Nature and origin of the hematite-bearing plains of Terra Meridiani based on analyses of orbital and Mars Exploration rover data sets

R. E. Arvidson; F. Poulet; R. V. Morris; J. P. Bibring; James Bell; Steven W. Squyres; Philip Christensen; G. Bellucci; B. Gondet; B. L. Ehlmann; W. H. Farrand; R. L. Fergason; M. Golombeck; J. L. Griffes; J. Grotzinger; E. A. Guinness; K. E. Herkenhoff; Jeffrey R. Johnson; G. Klingelhöfer; Y. Langevin; D. Ming; K. Seelos; R. J. Sullivan; J. G. Ward; S. M. Wiseman; Michael J. Wolff

doi:10.1029/2006JE002728

Nature and origin of the hematite-bearing plains of Terra Meridiani based on analyses of orbital and Mars Exploration rover data sets

R. E. Arvidson, F. Poulet, R. V. Morris, J. P. Bibring, James Bell, Steven W. Squyres, Philip Christensen, G. Bellucci, B. Gondet, B. L. Ehlmann, W. H. Farrand, R. L. Fergason, M. Golombeck, J. L. Griffes, J. Grotzinger, E. A. Guinness, K. E. Herkenhoff, Jeffrey R. Johnson, G. Klingelhöfer, Y. LangevinD. Ming, K. Seelos, R. J. Sullivan, J. G. Ward, S. M. Wiseman, Michael J. Wolff

Research output: Contribution to journal › Article › peer-review

121 Scopus citations

Abstract

The ∼5 km of traverses and observations completed by the Opportunity rover from Endurance crater to the Fruitbasket outcrop show that the Meridiani plains consist of sulfate-rich sedimentary rocks that are largely covered by poorly-sorted basaltic aeolian sands and a lag of granule-sized hematitic concretions. Orbital reflectance spectra obtained by Mars Express OMEGA over this region are dominated by pyroxene, plagioclase feldspar, crystalline hematite (i.e., concretions), and nano-phase iron oxide dust signatures, consistent with Pancam and Mini-TES observations. Mössbauer Spectrometer observations indicate more olivine than observed with the other instruments, consistent with preferential optical obscuration of olivine features in mixtures with pyroxene and dust. Orbital data covering bright plains located several kilometers to the south of the landing site expose a smaller areal abundance of hematite, more dust, and a larger areal extent of outcrop compared to plains proximal to the landing site. Low-albedo, low-thermal-inertia, windswept plains located several hundred kilometers to the south of the landing site are predicted from OMEGA data to have more hematite and fine-grained olivine grains exposed as compared to the landing site. Low calcium pyroxene dominates spectral signatures from the cratered highlands to the south of Opportunity. A regional-scale model is presented for the formation of the plains explored by Opportunity, based on a rising ground water table late in the Noachian Era that trapped and altered local materials and aeolian basaltic sands. Cessation of this aqueous process led to dominance of aeolian processes and formation of the current configuration of the plains.

Original language	English (US)
Article number	E12S08
Journal	Journal of Geophysical Research: Planets
Volume	111
Issue number	12
DOIs	https://doi.org/10.1029/2006JE002728
State	Published - Dec 20 2006

ASJC Scopus subject areas

Geochemistry and Petrology
Geophysics
Earth and Planetary Sciences (miscellaneous)
Space and Planetary Science
Atmospheric Science
Astronomy and Astrophysics
Oceanography

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10.1029/2006JE002728

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Arvidson, R. E., Poulet, F., Morris, R. V., Bibring, J. P., Bell, J., Squyres, S. W., Christensen, P., Bellucci, G., Gondet, B., Ehlmann, B. L., Farrand, W. H., Fergason, R. L., Golombeck, M., Griffes, J. L., Grotzinger, J., Guinness, E. A., Herkenhoff, K. E., Johnson, J. R., Klingelhöfer, G., ... Wolff, M. J. (2006). Nature and origin of the hematite-bearing plains of Terra Meridiani based on analyses of orbital and Mars Exploration rover data sets. Journal of Geophysical Research: Planets, 111(12), Article E12S08. https://doi.org/10.1029/2006JE002728

Arvidson, RE, Poulet, F, Morris, RV, Bibring, JP, Bell, J, Squyres, SW, Christensen, P, Bellucci, G, Gondet, B, Ehlmann, BL, Farrand, WH, Fergason, RL, Golombeck, M, Griffes, JL, Grotzinger, J, Guinness, EA, Herkenhoff, KE, Johnson, JR, Klingelhöfer, G, Langevin, Y, Ming, D, Seelos, K, Sullivan, RJ, Ward, JG, Wiseman, SM & Wolff, MJ 2006, 'Nature and origin of the hematite-bearing plains of Terra Meridiani based on analyses of orbital and Mars Exploration rover data sets', Journal of Geophysical Research: Planets, vol. 111, no. 12, E12S08. https://doi.org/10.1029/2006JE002728

