Literature DB >> 27298370

Silicic volcanism on Mars evidenced by tridymite in high-SiO2 sedimentary rock at Gale crater.

Richard V Morris1, David T Vaniman2, David F Blake3, Ralf Gellert4, Steve J Chipera5, Elizabeth B Rampe6, Douglas W Ming7, Shaunna M Morrison8, Robert T Downs8, Allan H Treiman9, Albert S Yen10, John P Grotzinger11, Cherie N Achilles8, Thomas F Bristow3, Joy A Crisp10, David J Des Marais3, Jack D Farmer12, Kim V Fendrich8, Jens Frydenvang13, Trevor G Graff14, John-Michael Morookian10, Edward M Stolper15, Susanne P Schwenzer16.   

Abstract

Tridymite, a low-pressure, high-temperature (>870 °C) SiO2 polymorph, was detected in a drill sample of laminated mudstone (Buckskin) at Marias Pass in Gale crater, Mars, by the Chemistry and Mineralogy X-ray diffraction instrument onboard the Mars Science Laboratory rover Curiosity The tridymitic mudstone has ∼40 wt.% crystalline and ∼60 wt.% X-ray amorphous material and a bulk composition with ∼74 wt.% SiO2 (Alpha Particle X-Ray Spectrometer analysis). Plagioclase (∼17 wt.% of bulk sample), tridymite (∼14 wt.%), sanidine (∼3 wt.%), cation-deficient magnetite (∼3 wt.%), cristobalite (∼2 wt.%), and anhydrite (∼1 wt.%) are the mudstone crystalline minerals. Amorphous material is silica-rich (∼39 wt.% opal-A and/or high-SiO2 glass and opal-CT), volatile-bearing (16 wt.% mixed cation sulfates, phosphates, and chlorides-perchlorates-chlorates), and has minor TiO2 and Fe2O3T oxides (∼5 wt.%). Rietveld refinement yielded a monoclinic structural model for a well-crystalline tridymite, consistent with high formation temperatures. Terrestrial tridymite is commonly associated with silicic volcanism, and detritus from such volcanism in a "Lake Gale" catchment environment can account for Buckskin's tridymite, cristobalite, feldspar, and any residual high-SiO2 glass. These cogenetic detrital phases are possibly sourced from the Gale crater wall/rim/central peak. Opaline silica could form during diagenesis from high-SiO2 glass, as amorphous precipitated silica, or as a residue of acidic leaching in the sediment source region or at Marias Pass. The amorphous mixed-cation salts and oxides and possibly the crystalline magnetite (otherwise detrital) are primary precipitates and/or their diagenesis products derived from multiple infiltrations of aqueous solutions having variable compositions, temperatures, and acidities. Anhydrite is post lithification fracture/vein fill.

Entities:  

Keywords:  Gale crater; Mars; lake; tridymite; volcanism

Year:  2016        PMID: 27298370      PMCID: PMC4932983          DOI: 10.1073/pnas.1607098113

Source DB:  PubMed          Journal:  Proc Natl Acad Sci U S A        ISSN: 0027-8424            Impact factor:   11.205


  7 in total

1.  Deposition, exhumation, and paleoclimate of an ancient lake deposit, Gale crater, Mars.

Authors:  J P Grotzinger; S Gupta; M C Malin; D M Rubin; J Schieber; K Siebach; D Y Sumner; K M Stack; A R Vasavada; R E Arvidson; F Calef; L Edgar; W F Fischer; J A Grant; J Griffes; L C Kah; M P Lamb; K W Lewis; N Mangold; M E Minitti; M Palucis; M Rice; R M E Williams; R A Yingst; D Blake; D Blaney; P Conrad; J Crisp; W E Dietrich; G Dromart; K S Edgett; R C Ewing; R Gellert; J A Hurowitz; G Kocurek; P Mahaffy; M J McBride; S M McLennan; M Mischna; D Ming; R Milliken; H Newsom; D Oehler; T J Parker; D Vaniman; R C Wiens; S A Wilson
Journal:  Science       Date:  2015-10-09       Impact factor: 47.728

