Overview of the Opportunity Mars Exploration Rover Mission to Meridiani Planum: Eagle Crater to Purgatory Ripple

S. W. Squyres; R. E. Arvidson; D. Bollen; James F. Bell; J. Brückner; N. A. Cabrol; W. M. Calvin; M. H. Carr; Philip R. Christensen; B. C. Clark; L. Crumpler; D. J. Des Marais; C. d'Uston; T. Economou; J. Farmer; W. H. Farrand; W. Folkner; R. Gellert; Timothy D. Glotch; Matthew P. Golombek; S. Gorevan; J. A. Grant; R. Greeley; J. Grotzinger; K. E. Herkenhoff; S. Hviid; Jeffrey R. Johnson; G. Klingelhöfer; A. H. Knoll; G. Landis; Mark T. Lemmon; R. Li; M. B. Madsen; M. C. Malin; S. M. McLennan; H. Y. McSween; D. W. Ming; J. Moersch; R. V. Morris; T. Parker; Jr W. Rice; L. Richter; R. Rieder; C. Schröder; M. Sims; M. Smith; P. Smith; L. A. Soderblom; R. J. Sullivan; N. J. Tosca; H. Wänke; T. Wdowiak; Michael J. Wolff; Albert S. Yen

doi:10.1029/2006JE002771

Overview of the Opportunity Mars Exploration Rover Mission to Meridiani Planum: Eagle Crater to Purgatory Ripple

S. W. Squyres
, R. E. Arvidson
, D. Bollen
, James F. Bell
, J. Brückner
, N. A. Cabrol
, W. M. Calvin
, M. H. Carr
, Philip R. Christensen
, B. C. Clark
, L. Crumpler
, D. J. Des Marais
, C. d'Uston
, T. Economou
, J. Farmer
, W. H. Farrand
, W. Folkner
, R. Gellert
, Timothy D. Glotch
, Matthew P. Golombek

S. Gorevan, J. A. Grant, R. Greeley, J. Grotzinger, K. E. Herkenhoff, S. Hviid, Jeffrey R. Johnson, G. Klingelhöfer, A. H. Knoll, G. Landis, Mark T. Lemmon, R. Li, M. B. Madsen, M. C. Malin, S. M. McLennan, H. Y. McSween, D. W. Ming, J. Moersch, R. V. Morris, T. Parker, Jr W. Rice, L. Richter, R. Rieder, C. Schröder, M. Sims, M. Smith, P. Smith, L. A. Soderblom, R. J. Sullivan, N. J. Tosca, H. Wänke, T. Wdowiak, Michael J. Wolff, Albert S. Yen

Geosciences

Cornell University
Washington University St. Louis
Max Planck Institute for Chemistry
NASA Ames Research Center
University of Nevada, Reno
United States Geological Survey
Arizona State University
Lockheed Martin
New Mexico Museum Natural History and Science
Institute de Recherche en Astrophysique et Planétologie
The University of Chicago
Space Science Institute
Jet Propulsion Laboratory, California Institute of Technology
University of Guelph
Honeybee Robotics Spacecraft Mechanisms Corporation
Smithsonian Institution
California Institute of Technology
Max Planck Institute for Solar System Research
Johannes Gutenberg University Mainz
Harvard University
NASA Glenn Research Center
Texas A&M University
Ohio State University
University of Copenhagen
Malin Space Science Systems
Stony Brook University
University of Tennessee
NASA Johnson Space Center
German Aerospace Center
NASA Goddard Space Flight Center
University of Arizona
University of Alabama at Birmingham
Space Science Institute

