2009
DOI: 10.1126/science.1174156
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Water and the Oxidation State of Subduction Zone Magmas

Abstract: Mantle oxygen fugacity exerts a primary control on mass exchange between Earth's surface and interior at subduction zones, but the major factors controlling mantle oxygen fugacity (such as volatiles and phase assemblages) and how tectonic cycles drive its secular evolution are still debated. We present integrated measurements of redox-sensitive ratios of oxidized iron to total iron (Fe 3+ /SFe), determined with Fe K-edge micro-x-ray absorption near-edge structure spectroscopy, and pre-eruptive magmatic H 2 O c… Show more

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Cited by 719 publications
(406 citation statements)
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“…These differences should be reflected in how volatiles are dissolved in magmas, but carbon speciation experiments for basaltic systems are limited, particularly at low fO 2 . The developing evidence for volatiles in magmas erupted on the Moon (6, 7) as well as on Earth (3,8), Mars (9)(10)(11)(12), and Mercury (13) is a strong incentive to improve our understanding of C-O-H speciation and solubility in planetary basaltic magmas.…”
mentioning
confidence: 99%
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“…These differences should be reflected in how volatiles are dissolved in magmas, but carbon speciation experiments for basaltic systems are limited, particularly at low fO 2 . The developing evidence for volatiles in magmas erupted on the Moon (6, 7) as well as on Earth (3,8), Mars (9)(10)(11)(12), and Mercury (13) is a strong incentive to improve our understanding of C-O-H speciation and solubility in planetary basaltic magmas.…”
mentioning
confidence: 99%
“…hydrogen | iron carbonyl | magmatic volatiles | experimental petrology M agmas formed through igneous processes on parent bodies in the early solar system span 12 log units in oxidation state, from 6.3 log units of oxygen fugacity (fO 2 ) below the iron wustite oxygen buffer (IW) to 6 log units above the IW (IW−6.3 to IW+6) (1)(2)(3)(4). Over the wide range of basalt fO 2 observed in these planetary bodies, thermodynamic data for the C-O-H gas system indicate that there are significant changes in gas phase speciation (5).…”
mentioning
confidence: 99%
“…Planetary-scale geodynamics is often cited as a mechanism for bringing oxidized material into the deep, reduced mantle, and water is thought to be responsible for oxidation 7 . This concept is deeply entrenched among geologists, although the details of the redox mechanisms involved remain unknown.…”
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confidence: 99%
“…This is true of the Fe 31 / P Fe ratios and also of the calculated magmatic fO 2 values, the latter of which takes into consideration the effects of pressure, temperature, and anhydrous major element chemistry on the relationship between the oxidation state of Fe of fO 2 (Figure 6e). Surprisingly, Fina Nagu glasses do not follow the relationship between increasing Ba/La and Fe 31 / P Fe ratios that is defined by >150 submarine glass chips and olivine hosted melt inclusions from Mariana arc volcanoes, the Mariana Trough, and global MORB, including submarine glass chips that record the initiation of subduction along the Izu-Bonin-Mariana convergent margin (Figures 6b and 6e) [Brounce et al, 2014[Brounce et al, , 2015Cottrell and Kelley, 2011;Kelley and Cottrell, 2009].…”
Section: Geochemical Constraintsmentioning
confidence: 99%