@article{4d514367db374bd4a7f6851b6ae96fc3,

title = "Nature and origin of the hematite-bearing plains of Terra Meridiani based on analyses of orbital and Mars Exploration rover data sets",

abstract = "The ∼5 km of traverses and observations completed by the Opportunity rover from Endurance crater to the Fruitbasket outcrop show that the Meridiani plains consist of sulfate-rich sedimentary rocks that are largely covered by poorly-sorted basaltic aeolian sands and a lag of granule-sized hematitic concretions. Orbital reflectance spectra obtained by Mars Express OMEGA over this region are dominated by pyroxene, plagioclase feldspar, crystalline hematite (i.e., concretions), and nano-phase iron oxide dust signatures, consistent with Pancam and Mini-TES observations. M{\"o}ssbauer Spectrometer observations indicate more olivine than observed with the other instruments, consistent with preferential optical obscuration of olivine features in mixtures with pyroxene and dust. Orbital data covering bright plains located several kilometers to the south of the landing site expose a smaller areal abundance of hematite, more dust, and a larger areal extent of outcrop compared to plains proximal to the landing site. Low-albedo, low-thermal-inertia, windswept plains located several hundred kilometers to the south of the landing site are predicted from OMEGA data to have more hematite and fine-grained olivine grains exposed as compared to the landing site. Low calcium pyroxene dominates spectral signatures from the cratered highlands to the south of Opportunity. A regional-scale model is presented for the formation of the plains explored by Opportunity, based on a rising ground water table late in the Noachian Era that trapped and altered local materials and aeolian basaltic sands. Cessation of this aqueous process led to dominance of aeolian processes and formation of the current configuration of the plains.",

author = "Arvidson, {R. E.} and F. Poulet and Morris, {R. V.} and Bibring, {J. P.} and James Bell and Squyres, {Steven W.} and Philip Christensen and G. Bellucci and B. Gondet and Ehlmann, {B. L.} and Farrand, {W. H.} and Fergason, {R. L.} and M. Golombeck and Griffes, {J. L.} and J. Grotzinger and Guinness, {E. A.} and Herkenhoff, {K. E.} and Johnson, {Jeffrey R.} and G. Klingelh{\"o}fer and Y. Langevin and D. Ming and K. Seelos and Sullivan, {R. J.} and Ward, {J. G.} and Wiseman, {S. M.} and Wolff, {Michael J.}",

note = "Funding Information: The studies involved defining the common species of mosquitoes (particularly those biting man), isolating viruses from them and measuring antibody prevalences in human and animal populations. Japanese encephalitis virus was found to be the principal cause of human encephalitis and antibodies to Japanese encephalitis and dengue viruses were shown to be prevalent in all areas of Sarawak (&rrn et al, 1974). The general trend of arbovirus infections was of highest infection rates in coastal, estuarine and inland forest areas, while urban areas had the lowest rates. One hundred and forty-three arbovirus strains were isolated from mosquitoes-69 strains of Japanese encephalitis, 41 of Tembusu, 15 of Sindbis, 14 of Getah, 3 of Kunjin and a single Bunyamwera group virus. Most of these isolates were obtained from Culex tritaeniorhynchus and C. geh{\textquoteright}dus (SMITH et al, 1969; The visits to Sarawak were financed and supported jointly by the Ministry of Overseas Development (formerly Department of Technical Co-operation) and the Malaysian Government, and we are indebted to both for facilitating our work in many ways. We are very grateful to successive directors and staff of the Institute for Medical Research, Kuala Lumpur. We are indebted to many members of the Sarawak Medical Department, especially Dr. Chong Chun Hian, previous directors of Medical Services and their headquarters{\textquoteright} staffs. In addition, we would particularly like to thank Dr. P. S. Dawson, Dr. H. E. Webb and Dr. R. W. Pomeroy for their valuable assistance. Funding Information: Medical Research Council External Staff, Sarawak",

year = "2006",

month = dec,

day = "20",

doi = "10.1029/2006JE002728",

language = "English (US)",

volume = "111",

journal = "Journal of Geophysical Research: Planets",

issn = "0148-0227",

publisher = "Wiley-Blackwell Publishing Ltd",

number = "12",

}

TY - JOUR

T1 - Nature and origin of the hematite-bearing plains of Terra Meridiani based on analyses of orbital and Mars Exploration rover data sets

AU - Arvidson, R. E.

AU - Poulet, F.

AU - Morris, R. V.

AU - Bibring, J. P.

AU - Bell, James

AU - Squyres, Steven W.

AU - Christensen, Philip

AU - Bellucci, G.

AU - Gondet, B.

AU - Ehlmann, B. L.

AU - Farrand, W. H.

AU - Fergason, R. L.

AU - Golombeck, M.

AU - Griffes, J. L.

AU - Grotzinger, J.

AU - Guinness, E. A.