Research output: Contribution to journal › Review article › peer-review

182 Scopus citations

Abstract

The Mars Exploration Rover Opportunity touched down at Meridiani Planum in January 2004 and since then has been conducting observations with the Athena science payload. The rover has traversed more than 5 km, carrying out the first outcrop-scale investigation of sedimentary rocks on Mars. The rocks of Meridiani Planum are sandstones formed by eolian and aqueous reworking of sand grains that are composed of mixed fine-grained siliciclastics and sulfates. The siliciclastic fraction was produced by chemical alteration of a precursor basalt. The sulfates are dominantly Mg-sulfates and also include Ca-sulfates and jarosite. The stratigraphic section observed to date is dominated by eolian bedforms, with subaqueous current ripples exposed near the top of the section. After deposition, interaction with groundwater produced a range of diagenetic features, notably the hematite-rich concretions known as "blueberries." The bedrock at Meridiani is highly friable and has undergone substantial erosion by wind-transported basaltic sand. This sand, along with concretions and concretion fragments eroded from the rock, makes up a soil cover that thinly and discontinuously buries the bedrock. The soil surface exhibits both ancient and active wind ripples that record past and present wind directions. Loose rocks on the soil surface are rare and include both impact ejecta and meteorites. While Opportunity's results show that liquid water was once present at Meridiani Planum below and occasionally at the surface, the environmental conditions recorded were dominantly arid, acidic, and oxidizing and would have posed some significant challenges to the origin of life.

Original language	English
Article number	E12S12
Journal	Journal of Geophysical Research: Planets
Volume	111
Issue number	12
DOIs	https://doi.org/10.1029/2006JE002771
State	Published - Dec 20 2006

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Squyres, S. W., Arvidson, R. E., Bollen, D., Bell, J. F., Brückner, J., Cabrol, N. A., Calvin, W. M., Carr, M. H., Christensen, P. R., Clark, B. C., Crumpler, L., Des Marais, D. J., d'Uston, C., Economou, T., Farmer, J., Farrand, W. H., Folkner, W., Gellert, R., Glotch, T. D., ... Yen, A. S. (2006). Overview of the Opportunity Mars Exploration Rover Mission to Meridiani Planum: Eagle Crater to Purgatory Ripple. Journal of Geophysical Research: Planets, 111(12), Article E12S12. https://doi.org/10.1029/2006JE002771

@article{b056139eb1fc45f799634557ea16b06e,

title = "Overview of the Opportunity Mars Exploration Rover Mission to Meridiani Planum: Eagle Crater to Purgatory Ripple",

abstract = "The Mars Exploration Rover Opportunity touched down at Meridiani Planum in January 2004 and since then has been conducting observations with the Athena science payload. The rover has traversed more than 5 km, carrying out the first outcrop-scale investigation of sedimentary rocks on Mars. The rocks of Meridiani Planum are sandstones formed by eolian and aqueous reworking of sand grains that are composed of mixed fine-grained siliciclastics and sulfates. The siliciclastic fraction was produced by chemical alteration of a precursor basalt. The sulfates are dominantly Mg-sulfates and also include Ca-sulfates and jarosite. The stratigraphic section observed to date is dominated by eolian bedforms, with subaqueous current ripples exposed near the top of the section. After deposition, interaction with groundwater produced a range of diagenetic features, notably the hematite-rich concretions known as {"}blueberries.{"} The bedrock at Meridiani is highly friable and has undergone substantial erosion by wind-transported basaltic sand. This sand, along with concretions and concretion fragments eroded from the rock, makes up a soil cover that thinly and discontinuously buries the bedrock. The soil surface exhibits both ancient and active wind ripples that record past and present wind directions. Loose rocks on the soil surface are rare and include both impact ejecta and meteorites. While Opportunity's results show that liquid water was once present at Meridiani Planum below and occasionally at the surface, the environmental conditions recorded were dominantly arid, acidic, and oxidizing and would have posed some significant challenges to the origin of life.",

