2008
DOI: 10.2138/am.2008.2558
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Maskelynite-hosted apatite in the Chassigny meteorite: Insights into late-stage magmatic volatile evolution in martian magmas

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Cited by 90 publications
(106 citation statements)
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References 49 publications
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“…The same relationship occurs in the evolution of Martian magma [8]. In hot Cl-rich fluids that are equilibrated with the residual melt, Cl is more strongly partitioned into the melt (after F is exhausted), which involves the loss of water to the fluid phase [8,15,64]. In NWA 2975, the residual melt was degassed before F was depleted.…”
Section: Discussionmentioning
confidence: 79%
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“…The same relationship occurs in the evolution of Martian magma [8]. In hot Cl-rich fluids that are equilibrated with the residual melt, Cl is more strongly partitioned into the melt (after F is exhausted), which involves the loss of water to the fluid phase [8,15,64]. In NWA 2975, the residual melt was degassed before F was depleted.…”
Section: Discussionmentioning
confidence: 79%
“…This type of apatite was previously considered rare among the studied Martian apatites, which were mostly recognized as chlorapatites with an average Cl-F-OH molar ratio of 5:3:2 [28]. However, McCubbin and Nekvasil [8] reported two generations of apatite, and one of them i.e., F-rich apatite, was considered a product of late magmatic differentiation. The second one, the Cl-F-rich apatite, was attributed to crystallization from an exsolved Cl-H 2 O-rich fluid phase.…”
Section: Discussionmentioning
confidence: 97%
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“…Apatites in the NWA 2977 meteorite do not show evidence for having been affected by postcrystallization reequilibration; however, some of the plagioclase appears to have been transformed to maskelynite, indicating peak shock pressures between 25 and 30 GPa (59). As a comparison, many martian meteorites also have maskelynite, and the apatites within these samples are stoichiometric (i.e., F þ Cl þ OH ¼ 1), indicating that shock has not played much of a role in changing apatite chemistry in these samples (60)(61)(62). Therefore, impact-induced shock will likely have minimal affects on the volatile contents of the lunar apatites in this sample.…”
Section: Resultsmentioning
confidence: 99%
“…Occasionally, other types of natural CaPO 4 are found as minerals, for example clinohydroxylapatite (Chakhmouradian and Medici 2006), staffelite (synonyms: staffelit, staffelita) belonging to carbonate-rich fluorapatites (chemical formula: Ca 5 [(F,O)(PO 4 ,CO 3 ) 3 ]) (Mason et al 2009; http:// www.mindat.org/gallery.php?min=9293) and DCPD (Klein 1901;Kaflak-Hachulska et al 2000). Furthermore, CaPO 4 were found in meteoric stones (Merrill 1917;McCubbin and Nekvasil 2008;McCubbin et al 2014). The world deposits of natural CaPO 4 are estimated to exceed 150 billion tons; from which approximately 85 % belong to phosphorites and the remaining *15 % belong to apatites (Cook et al 2005).…”
Section: Geological and Biological Occurrencesmentioning
confidence: 99%