ChemCam results from the Shaler Outcrop in Gale Crater, Mars

The ChemCam campaign at the fluvial sedimentary outcrop “Shaler” resulted in observations of 28 non-soil targets, 26 of which included active laser induced breakdown spectroscopy (LIBS), and all of which included remote micro imager (RMI) images. The Shaler outcrop can be divided into seven facies b...

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Published in:Icarus
Main Authors: Anderson, Ryan, Bridges, J. C., Williams, A., Edgar, L., Ollila, A., Williams, J., Nachon, M., Mangold, N., Fisk, M., Schieber, J., Gupta, S., Dromart, G., Wiens, R., Le Mouélic, S., Forni, O., Lanza, N., Mezzacappa, A., Sautter, V., Blaney, D., Clark, B., Clegg, S., Gasnault, O., Lasue, J., Léveillé, R., Lewin, E., Lewis, K. W., Maurice, S., Newsom, H., Schwenzer, S. P., Vaniman, D.
Format: Article in Journal/Newspaper
Language:unknown
Published: 2015
Subjects:
Yellowknife
Yellowknife Bay
Online Access:https://oro.open.ac.uk/40894/
https://doi.org/10.1016/j.icarus.2014.07.025
id ftopenunivgb:oai:oro.open.ac.uk:40894
record_format openpolar
spelling ftopenunivgb:oai:oro.open.ac.uk:40894 2023-06-11T04:17:34+02:00 ChemCam results from the Shaler Outcrop in Gale Crater, Mars Anderson, Ryan Bridges, J. C. Williams, A. Edgar, L. Ollila, A. Williams, J. Nachon, M. Mangold, N. Fisk, M. Schieber, J. Gupta, S. Dromart, G. Wiens, R. Le Mouélic, S. Forni, O. Lanza, N. Mezzacappa, A. Sautter, V. Blaney, D. Clark, B. Clegg, S. Gasnault, O. Lasue, J. Léveillé, R. Lewin, E. Lewis, K. W. Maurice, S. Newsom, H. Schwenzer, S. P. Vaniman, D. 2015-03-15 https://oro.open.ac.uk/40894/ https://doi.org/10.1016/j.icarus.2014.07.025 unknown Anderson, Ryan; Bridges, J. C.; Williams, A.; Edgar, L.; Ollila, A.; Williams, J.; Nachon, M.; Mangold, N.; Fisk, M.; Schieber, J.; Gupta, S.; Dromart, G.; Wiens, R.; Le Mouélic, S.; Forni, O.; Lanza, N.; Mezzacappa, A.; Sautter, V.; Blaney, D.; Clark, B.; Clegg, S.; Gasnault, O.; Lasue, J.; Léveillé, R.; Lewin, E.; Lewis, K. W.; Maurice, S.; Newsom, H.; Schwenzer, S. P. <http://oro.open.ac.uk/view/person/ss24846.html> and Vaniman, D. (2015). ChemCam results from the Shaler Outcrop in Gale Crater, Mars. Icarus, 249 pp. 2–21. Journal Item None PeerReviewed 2015 ftopenunivgb https://doi.org/10.1016/j.icarus.2014.07.025 2023-05-28T05:51:44Z The ChemCam campaign at the fluvial sedimentary outcrop “Shaler” resulted in observations of 28 non-soil targets, 26 of which included active laser induced breakdown spectroscopy (LIBS), and all of which included remote micro imager (RMI) images. The Shaler outcrop can be divided into seven facies based on grain size, texture, color, resistance to erosion, and sedimentary structures. The ChemCam observations cover Facies 3 through 7. For all targets, the majority of the grains were below the limit of the RMI resolution, but many targets had a portion of resolvable grains coarser than ~0.5 mm. The Shaler facies show significant scatter in LIBS spectra and compositions from point to point, but several key compositional trends are apparent, most notably in the average K 2 O content of the observed facies. Facies 3 is lower in K 2 O than the other facies and is similar in composition to the “snake,” a clastic dike that occurs lower in the Yellowknife Bay stratigraphic section. Facies 7 is enriched in K 2 O relative to the other facies and shows some compositional and textural similarities to float rocks near Yellowknife Bay. The remaining facies (4, 5, and 6) are similar in composition to the Sheepbed and Gillespie Lake members, although the Shaler facies have slightly elevated K 2 O and FeO T . Several analysis points within Shaler suggest the presence of feldspars, though these points have excess FeO T which suggests the presence of Fe oxide cement or inclusions. The majority of LIBS analyses have compositions which indicate that they are mixtures of pyroxene and feldspar. The Shaler feldspathic compositions are more alkaline than typical feldspars from shergottites, suggesting an alkaline basaltic source region, particularly for the K 2 O-enriched Facies 7. Apart from possible iron-oxide cement, there is little evidence for chemical alteration at Shaler, although calcium-sulfate veins comparable to those observed lower in the stratigraphic section are present. The differing compositions, and inferred provenances ... Article in Journal/Newspaper Yellowknife The Open University: Open Research Online (ORO) Yellowknife Yellowknife Bay ENVELOPE(-114.336,-114.336,62.367,62.367) Icarus 249 2 21
institution Open Polar
collection The Open University: Open Research Online (ORO)
op_collection_id ftopenunivgb
language unknown
description The ChemCam campaign at the fluvial sedimentary outcrop “Shaler” resulted in observations of 28 non-soil targets, 26 of which included active laser induced breakdown spectroscopy (LIBS), and all of which included remote micro imager (RMI) images. The Shaler outcrop can be divided into seven facies based on grain size, texture, color, resistance to erosion, and sedimentary structures. The ChemCam observations cover Facies 3 through 7. For all targets, the majority of the grains were below the limit of the RMI resolution, but many targets had a portion of resolvable grains coarser than ~0.5 mm. The Shaler facies show significant scatter in LIBS spectra and compositions from point to point, but several key compositional trends are apparent, most notably in the average K 2 O content of the observed facies. Facies 3 is lower in K 2 O than the other facies and is similar in composition to the “snake,” a clastic dike that occurs lower in the Yellowknife Bay stratigraphic section. Facies 7 is enriched in K 2 O relative to the other facies and shows some compositional and textural similarities to float rocks near Yellowknife Bay. The remaining facies (4, 5, and 6) are similar in composition to the Sheepbed and Gillespie Lake members, although the Shaler facies have slightly elevated K 2 O and FeO T . Several analysis points within Shaler suggest the presence of feldspars, though these points have excess FeO T which suggests the presence of Fe oxide cement or inclusions. The majority of LIBS analyses have compositions which indicate that they are mixtures of pyroxene and feldspar. The Shaler feldspathic compositions are more alkaline than typical feldspars from shergottites, suggesting an alkaline basaltic source region, particularly for the K 2 O-enriched Facies 7. Apart from possible iron-oxide cement, there is little evidence for chemical alteration at Shaler, although calcium-sulfate veins comparable to those observed lower in the stratigraphic section are present. The differing compositions, and inferred provenances ...
