2020
DOI: 10.1016/j.gca.2020.05.015
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Melt chemistry and redox conditions control titanium isotope fractionation during magmatic differentiation

Abstract: Titanium offers a burgeoning isotope system that has shown significant promise as a tracer of magmatic processes. Recent studies have shown that Ti displays significant massdependent variations linked to the crystallisation of Fe-Ti oxides during magma differentiation.We present a comprehensive set of Ti isotope data for a range of differentiation suites from alkaline (Ascension Island, Afar and Heard Island), calc-alkaline (Santorini) and tholeiitic (Monowai seamount and Alarcon Rise) magma series to further … Show more

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Cited by 53 publications
(91 citation statements)
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“…We assume a Ti isotopic fractionation of +0.344‰ between melt and residue, which is the fractionation factor between residue (E-MORB) and felsic melt (TTGs) ( 49 ). This Ti isotope fractionation factor between melt and solid residue is also consistent with that estimated using the method of ( 32 ), which is based on the correlation between FeO/TiO 2 and SiO 2 concentrations (i.e., ~0.32‰ at 1000°C and ~0.42‰ at 800°C). For low-degree partial melting, the calculated Ti isotopic fractionation is, at most, +0.34‰ (at negligible melt fraction), which is significantly lower than the δ 49 Ti values of +0.54 to +0.95‰ observed in the ITG samples.…”
Section: Discussionsupporting
confidence: 87%
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“…We assume a Ti isotopic fractionation of +0.344‰ between melt and residue, which is the fractionation factor between residue (E-MORB) and felsic melt (TTGs) ( 49 ). This Ti isotope fractionation factor between melt and solid residue is also consistent with that estimated using the method of ( 32 ), which is based on the correlation between FeO/TiO 2 and SiO 2 concentrations (i.e., ~0.32‰ at 1000°C and ~0.42‰ at 800°C). For low-degree partial melting, the calculated Ti isotopic fractionation is, at most, +0.34‰ (at negligible melt fraction), which is significantly lower than the δ 49 Ti values of +0.54 to +0.95‰ observed in the ITG samples.…”
Section: Discussionsupporting
confidence: 87%
“…The δ 49 Ti compositions of rocks shown in (B) are from calc-alkaline (blue circles), intraplate tholeiitic (red circles), and modern MORB tholeiitic (gray circles) settings. The rock samples are Kos in the Aegean Arc ( 36 ), Agung volcano in the Sunda Arc ( 29 ), Santorini ( 32 ), Paleozoic granitoids ( 36 ), Archean TTGs ( 36 ), I- and S-type granitoids ( 36 ), Hekla/Afar ( 30 ), Kīlauea Iki lava lake ( 31 ), Ko’olau ( 38 ), komatiites ( 49 , 51 ), Monowai ( 32 ), and MORB tholeiitic rocks from Alarcon Rise (gray circles). A-type granitoids (this study, white triangles; see table S1) from Lachlan Fold Belt in Australia and from Hailar basin ( 38 ) are shown.…”
Section: Resultsmentioning
confidence: 99%
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