author = "Squyres, \{S. W.\} and Arvidson, \{R. E.\} and D. Bollen and Bell, \{James F.\} and J. Br{\"u}ckner and Cabrol, \{N. A.\} and Calvin, \{W. M.\} and Carr, \{M. H.\} and Christensen, \{Philip R.\} and Clark, \{B. C.\} and L. Crumpler and \{Des Marais\}, \{D. J.\} and C. d'Uston and T. Economou and J. Farmer and Farrand, \{W. H.\} and W. Folkner and R. Gellert and Glotch, \{Timothy D.\} and Golombek, \{Matthew P.\} and S. Gorevan and Grant, \{J. A.\} and R. Greeley and J. Grotzinger and Herkenhoff, \{K. E.\} and S. Hviid and Johnson, \{Jeffrey R.\} and G. Klingelh{\"o}fer and Knoll, \{A. H.\} and G. Landis and Lemmon, \{Mark T.\} and R. Li and Madsen, \{M. B.\} and Malin, \{M. C.\} and McLennan, \{S. M.\} and McSween, \{H. Y.\} and Ming, \{D. W.\} and J. Moersch and Morris, \{R. V.\} and T. Parker and Rice, \{Jr W.\} and L. Richter and R. Rieder and C. Schr{\"o}der and M. Sims and M. Smith and P. Smith and Soderblom, \{L. A.\} and Sullivan, \{R. J.\} and Tosca, \{N. J.\} and H. W{\"a}nke and T. Wdowiak and Wolff, \{Michael J.\} and Yen, \{Albert S.\}",

year = "2006",

month = dec,

day = "20",

doi = "10.1029/2006JE002771",

language = "English",

volume = "111",

journal = "Journal of Geophysical Research: Planets",

issn = "2169-9097",

number = "12",

}

Squyres, SW, Arvidson, RE, Bollen, D, Bell, JF, Brückner, J, Cabrol, NA, Calvin, WM, Carr, MH, Christensen, PR, Clark, BC, Crumpler, L, Des Marais, DJ, d'Uston, C, Economou, T, Farmer, J, Farrand, WH, Folkner, W, Gellert, R, Glotch, TD, Golombek, MP, Gorevan, S, Grant, JA, Greeley, R, Grotzinger, J, Herkenhoff, KE, Hviid, S, Johnson, JR, Klingelhöfer, G, Knoll, AH, Landis, G, Lemmon, MT, Li, R, Madsen, MB, Malin, MC, McLennan, SM, McSween, HY, Ming, DW, Moersch, J, Morris, RV, Parker, T, Rice, JW, Richter, L, Rieder, R, Schröder, C, Sims, M, Smith, M, Smith, P, Soderblom, LA, Sullivan, RJ, Tosca, NJ, Wänke, H, Wdowiak, T, Wolff, MJ & Yen, AS 2006, 'Overview of the Opportunity Mars Exploration Rover Mission to Meridiani Planum: Eagle Crater to Purgatory Ripple', Journal of Geophysical Research: Planets, vol. 111, no. 12, E12S12. https://doi.org/10.1029/2006JE002771

TY - JOUR

T1 - Overview of the Opportunity Mars Exploration Rover Mission to Meridiani Planum

T2 - Eagle Crater to Purgatory Ripple

AU - Squyres, S. W.

AU - Arvidson, R. E.

AU - Bollen, D.

AU - Bell, James F.

AU - Brückner, J.

AU - Cabrol, N. A.

AU - Calvin, W. M.

AU - Carr, M. H.

AU - Christensen, Philip R.

AU - Clark, B. C.

AU - Crumpler, L.

AU - Des Marais, D. J.

AU - d'Uston, C.

AU - Economou, T.

AU - Farmer, J.

AU - Farrand, W. H.

AU - Folkner, W.

AU - Gellert, R.

AU - Glotch, Timothy D.

AU - Golombek, Matthew P.

AU - Gorevan, S.

AU - Grant, J. A.

AU - Greeley, R.

AU - Grotzinger, J.

AU - Herkenhoff, K. E.

AU - Hviid, S.

AU - Johnson, Jeffrey R.

AU - Klingelhöfer, G.

AU - Knoll, A. H.

AU - Landis, G.

AU - Lemmon, Mark T.

AU - Li, R.

AU - Madsen, M. B.

AU - Malin, M. C.