format Article in Journal/Newspaper
author Anderson, Ryan
Bridges, J. C.
Williams, A.
Edgar, L.
Ollila, A.
Williams, J.
Nachon, M.
Mangold, N.
Fisk, M.
Schieber, J.
Gupta, S.
Dromart, G.
Wiens, R.
Le Mouélic, S.
Forni, O.
Lanza, N.
Mezzacappa, A.
Sautter, V.
Blaney, D.
Clark, B.
Clegg, S.
Gasnault, O.
Lasue, J.
Léveillé, R.
Lewin, E.
Lewis, K. W.
Maurice, S.
Newsom, H.
Schwenzer, S. P.
Vaniman, D.
spellingShingle Anderson, Ryan
Bridges, J. C.
Williams, A.
Edgar, L.
Ollila, A.
Williams, J.
Nachon, M.
Mangold, N.
Fisk, M.
Schieber, J.
Gupta, S.
Dromart, G.
Wiens, R.
Le Mouélic, S.
Forni, O.
Lanza, N.
Mezzacappa, A.
Sautter, V.
Blaney, D.
Clark, B.
Clegg, S.
Gasnault, O.
Lasue, J.
Léveillé, R.
Lewin, E.
Lewis, K. W.
Maurice, S.
Newsom, H.
Schwenzer, S. P.
Vaniman, D.
ChemCam results from the Shaler Outcrop in Gale Crater, Mars
author_facet Anderson, Ryan
Bridges, J. C.
Williams, A.
Edgar, L.
Ollila, A.
Williams, J.
Nachon, M.
Mangold, N.
Fisk, M.
Schieber, J.
Gupta, S.
Dromart, G.
Wiens, R.
Le Mouélic, S.
Forni, O.
Lanza, N.
Mezzacappa, A.
Sautter, V.
Blaney, D.
Clark, B.
Clegg, S.
Gasnault, O.
Lasue, J.
Léveillé, R.
Lewin, E.
Lewis, K. W.
Maurice, S.
Newsom, H.
Schwenzer, S. P.
Vaniman, D.
author_sort Anderson, Ryan
title ChemCam results from the Shaler Outcrop in Gale Crater, Mars
title_short ChemCam results from the Shaler Outcrop in Gale Crater, Mars
title_full ChemCam results from the Shaler Outcrop in Gale Crater, Mars
title_fullStr ChemCam results from the Shaler Outcrop in Gale Crater, Mars
title_full_unstemmed ChemCam results from the Shaler Outcrop in Gale Crater, Mars
title_sort chemcam results from the shaler outcrop in gale crater, mars
publishDate 2015
url https://oro.open.ac.uk/40894/
https://doi.org/10.1016/j.icarus.2014.07.025
long_lat ENVELOPE(-114.336,-114.336,62.367,62.367)
geographic Yellowknife
Yellowknife Bay
geographic_facet Yellowknife
Yellowknife Bay
genre Yellowknife
genre_facet Yellowknife
op_relation Anderson, Ryan; Bridges, J. C.; Williams, A.; Edgar, L.; Ollila, A.; Williams, J.; Nachon, M.; Mangold, N.; Fisk, M.; Schieber, J.; Gupta, S.; Dromart, G.; Wiens, R.; Le Mouélic, S.; Forni, O.; Lanza, N.; Mezzacappa, A.; Sautter, V.; Blaney, D.; Clark, B.; Clegg, S.; Gasnault, O.; Lasue, J.; Léveillé, R.; Lewin, E.; Lewis, K. W.; Maurice, S.; Newsom, H.; Schwenzer, S. P. <http://oro.open.ac.uk/view/person/ss24846.html> and Vaniman, D. (2015). ChemCam results from the Shaler Outcrop in Gale Crater, Mars. Icarus, 249 pp. 2–21.
op_doi https://doi.org/10.1016/j.icarus.2014.07.025
container_title Icarus
container_volume 249
container_start_page 2
op_container_end_page 21
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