Reactions Involving Calcium and Magnesium Sulfates as Potential Sources of Sulfur Dioxide During MSL SAM Evolved Gas Analyses
The Sample Analysis at Mars (SAM) and Chemistry and Mineralogy (CheMin) instruments on the Mars Science Laboratory (MSL) have analyzed several subsamples of <150 micron fines from ten sites at Gale Crater. Three were in Yellowknife Bay: the Rocknest aeolian bedform (RN) and drilled Sheepbed mudst...
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2016
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| Online Access: | http://hdl.handle.net/2060/20160003478 |
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ftnasantrs:oai:casi.ntrs.nasa.gov:20160003478 2023-05-15T18:45:45+02:00 Reactions Involving Calcium and Magnesium Sulfates as Potential Sources of Sulfur Dioxide During MSL SAM Evolved Gas Analyses Archer, P. D., Jr. Franz, H. B. Navarro-Gonzalez, R. Mahaffy, P. R. McAdam, A. C. Sutter, B. Morris, R. V. Hurowitz, J. A. Eigenbrode, J. L. Knudson, C. A. Ming, D. W. Unclassified, Unlimited, Publicly available March 21, 2016 application/pdf http://hdl.handle.net/2060/20160003478 unknown Document ID: 20160003478 http://hdl.handle.net/2060/20160003478 Copyright, Distribution as joint owner in the copyright CASI Lunar and Planetary Science and Exploration JSC-CN-35715 Lunar and Planetary Science Conference; 21-25 Mar. 2016; The Woodlands, TX; United States 2016 ftnasantrs 2019-07-20T23:55:59Z The Sample Analysis at Mars (SAM) and Chemistry and Mineralogy (CheMin) instruments on the Mars Science Laboratory (MSL) have analyzed several subsamples of <150 micron fines from ten sites at Gale Crater. Three were in Yellowknife Bay: the Rocknest aeolian bedform (RN) and drilled Sheepbed mudstone from sites John Klein (JK) and Cumberland (CB). One was drilled from the Windjana (WJ) site on a sandstone of the Kimberly formation. Four were drilled from sites Confidence Hills (CH), Mojave (MJ), Telegraph Peak (TP) and Buckskin (BK) of the Murray Formation at the base of Mt. Sharp. Two were drilled from sandstones of the Stimson formation targeting relatively unaltered (Big Sky, BY) and then altered (Greenhorn, GH) material associated with a light colored fracture zone. CheMin analyses provided quantitative sample mineralogy. SAM's evolved gas analysis mass spectrometry (EGA-MS) detected H2O, CO2, O2, H2, SO2, H2S, HCl, NO, and other trace gases. This contribution will focus on evolved SO2. All samples evolved SO2 above 500 C. The shapes of the SO2 evolution traces with temperature vary between samples but most have at least two "peaks' within the wide high temperature evolution, from approx. 500-700 and approx. 700-860 C (Fig. 1). In many cases, the only sulfur minerals detected with CheMin were Ca sulfates (e.g., RN and GH), which should thermally decompose at temperatures above those obtainable by SAM (>860 C). Sulfides or Fe sulfates were detected by CheMin (e.g., CB, MJ, BK) and could contribute to the high temperature SO2 evolution, but in most cases they are not present in enough abundance to account for all of the SO2. This additional SO2 could be largely associated with x-ray amorphous material, which comprises a significant portion of all samples. It can also be attributed to trace S phases present below the CheMin detection limit, or to reactions which lower the temperatures of SO2 evolution from sulfates that are typically expected to thermally decompose at temperatures outside the SAM temperature range (e.g., Ca and Mg sulfates). Here we discuss the results of SAM-like laboratory analyses targeted at understanding this last possibility, focused on understanding if reactions of HCl or an HCl evolving phase (oxychlorine phases, chlorides, etc.) and Ca and Mg sulfates can result in SO2 evolution in the SAM temperature range. Other/Unknown Material Yellowknife NASA Technical Reports Server (NTRS) Yellowknife Yellowknife Bay ENVELOPE(-114.336,-114.336,62.367,62.367) |
| institution |
Open Polar |
| collection |
NASA Technical Reports Server (NTRS) |
| op_collection_id |
ftnasantrs |
| language |
unknown |
| topic |
Lunar and Planetary Science and Exploration |
| spellingShingle |
