments exposed basaltic glass to deionized water at 190°C at 0.25 ml/min where solution pH equilibrated to 9.5. These initial high pH experiments were conducted to evaluate the flow-through reactor system before working with lower pHs. Smectite at this pH was not produced and instead X-ray diffraction results consistent with serpentine was detected. Experiments are in progress exposing basaltic glass from pH 8 down to pH 3 to determine what range of pHs could allow for smectite formation in this experimental opensystem. The production of smectite under an experimental open-system at low pHs if successful, would support a significant paradigm shift regarding the geochemical evolution of early Mars: Early Mars geochemical solutions were mildly acidic, not neutral/alkaline. This could have profound implications regarding early martain microbiology where acid conditions instead of neutral/alkaline conditions will require further research in terrestrial analogs to address the potential for biosignature preservation on Mars.

Published
2017

10. Investigating Weathering of Basaltic Materials in Gale Crater, Mars: A Combined Laboratory, Modeling and Terrestrial Field Approach

Author

Hausrath, Elisabeth, Ralston, Stephanie J, Bamisile, Toluwalope, Ming, Douglas, Peretyazhko, Tanya, Rampe, Elizabeth, and Gainey, Seth

Subjects
Lunar And Planetary Science And Exploration
Abstract

Recent observations from Gale Crater, Mars document past aqueous alteration both in the formation of the Stimson sandstone unit, as well as in the formation of altered fractures within that unit. Geochemical and mineralogical data from Curiosity also suggest Fe-rich amorphous weathering products are present in most samples measured to date. Here we interpret conditions of possible past weathering in Gale Crater using a combination of field, laboratory, and modeling work. In order to better understand secondary Fe-rich phases on Mars, we are examining formation of weathering products in high Fe and Mg and low Al serpentine soils in the Klamath Mountains, CA. We have isolated potential weathering products from these soils, and are analyzing them using synchrotron μXRF and μXRD as well as FullPat for a direct comparison to analyses from Gale Crater. In order to interpret the implications of the persistence of potential secondary Fe-containing phases on Mars, we are also measuring the dissolution rates of the secondary weathering products allophane, Fe-rich allophane, and hisingerite. Ongoing dissolution experiments of these materials suggest that they dissolve significantly more rapidly than more crystalline secondary minerals with similar chemical compositions. Finally, to quantify the specific conditions of past aqueous alteration in Gale Crater we are performing reactive transport modeling of a range of possible past environmental conditions. Specifically, we are testing the conditions under which a Stimson unit-like material forms from a parent material similar to Rocknest or Bagnold eolian deposits, and the conditions under which observed altered fracture zones form from a Stimson unit-like parent material. Our modeling results indicate that the formation of the Stimson unit is consistent with leaching of an eolian deposit with a solution of pH = 6-8, and that formation of the altered fracture zones is consistent with leaching with a very acidic (pH = 2-3) high sulfate solution containing Ca. These results suggest circumneutral pH conditions during authigenesis or early diagenesis in the Stimson formation sediments followed by diagenetic alteration by very acidic solutions along fracture zones.

Published
2017

12. Recent Mineralogical Discoveries in Gale Crater, Mars from the CheMin XRD Instrument, Demonstrating a Watery Past.

Author

Tu, Valerie, primary, Rampe, Elizabeth, additional, Bristow, Thomas, additional, Thorpe, Michael, additional, Blake, David, additional, Vaniman, David, additional, Morris, Richard, additional, Ming, Douglas, additional, Yen, Albert, additional, Achilles, Cherie, additional, Castle, Nicholas, additional, Morrison, Shaunna, additional, Downs, Gordon, additional, Downs, Robert, additional, Craig, Patricia, additional, Des Marais, David, additional, Treiman, Allan, additional, Chipera, Steve, additional, Peretyazhko, Tanya, additional, Simpson, Sarah, additional, and Wilson, Michael, additional

Published
2022
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13. A Review of the Phyllosilicates in Gale Crater as Detected by the CheMin Instrument on the Mars Science Laboratory, Curiosity Rover

Author

Tu, Valerie M., primary, Rampe, Elizabeth B., additional, Bristow, Thomas F., additional, Thorpe, Michael T., additional, Clark, Joanna V., additional, Castle, Nicholas, additional, Fraeman, Abigail A., additional, Edgar, Lauren A., additional, McAdam, Amy, additional, Bedford, Candice, additional, Achilles, Cherie N., additional, Blake, David, additional, Chipera, Steve J., additional, Craig, Patricia I., additional, Des Marais, David J., additional, Downs, Gordon W., additional, Downs, Robert T., additional, Fox, Valerie, additional, Grotzinger, John P., additional, Hazen, Robert M., additional, Ming, Douglas W., additional, Morris, Richard V., additional, Morrison, Shaunna M., additional, Pavri, Betina, additional, Eigenbrode, Jennifer, additional, Peretyazhko, Tanya S., additional, Sarrazin, Philippe C., additional, Sutter, Brad, additional, Treiman, Allan H., additional, Vaniman, David T., additional, Vasavada, Ashwin R., additional, Yen, Albert S., additional, and Bridges, John C., additional