AU - Herkenhoff, K. E.

AU - Johnson, Jeffrey R.

AU - Klingelhöfer, G.

AU - Langevin, Y.

AU - Ming, D.

AU - Seelos, K.

AU - Sullivan, R. J.

AU - Ward, J. G.

AU - Wiseman, S. M.

AU - Wolff, Michael J.

N1 - Funding Information: The studies involved defining the common species of mosquitoes (particularly those biting man), isolating viruses from them and measuring antibody prevalences in human and animal populations. Japanese encephalitis virus was found to be the principal cause of human encephalitis and antibodies to Japanese encephalitis and dengue viruses were shown to be prevalent in all areas of Sarawak (&rrn et al, 1974). The general trend of arbovirus infections was of highest infection rates in coastal, estuarine and inland forest areas, while urban areas had the lowest rates. One hundred and forty-three arbovirus strains were isolated from mosquitoes-69 strains of Japanese encephalitis, 41 of Tembusu, 15 of Sindbis, 14 of Getah, 3 of Kunjin and a single Bunyamwera group virus. Most of these isolates were obtained from Culex tritaeniorhynchus and C. geh’dus (SMITH et al, 1969; The visits to Sarawak were financed and supported jointly by the Ministry of Overseas Development (formerly Department of Technical Co-operation) and the Malaysian Government, and we are indebted to both for facilitating our work in many ways. We are very grateful to successive directors and staff of the Institute for Medical Research, Kuala Lumpur. We are indebted to many members of the Sarawak Medical Department, especially Dr. Chong Chun Hian, previous directors of Medical Services and their headquarters’ staffs. In addition, we would particularly like to thank Dr. P. S. Dawson, Dr. H. E. Webb and Dr. R. W. Pomeroy for their valuable assistance. Funding Information: Medical Research Council External Staff, Sarawak

PY - 2006/12/20

Y1 - 2006/12/20

N2 - The ∼5 km of traverses and observations completed by the Opportunity rover from Endurance crater to the Fruitbasket outcrop show that the Meridiani plains consist of sulfate-rich sedimentary rocks that are largely covered by poorly-sorted basaltic aeolian sands and a lag of granule-sized hematitic concretions. Orbital reflectance spectra obtained by Mars Express OMEGA over this region are dominated by pyroxene, plagioclase feldspar, crystalline hematite (i.e., concretions), and nano-phase iron oxide dust signatures, consistent with Pancam and Mini-TES observations. Mössbauer Spectrometer observations indicate more olivine than observed with the other instruments, consistent with preferential optical obscuration of olivine features in mixtures with pyroxene and dust. Orbital data covering bright plains located several kilometers to the south of the landing site expose a smaller areal abundance of hematite, more dust, and a larger areal extent of outcrop compared to plains proximal to the landing site. Low-albedo, low-thermal-inertia, windswept plains located several hundred kilometers to the south of the landing site are predicted from OMEGA data to have more hematite and fine-grained olivine grains exposed as compared to the landing site. Low calcium pyroxene dominates spectral signatures from the cratered highlands to the south of Opportunity. A regional-scale model is presented for the formation of the plains explored by Opportunity, based on a rising ground water table late in the Noachian Era that trapped and altered local materials and aeolian basaltic sands. Cessation of this aqueous process led to dominance of aeolian processes and formation of the current configuration of the plains.

AB - The ∼5 km of traverses and observations completed by the Opportunity rover from Endurance crater to the Fruitbasket outcrop show that the Meridiani plains consist of sulfate-rich sedimentary rocks that are largely covered by poorly-sorted basaltic aeolian sands and a lag of granule-sized hematitic concretions. Orbital reflectance spectra obtained by Mars Express OMEGA over this region are dominated by pyroxene, plagioclase feldspar, crystalline hematite (i.e., concretions), and nano-phase iron oxide dust signatures, consistent with Pancam and Mini-TES observations. Mössbauer Spectrometer observations indicate more olivine than observed with the other instruments, consistent with preferential optical obscuration of olivine features in mixtures with pyroxene and dust. Orbital data covering bright plains located several kilometers to the south of the landing site expose a smaller areal abundance of hematite, more dust, and a larger areal extent of outcrop compared to plains proximal to the landing site. Low-albedo, low-thermal-inertia, windswept plains located several hundred kilometers to the south of the landing site are predicted from OMEGA data to have more hematite and fine-grained olivine grains exposed as compared to the landing site. Low calcium pyroxene dominates spectral signatures from the cratered highlands to the south of Opportunity. A regional-scale model is presented for the formation of the plains explored by Opportunity, based on a rising ground water table late in the Noachian Era that trapped and altered local materials and aeolian basaltic sands. Cessation of this aqueous process led to dominance of aeolian processes and formation of the current configuration of the plains.

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ER -

Nature and origin of the hematite-bearing plains of Terra Meridiani based on analyses of orbital and Mars Exploration rover data sets

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