Iron Mobility During Diagenesis at Vera Rubin Ridge, Gale Crater, Mars

Research output: Contribution to journalJournal articleResearchpeer-review

Standard

Iron Mobility During Diagenesis at Vera Rubin Ridge, Gale Crater, Mars. / L'Haridon, J.; Mangold, N.; Fraeman, A. A.; Johnson, J. R.; Cousin, A.; Rapin, W.; David, G.; Dehouck, E.; Sun, V.; Frydenvang, J.; Gasnault, O.; Gasda, P.; Lanza, N.; Forni, O.; Meslin, P. Y.; Schwenzer, S. P.; Bridges, J.; Horgan, B.; House, C. H.; Salvatore, M.; Maurice, S.; Wiens, R. C.

In: Journal of Geophysical Research: Planets, Vol. 125, No. 11, e2019JE006299, 2020.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

L'Haridon, J, Mangold, N, Fraeman, AA, Johnson, JR, Cousin, A, Rapin, W, David, G, Dehouck, E, Sun, V, Frydenvang, J, Gasnault, O, Gasda, P, Lanza, N, Forni, O, Meslin, PY, Schwenzer, SP, Bridges, J, Horgan, B, House, CH, Salvatore, M, Maurice, S & Wiens, RC 2020, 'Iron Mobility During Diagenesis at Vera Rubin Ridge, Gale Crater, Mars', Journal of Geophysical Research: Planets, vol. 125, no. 11, e2019JE006299. https://doi.org/10.1029/2019JE006299

APA

L'Haridon, J., Mangold, N., Fraeman, A. A., Johnson, J. R., Cousin, A., Rapin, W., David, G., Dehouck, E., Sun, V., Frydenvang, J., Gasnault, O., Gasda, P., Lanza, N., Forni, O., Meslin, P. Y., Schwenzer, S. P., Bridges, J., Horgan, B., House, C. H., ... Wiens, R. C. (2020). Iron Mobility During Diagenesis at Vera Rubin Ridge, Gale Crater, Mars. Journal of Geophysical Research: Planets, 125(11), [e2019JE006299]. https://doi.org/10.1029/2019JE006299

Vancouver

L'Haridon J, Mangold N, Fraeman AA, Johnson JR, Cousin A, Rapin W et al. Iron Mobility During Diagenesis at Vera Rubin Ridge, Gale Crater, Mars. Journal of Geophysical Research: Planets. 2020;125(11). e2019JE006299. https://doi.org/10.1029/2019JE006299

Author

L'Haridon, J. ; Mangold, N. ; Fraeman, A. A. ; Johnson, J. R. ; Cousin, A. ; Rapin, W. ; David, G. ; Dehouck, E. ; Sun, V. ; Frydenvang, J. ; Gasnault, O. ; Gasda, P. ; Lanza, N. ; Forni, O. ; Meslin, P. Y. ; Schwenzer, S. P. ; Bridges, J. ; Horgan, B. ; House, C. H. ; Salvatore, M. ; Maurice, S. ; Wiens, R. C. / Iron Mobility During Diagenesis at Vera Rubin Ridge, Gale Crater, Mars. In: Journal of Geophysical Research: Planets. 2020 ; Vol. 125, No. 11.

Bibtex

@article{c1e5dc1f59c04a968c42a227be1cdc50,
title = "Iron Mobility During Diagenesis at Vera Rubin Ridge, Gale Crater, Mars",
abstract = "The Curiosity rover investigated a topographic structure known as Vera Rubin ridge, associated with a hematite signature in orbital spectra. There, Curiosity encountered mudstones interpreted as lacustrine deposits, conformably overlying the 300 m-thick underlying sedimentary rocks of the Murray formation at the base of Mount Sharp. While the presence of hematite (α-Fe2O3) was confirmed in situ by both Mastcam and ChemCam spectral observations and by the CheMin instrument, neither ChemCam nor APXS observed any significant increase in FeOT (total iron oxide) abundances compared to the rest of the Murray formation. Instead, Curiosity discovered dark-toned diagenetic features displaying anomalously high FeOT abundances, commonly observed in association with light-toned Ca-sulfate veins but also as crystal pseudomorphs in the host rock. These iron-rich diagenetic features are predominantly observed in “gray” outcrops on the upper part of the ridge, which lack the telltale ferric signature of other Vera Rubin ridge outcrops. Their composition is consistent with anhydrous Fe-oxide, as the enrichment in iron is not associated with enrichment in any other elements, nor with detections of volatiles. The lack of ferric absorption features in the ChemCam reflectance spectra and the hexagonal crystalline structure associated with dark-toned crystals points toward coarse “gray” hematite. In addition, the host rock adjacent to these features appears bleached and shows low-FeOT content as well as depletion in Mn, indicating mobilization of these redox-sensitive elements during diagenesis. Thus, groundwater fluid circulations could account for the remobilization of iron and recrystallization as crystalline hematite during diagenesis on Vera Rubin ridge.",
keywords = "ChemCam, diagenesis, iron mobility, redox processes",
author = "J. L'Haridon and N. Mangold and Fraeman, {A. A.} and Johnson, {J. R.} and A. Cousin and W. Rapin and G. David and E. Dehouck and V. Sun and J. Frydenvang and O. Gasnault and P. Gasda and N. Lanza and O. Forni and Meslin, {P. Y.} and Schwenzer, {S. P.} and J. Bridges and B. Horgan and House, {C. H.} and M. Salvatore and S. Maurice and Wiens, {R. C.}",
year = "2020",
doi = "10.1029/2019JE006299",
language = "English",
volume = "125",
journal = "Journal of Geophysical Research: Solid Earth",
issn = "0148-0227",
publisher = "American Geophysical Union",
number = "11",