Published
2021
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15. Aqueous Alteration of Endeavour Crater Rim Apron Rocks

Author

Mittlefehldt, David W, Ming, Douglas W, Gellert, Ralf, Clark, Benton C, Morris, Richard V, Yen, Albert S, Arvidson, Raymond E, Crumpler, Larry S, Farrand, William H, Grant, John A, Jolliff, Bradley L, Parker, Timothy J, and Peretyazhko, Tanya

Subjects
Lunar And Planetary Science And Exploration
Abstract

Mars Exploration Rover Opportunity is exploring Noachian age rocks of the rim of 22 km diameter Endeavour crater. Overlying the pre-impact lithologies and rim breccias is a thin apron of fine-grained sediments, the Grasberg fm, forming annuli on the lower slopes of rim segments. Hesperian Burns fm sandstones overly the Grasberg fm. Grasberg rocks have major element compositions that are distinct from Burns fm sandstones, especially when comparing interior compositions exposed by the Rock Abrasion Tool. Grasberg rocks are also different from Endeavour rim breccias, but have general compositional similarities to them. Grasberg sediments are plausibly fine-grained materials derived from the impact breccias. Veins of CaSO4 transect Grasberg fm rocks demonstrating post-formation aqueous alteration. Minor/trace elements show variations consistent with mobilization by aqueous fluids. Grasberg fm rocks have low Mn and high Fe/Mn ratios compared to the other lithologies. Manganese likely was mobilized and removed from the Grasberg host rock by redox reactions. We posit that Fe2+ from acidic solutions associated with formation of the Burns sulfate-rich sandstones acted as an electron donor to reduce more oxidized Mn to Mn2+. The Fe contents of Grasberg rocks are slightly higher than in other rocks suggesting precipitation of Fe phases in Grasberg materials. Pancam spectra show that Grasberg rocks have a higher fraction of ferric oxide minerals than other Endeavour rim rocks. Solutions transported Mn2+ into the Endeavour rim materials and oxidized and/or precipitated it in them. Grasberg has higher contents of the mobile elements K, Zn, Cl, and Br compared to the rim materials. Similar enrichments of mobile elements were measured by the Spirit APXS on West Spur and around Home Plate in Gusev crater. Enhancements in these elements are attributed to interactions of hydrothermal acidic fluids with the host rocks. Interactions of fluids with the Grasberg fm postdate the genesis of the Endeavour rim phyllosilicates. The aqueous alteration history of Endeavour rim rocks is complicated by different styles of alteration that have spanned the Noachian and Hesperian. Late stage acidic aqueous alteration of Grasberg fm materials is likely penecontemporaneous with the diagenesis of the sulfate-rich sediments of Meridiani Planum.

Published
2014

16. Alteration of Basaltic Glass to Mg/Fe-Smectite under Acidic Conditions: A Potential Smectite Formation Mechanism on Mars

Author

Peretyazhko, Tanya, Sutter, Brad, and Ming, Douglas W

Subjects
Space Sciences (General)
Abstract

Phyllosilicates of the smectite group including Mg- and Fe-saponite and Fe(III)-rich nontronite have been identified on Mars. Smectites are believed to be formed under neutral to alkaline conditions that prevailed on early Mars. This hypothesis is supported by the observation of smectite and carbonate deposits in Noachian terrain on Mars. However, smectite may have formed under mildly acidic conditions. Abundant smectite formations have been detected as layered deposits hundreds of meters thick in intracrater depositional fans and plains sediments, while no large deposits of carbonates are found. Development of mildly acidic conditions at early Mars might allow formation of smectite but inhibit widespread carbonate precipitation. Little is known regarding the mechanisms of smectite formation from basaltic glass under acidic conditions. The objective of this study was to test a hypothesis that Mars-analogue basaltic glass alters to smectite minerals under acidic conditions (pH 4). The effects of Mg and Fe concentrations and temperature on smectite formation from basaltic glass were evaluated. Phyllosilicate synthesis was performed in batch reactors (Parr acid digestion vessel) under reducing hydrothermal conditions at 200 C and 100 C. Synthetic basaltic glass with a composition similar to that of the Gusev crater rock Adirondack (Ground surface APXS measurement) was used in these experiments. Basaltic glass was prepared by melting and quenching procedures. X-ray diffraction (XRD) analysis indicated that the synthesized glass was composed of olivine, magnetite and X-ray amorphous phase. Samples were prepared by mixing 250 mg Adirondack with 0.1 M acetic acid (final pH 4). In order to study influence of Mg concentration on smectite formation, experiments were performed with addition of 0, 1 and 10 mM MgCl2. After 1, 7 and 14 day incubations the solution composition was analyzed by Inductively Coupled Plasma Mass Spectrometry (ICP-MS) and the altered glass and formed phyllosilicates were examined by XRD analysis. Mineralogical changes were significant in Adirondack incubated with 10 mM MgCl2 at pH 4 and heated at 200 C. X-ray diffraction analysis revealed formation of phyllosilicate during 14 day incubation (Figure 1). Smectite was confirmed as the phyllosilicate after treatments with glycerol and KCl and heating to 550 C. The position of 02l (4.60 A) and 060 (1.54 A) diffraction bands were indicative of trioctahedral smectite such as saponite. Analysis of solution composition demonstrated that aqueous concentration of Mg decreased from 10 mM to approx.4 mM after 7 day incubation likely due to saponite formation. Smectite also formed in Adirondack incubated with 0 mM MgCl2 at pH 4 and heated at 200 C. However, diffraction peak positions of 02l (4.52 A) and 060 (1.51 A) suggested formation of dioctahedral nontronite. The 100degC Mg and Fe(II) treated basaltic glass experiments are ongoing and results will be presented.