Lunar and Planetary Science and Exploration Archer, P. D., Jr. Franz, H. B. Navarro-Gonzalez, R. Mahaffy, P. R. McAdam, A. C. Sutter, B. Morris, R. V. Hurowitz, J. A. Eigenbrode, J. L. Knudson, C. A. Ming, D. W. Reactions Involving Calcium and Magnesium Sulfates as Potential Sources of Sulfur Dioxide During MSL SAM Evolved Gas Analyses |
| topic_facet |
Lunar and Planetary Science and Exploration |
| description |
The Sample Analysis at Mars (SAM) and Chemistry and Mineralogy (CheMin) instruments on the Mars Science Laboratory (MSL) have analyzed several subsamples of <150 micron fines from ten sites at Gale Crater. Three were in Yellowknife Bay: the Rocknest aeolian bedform (RN) and drilled Sheepbed mudstone from sites John Klein (JK) and Cumberland (CB). One was drilled from the Windjana (WJ) site on a sandstone of the Kimberly formation. Four were drilled from sites Confidence Hills (CH), Mojave (MJ), Telegraph Peak (TP) and Buckskin (BK) of the Murray Formation at the base of Mt. Sharp. Two were drilled from sandstones of the Stimson formation targeting relatively unaltered (Big Sky, BY) and then altered (Greenhorn, GH) material associated with a light colored fracture zone. CheMin analyses provided quantitative sample mineralogy. SAM's evolved gas analysis mass spectrometry (EGA-MS) detected H2O, CO2, O2, H2, SO2, H2S, HCl, NO, and other trace gases. This contribution will focus on evolved SO2. All samples evolved SO2 above 500 C. The shapes of the SO2 evolution traces with temperature vary between samples but most have at least two "peaks' within the wide high temperature evolution, from approx. 500-700 and approx. 700-860 C (Fig. 1). In many cases, the only sulfur minerals detected with CheMin were Ca sulfates (e.g., RN and GH), which should thermally decompose at temperatures above those obtainable by SAM (>860 C). Sulfides or Fe sulfates were detected by CheMin (e.g., CB, MJ, BK) and could contribute to the high temperature SO2 evolution, but in most cases they are not present in enough abundance to account for all of the SO2. This additional SO2 could be largely associated with x-ray amorphous material, which comprises a significant portion of all samples. It can also be attributed to trace S phases present below the CheMin detection limit, or to reactions which lower the temperatures of SO2 evolution from sulfates that are typically expected to thermally decompose at temperatures outside the SAM temperature range (e.g., Ca and Mg sulfates). Here we discuss the results of SAM-like laboratory analyses targeted at understanding this last possibility, focused on understanding if reactions of HCl or an HCl evolving phase (oxychlorine phases, chlorides, etc.) and Ca and Mg sulfates can result in SO2 evolution in the SAM temperature range. |
| format |
Other/Unknown Material |
| author |
Archer, P. D., Jr. Franz, H. B. Navarro-Gonzalez, R. Mahaffy, P. R. McAdam, A. C. Sutter, B. Morris, R. V. Hurowitz, J. A. Eigenbrode, J. L. Knudson, C. A. Ming, D. W. |
| author_facet |
Archer, P. D., Jr. Franz, H. B. Navarro-Gonzalez, R. Mahaffy, P. R. McAdam, A. C. Sutter, B. Morris, R. V. Hurowitz, J. A. Eigenbrode, J. L. Knudson, C. A. Ming, D. W. |
| author_sort |
Archer, P. D., Jr. |
| title |
Reactions Involving Calcium and Magnesium Sulfates as Potential Sources of Sulfur Dioxide During MSL SAM Evolved Gas Analyses |
| title_short |
Reactions Involving Calcium and Magnesium Sulfates as Potential Sources of Sulfur Dioxide During MSL SAM Evolved Gas Analyses |
| title_full |
Reactions Involving Calcium and Magnesium Sulfates as Potential Sources of Sulfur Dioxide During MSL SAM Evolved Gas Analyses |
| title_fullStr |
Reactions Involving Calcium and Magnesium Sulfates as Potential Sources of Sulfur Dioxide During MSL SAM Evolved Gas Analyses |
| title_full_unstemmed |
Reactions Involving Calcium and Magnesium Sulfates as Potential Sources of Sulfur Dioxide During MSL SAM Evolved Gas Analyses |
| title_sort |
reactions involving calcium and magnesium sulfates as potential sources of sulfur dioxide during msl sam evolved gas analyses |
| publishDate |
2016 |
| url |
http://hdl.handle.net/2060/20160003478 |
| op_coverage |
Unclassified, Unlimited, Publicly available |
| 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_source |
CASI |
| op_relation |
Document ID: 20160003478 http://hdl.handle.net/2060/20160003478 |
| op_rights |
Copyright, Distribution as joint owner in the copyright |
| _version_ |
1766236887143415808 |