2.  Evidence for magmatic evolution and diversity on Mars from infrared observations.

Authors:  P R Christensen; H Y McSween; J L Bandfield; S W Ruff; A D Rogers; V E Hamilton; N Gorelick; M B Wyatt; B M Jakosky; H H Kieffer; M C Malin; J E Moersch
Journal:  Nature       Date:  2005-07-28       Impact factor: 49.962

3.  X-ray diffraction results from Mars Science Laboratory: mineralogy of Rocknest at Gale crater.

Authors:  D L Bish; D F Blake; D T Vaniman; S J Chipera; R V Morris; D W Ming; A H Treiman; P Sarrazin; S M Morrison; R T Downs; C N Achilles; A S Yen; T F Bristow; J A Crisp; J M Morookian; J D Farmer; E B Rampe; E M Stolper; N Spanovich
Journal:  Science       Date:  2013-09-27       Impact factor: 47.728

4.  Cristobalite in volcanic ash of the soufriere hills volcano, montserrat, british west indies

Authors: 
Journal:  Science       Date:  1999-02-19       Impact factor: 47.728

5.  Mineralogy of a mudstone at Yellowknife Bay, Gale crater, Mars.

Authors:  D T Vaniman; D L Bish; D W Ming; T F Bristow; R V Morris; D F Blake; S J Chipera; S M Morrison; A H Treiman; E B Rampe; M Rice; C N Achilles; J P Grotzinger; S M McLennan; J Williams; J F Bell; H E Newsom; R T Downs; S Maurice; P Sarrazin; A S Yen; J M Morookian; J D Farmer; K Stack; R E Milliken; B L Ehlmann; D Y Sumner; G Berger; J A Crisp; J A Hurowitz; R Anderson; D J Des Marais; E M Stolper; K S Edgett; S Gupta; N Spanovich
Journal:  Science       Date:  2013-12-09       Impact factor: 47.728

6.  Reconstructing the transport history of pebbles on Mars.

Authors:  Tímea Szabó; Gábor Domokos; John P Grotzinger; Douglas J Jerolmack
Journal:  Nat Commun       Date:  2015-10-13       Impact factor: 14.919

7.  Mineralogy, provenance, and diagenesis of a potassic basaltic sandstone on Mars: CheMin X-ray diffraction of the Windjana sample (Kimberley area, Gale Crater).

Authors:  Allan H Treiman; David L Bish; David T Vaniman; Steve J Chipera; David F Blake; Doug W Ming; Richard V Morris; Thomas F Bristow; Shaunna M Morrison; Michael B Baker; Elizabeth B Rampe; Robert T Downs; Justin Filiberto; Allen F Glazner; Ralf Gellert; Lucy M Thompson; Mariek E Schmidt; Laetitia Le Deit; Roger C Wiens; Amy C McAdam; Cherie N Achilles; Kenneth S Edgett; Jack D Farmer; Kim V Fendrich; John P Grotzinger; Sanjeev Gupta; John Michael Morookian; Megan E Newcombe; Melissa S Rice; John G Spray; Edward M Stolper; Dawn Y Sumner; Ashwin R Vasavada; Albert S Yen
Journal:  J Geophys Res Planets       Date:  2016-01-29       Impact factor: 3.755
  7 in total
  15 in total

1.  Origin and composition of three heterolithic boulder- and cobble-bearing deposits overlying the Murray and Stimson formations, Gale Crater, Mars.

Authors:  Roger C Wiens; Kenneth S Edgett; Kathryn M Stack; William E Dietrich; Alexander B Bryk; Nicolas Mangold; Candice Bedford; Patrick Gasda; Alberto Fairen; Lucy Thompson; Jeff Johnson; Olivier Gasnault; Sam Clegg; Agnes Cousin; Olivier Forni; Jens Frydenvang; Nina Lanza; Sylvestre Maurice; Horton Newsom; Ann Ollila; Valerie Payré; Frances Rivera-Hernandez; Ashwin Vasavada
Journal:  Icarus       Date:  2020-06-06       Impact factor: 3.508

