Experimental determination of carbon isotope fractionation between iron carbide melt and carbon: ¹²C-enriched carbon in the Earth's core?
2011
Satish-Kumar, Madhusoodhan | So, Hayato | Yoshino, T. (Takashi) | Katō, Mutsumi | Hiroi, Yoshikuni
We report here new experimental data on equilibrium carbon isotope fractionation between graphite/diamond and iron carbide melt at 5 and 10GPa and in the temperature range between 1200 and 2000°C. Carbon isotope equilibrium was tested using morphological features of graphite and also by performing a longer duration experiment, both of which suggested that equilibrium carbon isotope fractionation is present. The results suggest that iron carbide melt will preferentially accumulate ¹²C rather than ¹³C. An equilibrium temperature dependent fractionation between iron carbide melt and graphite/diamond is proposed based on the relation Our results are consistent with the carbon isotope distribution between graphite and cohenite (Fe₃C) observed in iron meteorites. We propose that temperature-dependent fractionation of carbon isotopes between iron carbide melt and graphite/diamond might have created a “¹²C-enriched core” with a significant difference in the distribution of carbon isotopes between the carbon in the metallic core and bulk silicate Earth during the accretion and differentiation of early Earth. Recent findings of low δ¹³C carbonados and diamonds of deep mantle origin supports the presence of a ¹²C enriched source. The possible presence of a reservoir of¹²C-enriched carbon in the Earth's core implies that it can generate large perturbations in the surface and shallow carbon-isotope system by the flux of lighter carbon from the core–mantle boundary.
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