}

RIS

TY - JOUR

T1 - Iron Mobility During Diagenesis at Vera Rubin Ridge, Gale Crater, Mars

AU - L'Haridon, J.

AU - Mangold, N.

AU - Fraeman, A. A.

AU - Johnson, J. R.

AU - Cousin, A.

AU - Rapin, W.

AU - David, G.

AU - Dehouck, E.

AU - Sun, V.

AU - Frydenvang, J.

AU - Gasnault, O.

AU - Gasda, P.

AU - Lanza, N.

AU - Forni, O.

AU - Meslin, P. Y.

AU - Schwenzer, S. P.

AU - Bridges, J.

AU - Horgan, B.

AU - House, C. H.

AU - Salvatore, M.

AU - Maurice, S.

AU - Wiens, R. C.

PY - 2020

Y1 - 2020

N2 - The Curiosity rover investigated a topographic structure known as Vera Rubin ridge, associated with a hematite signature in orbital spectra. There, Curiosity encountered mudstones interpreted as lacustrine deposits, conformably overlying the 300 m-thick underlying sedimentary rocks of the Murray formation at the base of Mount Sharp. While the presence of hematite (α-Fe2O3) was confirmed in situ by both Mastcam and ChemCam spectral observations and by the CheMin instrument, neither ChemCam nor APXS observed any significant increase in FeOT (total iron oxide) abundances compared to the rest of the Murray formation. Instead, Curiosity discovered dark-toned diagenetic features displaying anomalously high FeOT abundances, commonly observed in association with light-toned Ca-sulfate veins but also as crystal pseudomorphs in the host rock. These iron-rich diagenetic features are predominantly observed in “gray” outcrops on the upper part of the ridge, which lack the telltale ferric signature of other Vera Rubin ridge outcrops. Their composition is consistent with anhydrous Fe-oxide, as the enrichment in iron is not associated with enrichment in any other elements, nor with detections of volatiles. The lack of ferric absorption features in the ChemCam reflectance spectra and the hexagonal crystalline structure associated with dark-toned crystals points toward coarse “gray” hematite. In addition, the host rock adjacent to these features appears bleached and shows low-FeOT content as well as depletion in Mn, indicating mobilization of these redox-sensitive elements during diagenesis. Thus, groundwater fluid circulations could account for the remobilization of iron and recrystallization as crystalline hematite during diagenesis on Vera Rubin ridge.

AB - The Curiosity rover investigated a topographic structure known as Vera Rubin ridge, associated with a hematite signature in orbital spectra. There, Curiosity encountered mudstones interpreted as lacustrine deposits, conformably overlying the 300 m-thick underlying sedimentary rocks of the Murray formation at the base of Mount Sharp. While the presence of hematite (α-Fe2O3) was confirmed in situ by both Mastcam and ChemCam spectral observations and by the CheMin instrument, neither ChemCam nor APXS observed any significant increase in FeOT (total iron oxide) abundances compared to the rest of the Murray formation. Instead, Curiosity discovered dark-toned diagenetic features displaying anomalously high FeOT abundances, commonly observed in association with light-toned Ca-sulfate veins but also as crystal pseudomorphs in the host rock. These iron-rich diagenetic features are predominantly observed in “gray” outcrops on the upper part of the ridge, which lack the telltale ferric signature of other Vera Rubin ridge outcrops. Their composition is consistent with anhydrous Fe-oxide, as the enrichment in iron is not associated with enrichment in any other elements, nor with detections of volatiles. The lack of ferric absorption features in the ChemCam reflectance spectra and the hexagonal crystalline structure associated with dark-toned crystals points toward coarse “gray” hematite. In addition, the host rock adjacent to these features appears bleached and shows low-FeOT content as well as depletion in Mn, indicating mobilization of these redox-sensitive elements during diagenesis. Thus, groundwater fluid circulations could account for the remobilization of iron and recrystallization as crystalline hematite during diagenesis on Vera Rubin ridge.

KW - ChemCam

KW - diagenesis

KW - iron mobility

KW - redox processes

U2 - 10.1029/2019JE006299

DO - 10.1029/2019JE006299

M3 - Journal article

AN - SCOPUS:85091674523

VL - 125

JO - Journal of Geophysical Research: Solid Earth

JF - Journal of Geophysical Research: Solid Earth

SN - 0148-0227

IS - 11

M1 - e2019JE006299

ER -

ID: 252405965