2007
DOI: 10.1111/j.1945-5100.2007.tb01142.x
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Experimental shock decomposition of siderite and the origin of magnetite in Martian meteorite ALH 84001

Abstract: Abstract-Shock recovery experiments to determine whether magnetite could be produced by the decomposition of iron-carbonate were initiated. Naturally occurring siderite was first characterized by a variety of techniques to be sure that the starting material did not contain detectable magnetite. Samples were shocked in tungsten-alloy holders (W = 90%, Ni = 6%, Cu = 4%) to further ensure that any iron phases in the shock products were contributed by the siderite rather than the sample holder. Each sample was sho… Show more

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Cited by 45 publications
(36 citation statements)
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“…Though it could be argued that re-equilibration, by solid state cation diffusion, of Mg between magnetite product and unreacted carbonate could have lead to the thermal stabilization of the residual carbonate by increasing its Mg mole fraction, such cation diffusion at 623 K would not have been sufficiently facile to allow such a process (as discussed earlier). Fortunately, the issue of the compositional homogeneity of Copper Lake siderite was reported previously by Bell (2007), who is affiliated with the same research group as Golden et al (2006) and so presumably used the same parent siderite sample. 20 Fig.…”
Section: Fractionmentioning
confidence: 95%
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“…Though it could be argued that re-equilibration, by solid state cation diffusion, of Mg between magnetite product and unreacted carbonate could have lead to the thermal stabilization of the residual carbonate by increasing its Mg mole fraction, such cation diffusion at 623 K would not have been sufficiently facile to allow such a process (as discussed earlier). Fortunately, the issue of the compositional homogeneity of Copper Lake siderite was reported previously by Bell (2007), who is affiliated with the same research group as Golden et al (2006) and so presumably used the same parent siderite sample. 20 Fig.…”
Section: Fractionmentioning
confidence: 95%
“…Consequently, this should not divert our attention from understanding the origin of the remaining majority of magnetites that would appear to have been derived from a detrital or allochthonous Bell (2007). The image on the left is a Hue-Saturation-Intensity (HSI) element ratio map for Fe:Mg (see Bensen and Lechene (2005)).…”
Section: Implications and Origins Of Alh84001 Magnetitesmentioning
confidence: 99%
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“…Siderite is an iron-bearing carbonate common to many diverse sedimentary settings, particularly in marine and lacustrine environments. Substitution of Fe +2 by other metallic ions is common in siderite and the mineral is rarely found as pure FeCO 3 (Bel 2007 …”
Section: Siderite Fecomentioning
confidence: 99%