Partitioning of Fe2O3 in peridotite partial melting experiments over a range of oxygen fugacities elucidates ferric iron systematics in mid-ocean ridge basalts and ferric iron content of the upper mantle

Davis, Fred A.; Cottrell, Elizabeth

doi:10.1007/s00410-021-01823-3

Cited by 24 publications

(35 citation statements)

References 66 publications

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“…Pyroxenitic garnets contain subequal Fe and Mg components and only become almandine-rich during crystallization at low temperatures. Our measurements and the literature data show that the compatibility of Fe 2+ is greater than that of Fe 3+ in garnet [and is likely greater in cpx ( 25 , 26 )], but the partition coefficients for both species in each phase are of similar magnitudes at the conditions relevant for cumulate fractionation in primitive arc magmas. Consequently, the crystallization of garnet pyroxenites, modeled using our measured partition coefficients, will only increase the Fe 3+ /∑Fe ratio of the magma by 0.04, corresponding to a 0.8 logarithmic unit increase in the f O 2 of the residual melt after 65% fractional crystallization (Fig.…”

Section: Deep Arc Magma Chamberssupporting

confidence: 53%

“…Both ferrous and ferric iron are compatible in garnet at these conditions, but the difference between their partition coefficients is minimal (D Fe2+grt/melt=2.1; D Fe3+grt/melt=1.4; this study). We applied D Fe3+cpx/melt between 0.3 and 0.8 ( 25 , 26 ), represented by the width of the red-orange envelope around the modeled value (solid line) of D Fe3+cpx/melt=0.6 in Fig. 3.…”

Section: Deep Arc Magma Chambersmentioning

confidence: 99%

“…Coefficients for the partitioning of ferric iron between garnet and melt and our K D grt Fe/Mg values were recalculated at each crystallization step. We assumed clinopyroxene-melt partition coefficients to be insensitive to changing pressure and temperature, and K D cpx Fe/Mg was set at 0.25 ( 25 , 26 ). Additional assumptions, parameters, and other details can be found in ( 23 ).…”

Section: Deep Arc Magma Chambersmentioning

confidence: 99%

“…Fe/Mg was set at 0.25 (25,26). Additional assumptions, parameters, and other details can be found in (23).…”

Section: Deep Arc Magma Chambersmentioning

confidence: 99%

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Garnet crystallization does not drive oxidation at arcs

Holycross

Cottrell

2023

Science

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Arc magmas, the building blocks of continental crust, are depleted in total iron (Fe), have higher ratios of oxidized Fe to total Fe (Fe 3+ /∑Fe), and record higher oxygen fugacities ( f O 2 ’s) compared with magmas erupted at mid-ocean ridges. Garnet crystallization could explain these observations if garnet removes substantial amounts of Fe 2+ , but not Fe 3+ , from magma, yet this model for continental crust generation has never been tested experimentally. Analysis of garnets and melts in laboratory experiments show that the compatibilities of Fe 2+ and Fe 3+ in garnet are of similar magnitudes. Our results indicate that fractional crystallization of garnet-bearing cumulates will remove 20% of total Fe from primary arc basalts but negligibly alter the Fe 3+ /∑Fe ratio and f O 2 of the melt. Garnet crystallization is unlikely to be responsible for the relatively oxidized nature of basaltic arc magmas or the Fe-depletion trend observed in continental crust.

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Section: Deep Arc Magma Chamberssupporting

confidence: 53%

Section: Deep Arc Magma Chambersmentioning

confidence: 99%

Section: Deep Arc Magma Chambersmentioning

confidence: 99%

“…Fe/Mg was set at 0.25 (25,26). Additional assumptions, parameters, and other details can be found in (23).…”

Section: Deep Arc Magma Chambersmentioning

confidence: 99%

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Garnet crystallization does not drive oxidation at arcs

Holycross

Cottrell

2023

Science

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“…Gaetani (2016) showed that (Fe 3+ /ΣFe) spin decreases with increasing temperature and pressure although there is some uncertainty about the role of f O 2 (Sorbadere et al, 2018). Of significance however, is the observation by Davis and Cottrell (2021) Lenaz et al (2007Lenaz et al ( , 2014, Rollinson et al (2017) and Perinelli et al (2012Perinelli et al ( , 2014.…”

Section: The High-fe Groupmentioning

confidence: 99%

Ferric iron in chrome-bearing spinels: implications for microprobe correction procedures

Rollinson,

Adetunji

2023

MinMag

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We investigated the compositions of a suite of 361 chrome-bearing spinels from spinel peridotites, ophiolitic mantle chromitites and from layered igneous intrusions in which the Fe2+/Fe3+ ratio has been determined by Mössbauer spectroscopy. We explore the crystal-chemical controls on the distribution of Fe3+ and on mineral stoichiometry with regard to electron-probe correction procedures for estimating Fe3+ in spinel. We find that chrome-bearing spinels can be subdivided into three groups: a Cr–Al-rich group; a high-Fe group; and a highly oxidised group. Spinels of the Cr–Al group are found in spinel peridotites and ophiolitic mantle chromitites. They are normal spinels with a low Fe3+ content and compositions that are close to stoichiometric. Spinels in the high-Fe group are found in layered igneous intrusions. They are also normal spinels which have higher concentrations of Fe3+ on the octahedrally coordinated site than is found for the Cr–Al group. Stoichiometric calculations tend to overestimate the Fe3+ content and their compositions do not conform to the MgO–cr# correlation found in the Cr–Al group. Spinels in the highly oxidised group are found in layered intrusions and ophiolitic mantle chromitites. They have (Fe3+/ΣFe)Möss > 0.4 and high Cr (cr# > 0.5), but relatively low Fe2+ (fe# 0.24–0.56). Stoichiometric calculations tend to underestimate the Fe3+ content. They represent normal spinels in which tetrahedrally coordinated Fe2+ has been oxidised to Fe3+. Our data show that spinels with greater Cr and Fe are sufficiently different in their crystal chemistry from the aluminous spinels to indicate that the EPMA correction procedures developed for Fe3+ in aluminous spinels on the basis of the Cr/Al ratio, and used in oxy-thermobarometry, are inappropriate for Cr-rich and Fe-rich compositions.

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Experimental quantification of vanadium partitioning between eclogitic minerals (garnet, clinopyroxene, rutile) and silicate melt as a function of temperature and oxygen fugacity

Holycross

Cottrell

2022

Contrib Mineral Petrol

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Partitioning of Fe2O3 in peridotite partial melting experiments over a range of oxygen fugacities elucidates ferric iron systematics in mid-ocean ridge basalts and ferric iron content of the upper mantle

Cited by 24 publications

References 66 publications

Garnet crystallization does not drive oxidation at arcs

Garnet crystallization does not drive oxidation at arcs

Ferric iron in chrome-bearing spinels: implications for microprobe correction procedures

Experimental quantification of vanadium partitioning between eclogitic minerals (garnet, clinopyroxene, rutile) and silicate melt as a function of temperature and oxygen fugacity

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