Published
2014

23. Manganese-Iron Phosphate Nodules at the Groken Site, Gale Crater, Mars

Author

Treiman, Allan H., Lanza, Nina L., VanBommel, Scott, Berger, Jeff, Wiens, Roger, Bristow, Thomas, Johnson, Jeffrey, Rice, Melissa, Hart, Reginald, McAdam, Amy, Gasda, Patrick, Meslin, Pierre-Yves, Yen, Albert, Williams, Amy J., Vasavada, Ashwin, Vaniman, David, Tu, Valerie, Thorpe, Michael, Swanner, Elizabeth D., Seeger, Christina, Schwenzer, Susanne P., Schröder, Susanne, Rampe, Elizabeth, Rapin, William, Ralston, Silas J., Peretyazhko, Tanya, Newsom, Horton, Morris, Richard V., Ming, Douglas, Loche, Matteo, Le Mouélic, Stéphane, House, Christopher, Hazen, Robert, Grotzinger, John P., Gellert, Ralf, Gasnault, Olivier, Fischer, Woodward W., Essunfeld, Ari, Downs, Robert T., Downs, Gordon W., Dehouck, Erwin, Crossey, Laura J., Cousin, Agnes, Comellas, Jade M., Clark, Joanna V., Clark, Benton, Chipera, Steve, Caravaca, Gwenaël, Bridges, John, Blake, David F., Anderson, Ryan, Treiman, Allan H., Lanza, Nina L., VanBommel, Scott, Berger, Jeff, Wiens, Roger, Bristow, Thomas, Johnson, Jeffrey, Rice, Melissa, Hart, Reginald, McAdam, Amy, Gasda, Patrick, Meslin, Pierre-Yves, Yen, Albert, Williams, Amy J., Vasavada, Ashwin, Vaniman, David, Tu, Valerie, Thorpe, Michael, Swanner, Elizabeth D., Seeger, Christina, Schwenzer, Susanne P., Schröder, Susanne, Rampe, Elizabeth, Rapin, William, Ralston, Silas J., Peretyazhko, Tanya, Newsom, Horton, Morris, Richard V., Ming, Douglas, Loche, Matteo, Le Mouélic, Stéphane, House, Christopher, Hazen, Robert, Grotzinger, John P., Gellert, Ralf, Gasnault, Olivier, Fischer, Woodward W., Essunfeld, Ari, Downs, Robert T., Downs, Gordon W., Dehouck, Erwin, Crossey, Laura J., Cousin, Agnes, Comellas, Jade M., Clark, Joanna V., Clark, Benton, Chipera, Steve, Caravaca, Gwenaël, Bridges, John, Blake, David F., and Anderson, Ryan

Abstract

The MSL Curiosity rover investigated dark, Mn-P-enriched nodules in shallow lacustrine/fluvial sediments at the Groken site in Glen Torridon, Gale Crater, Mars. Applying all relevant information from the rover, the nodules are interpreted as pseudomorphs after original crystals of vivianite, (Fe2+,Mn2+)3(PO4)2·8H2O, that cemented the sediment soon after deposition. The nodules appear to have flat faces and linear boundaries and stand above the surrounding siltstone. ChemCam LIBS (laser-induced breakdown spectrometry) shows that the nodules have MnO abundances approximately twenty times those of the surrounding siltstone matrix, contain little CaO, and have SiO2 and Al2O3 abundances similar to those of the siltstone. A deconvolution of APXS analyses of nodule-bearing targets, interpreted here as representing the nodules’ non-silicate components, shows high concentrations of MnO, P2O5, and FeO and a molar ratio P/Mn = 2. Visible to near-infrared reflectance of the nodules (by ChemCam passive and Mastcam multispectral) is dark and relatively flat, consistent with a mixture of host siltstone, hematite, and a dark spectrally bland material (like pyrolusite, MnO2). A drill sample at the site is shown to contain minimal nodule material, implying that analyses by the CheMin and SAM instruments do not constrain the nodules’ mineralogy or composition. The fact that the nodules contain P and Mn in a small molar integer ratio, P/Mn = 2, suggests that the nodules contained a stoichiometric Mn-phosphate mineral, in which Fe did (i.e., could) not substitute for Mn. The most likely such minerals are laueite and strunzite, (Fe2+,Mn2+)3(PO4)2·8H2O and –6H2O, respectively, which occur on Earth as alteration products of other Mn-bearing phosphates including vivianite. Vivianite is

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