AU - McLennan, S. M.

AU - McSween, H. Y.

AU - Ming, D. W.

AU - Moersch, J.

AU - Morris, R. V.

AU - Parker, T.

AU - Rice, Jr W.

AU - Richter, L.

AU - Rieder, R.

AU - Schröder, C.

AU - Sims, M.

AU - Smith, M.

AU - Smith, P.

AU - Soderblom, L. A.

AU - Sullivan, R. J.

AU - Tosca, N. J.

AU - Wänke, H.

AU - Wdowiak, T.

AU - Wolff, Michael J.

AU - Yen, Albert S.

PY - 2006/12/20

Y1 - 2006/12/20

N2 - The Mars Exploration Rover Opportunity touched down at Meridiani Planum in January 2004 and since then has been conducting observations with the Athena science payload. The rover has traversed more than 5 km, carrying out the first outcrop-scale investigation of sedimentary rocks on Mars. The rocks of Meridiani Planum are sandstones formed by eolian and aqueous reworking of sand grains that are composed of mixed fine-grained siliciclastics and sulfates. The siliciclastic fraction was produced by chemical alteration of a precursor basalt. The sulfates are dominantly Mg-sulfates and also include Ca-sulfates and jarosite. The stratigraphic section observed to date is dominated by eolian bedforms, with subaqueous current ripples exposed near the top of the section. After deposition, interaction with groundwater produced a range of diagenetic features, notably the hematite-rich concretions known as "blueberries." The bedrock at Meridiani is highly friable and has undergone substantial erosion by wind-transported basaltic sand. This sand, along with concretions and concretion fragments eroded from the rock, makes up a soil cover that thinly and discontinuously buries the bedrock. The soil surface exhibits both ancient and active wind ripples that record past and present wind directions. Loose rocks on the soil surface are rare and include both impact ejecta and meteorites. While Opportunity's results show that liquid water was once present at Meridiani Planum below and occasionally at the surface, the environmental conditions recorded were dominantly arid, acidic, and oxidizing and would have posed some significant challenges to the origin of life.

AB - The Mars Exploration Rover Opportunity touched down at Meridiani Planum in January 2004 and since then has been conducting observations with the Athena science payload. The rover has traversed more than 5 km, carrying out the first outcrop-scale investigation of sedimentary rocks on Mars. The rocks of Meridiani Planum are sandstones formed by eolian and aqueous reworking of sand grains that are composed of mixed fine-grained siliciclastics and sulfates. The siliciclastic fraction was produced by chemical alteration of a precursor basalt. The sulfates are dominantly Mg-sulfates and also include Ca-sulfates and jarosite. The stratigraphic section observed to date is dominated by eolian bedforms, with subaqueous current ripples exposed near the top of the section. After deposition, interaction with groundwater produced a range of diagenetic features, notably the hematite-rich concretions known as "blueberries." The bedrock at Meridiani is highly friable and has undergone substantial erosion by wind-transported basaltic sand. This sand, along with concretions and concretion fragments eroded from the rock, makes up a soil cover that thinly and discontinuously buries the bedrock. The soil surface exhibits both ancient and active wind ripples that record past and present wind directions. Loose rocks on the soil surface are rare and include both impact ejecta and meteorites. While Opportunity's results show that liquid water was once present at Meridiani Planum below and occasionally at the surface, the environmental conditions recorded were dominantly arid, acidic, and oxidizing and would have posed some significant challenges to the origin of life.

UR - https://www.scopus.com/pages/publications/34447531922

U2 - 10.1029/2006JE002771

DO - 10.1029/2006JE002771

M3 - Review article

AN - SCOPUS:34447531922

SN - 2169-9097

VL - 111

JO - Journal of Geophysical Research: Planets

JF - Journal of Geophysical Research: Planets

IS - 12

M1 - E12S12

ER -

Overview of the Opportunity Mars Exploration Rover Mission to Meridiani Planum: Eagle Crater to Purgatory Ripple

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