2017
DOI: 10.2465/jmps.161219
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Precipitates within olivine phenocrysts in oxidized andesitic scoria from Kasayama volcano, Hagi, Japan

Abstract: Mineral precipitates within olivine grains are a sensitive recorder of the oxidation conditions of scoria. The crystallization process of precipitates within olivine phenocrysts in andesitic scoria from Kasayama volcano, Hagi, Yamaguchi Prefecture, Japan was investigated. Electron microprobe analysis and Raman spectroscopy were used for mineral identification and electron back-scattered diffraction to determine the crystallographic orientation of the precipitate minerals and host olivine phenocrysts. The scori… Show more

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Cited by 5 publications
(3 citation statements)
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“…Two thin sections from sites MU012 and OA030 have numerous olivine grains which exhibit an unusual texture, as displayed in Figures 7e–7h. This texture has been observed previously (Blondes et al., 2012; Ejima et al., 2017) and is interpreted as being caused by oxidation of olivine at temperatures above 800°C, which causes breakdown into an iron oxide (magnetite or hematite depending on formation conditions) and enstatite (see Figure 7h and figure caption). The temperature of the oxidation means that the samples were oxidized prior to gaining a magnetization, which means the NRM is a primary TRM acquired during cooling.…”
Section: Discussionsupporting
confidence: 79%
“…Two thin sections from sites MU012 and OA030 have numerous olivine grains which exhibit an unusual texture, as displayed in Figures 7e–7h. This texture has been observed previously (Blondes et al., 2012; Ejima et al., 2017) and is interpreted as being caused by oxidation of olivine at temperatures above 800°C, which causes breakdown into an iron oxide (magnetite or hematite depending on formation conditions) and enstatite (see Figure 7h and figure caption). The temperature of the oxidation means that the samples were oxidized prior to gaining a magnetization, which means the NRM is a primary TRM acquired during cooling.…”
Section: Discussionsupporting
confidence: 79%
“…7e-h. This texture has been observed previously (38,39) and is interpreted as being caused by oxidation of olivine at temperatures above 800 • C, which causes breakdown into an iron oxide (magnetite or hematite depending on formation conditions) and enstatite (see Fig. 7h and figure caption).…”
Section: B Sample Characterizationsupporting
confidence: 71%
“…previously (Ejima et al, 2017;Blondes et al, 2012) and is interpreted as being caused by oxidation of olivine at temperatures above 800 • C, which causes breakdown into an iron oxide (magnetite or hematite depending on formation conditions) and enstatite (see Figure 7h and figure caption). The temperature of the oxidation means that the samples were oxidized prior to gaining a magnetization, which means the NRM is a primary TRM acquired during cooling.…”
Section: Sample Characterizationmentioning
confidence: 99%