2.  Extraformational sediment recycling on Mars.

Authors:  Kenneth S Edgett; Steven G Banham; Kristen A Bennett; Lauren A Edgar; Christopher S Edwards; Alberto G Fairén; Christopher M Fedo; Deirdra M Fey; James B Garvin; John P Grotzinger; Sanjeev Gupta; Marie J Henderson; Christopher H House; Nicolas Mangold; Scott M McLennan; Horton E Newsom; Scott K Rowland; Kirsten L Siebach; Lucy Thompson; Scott J VanBommel; Roger C Wiens; Rebecca M E Williams; R Aileen Yingst
Journal:  Geosphere (Boulder)       Date:  2020-10-06       Impact factor: 3.298

3.  Amorphous salts formed from rapid dehydration of multicomponent chloride and ferric sulfate brines: Implications for Mars.

Authors:  Elizabeth C Sklute; A Deanne Rogers; Jason C Gregerson; Heidi B Jensen; Richard J Reeder; M Darby Dyar
Journal:  Icarus       Date:  2017-11-21       Impact factor: 3.508

Review 4.  The Specific Heat of Astro-materials: Review of Theoretical Concepts, Materials, and Techniques.

Authors:  Jens Biele; Matthias Grott; Michael E Zolensky; Artur Benisek; Edgar Dachs
Journal:  Int J Thermophys       Date:  2022-08-01       Impact factor: 2.416

Review 5.  Mission Overview and Scientific Contributions from the Mars Science Laboratory Curiosity Rover After Eight Years of Surface Operations.

Authors:  Ashwin R Vasavada
Journal:  Space Sci Rev       Date:  2022-04-05       Impact factor: 8.943

6.  The stratigraphy and evolution of lower Mount Sharp from spectral, morphological, and thermophysical orbital data sets.

Authors:  A A Fraeman; B L Ehlmann; R E Arvidson; C S Edwards; J P Grotzinger; R E Milliken; D P Quinn; M S Rice
Journal:  J Geophys Res Planets       Date:  2016-09-17       Impact factor: 3.755

7.  Determination of Geochemical Bio-Signatures in Mars-Like Basaltic Environments.

Authors:  Karen Olsson-Francis; Victoria K Pearson; Elisabeth D Steer; Susanne P Schwenzer
Journal:  Front Microbiol       Date:  2017-09-08       Impact factor: 5.640

8.  Chemistry, mineralogy, and grain properties at Namib and High dunes, Bagnold dune field, Gale crater, Mars: A synthesis of Curiosity rover observations.

Authors:  B L Ehlmann; K S Edgett; B Sutter; C N Achilles; M L Litvak; M G A Lapotre; R Sullivan; A A Fraeman; R E Arvidson; D F Blake; N T Bridges; P G Conrad; A Cousin; R T Downs; T S J Gabriel; R Gellert; V E Hamilton; C Hardgrove; J R Johnson; S Kuhn; P R Mahaffy; S Maurice; M McHenry; P-Y Meslin; D W Ming; M E Minitti; J M Morookian; R V Morris; C D O'Connell-Cooper; P C Pinet; S K Rowland; S Schröder; K L Siebach; N T Stein; L M Thompson; D T Vaniman; A R Vasavada; D F Wellington; R C Wiens; A S Yen
Journal:  J Geophys Res Planets       Date:  2017-12-07       Impact factor: 3.755

9.  Lack of Microbial Diversity in an Extreme Mars Analog Setting: Poás Volcano, Costa Rica.

Authors:  Brian M Hynek; Karyn L Rogers; Monique Antunovich; Geoffroy Avard; Guillermo E Alvarado
Journal:  Astrobiology       Date:  2018-04-24       Impact factor: 4.335

10.  Nitrate-Dependent Iron Oxidation: A Potential Mars Metabolism.

Authors:  Alex Price; Victoria K Pearson; Susanne P Schwenzer; Jennyfer Miot; Karen Olsson-Francis
Journal:  Front Microbiol       Date:  2018-03-20       Impact factor: 5.640
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