Результаты исследований: Научные публикации в периодических изданиях › статья › Рецензирование
Carbon isotope fractionation during high pressure and high temperature crystallization of Fe-C melt. / Reutsky, V. N.; Borzdov, Yu M.; Palyanov, Yu N.
в: Chemical Geology, Том 406, 06.06.2015, стр. 18-24.Результаты исследований: Научные публикации в периодических изданиях › статья › Рецензирование
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TY - JOUR
T1 - Carbon isotope fractionation during high pressure and high temperature crystallization of Fe-C melt
AU - Reutsky, V. N.
AU - Borzdov, Yu M.
AU - Palyanov, Yu N.
PY - 2015/6/6
Y1 - 2015/6/6
N2 - There is a growing body of experimental evidence that iron carbides can play an important role in the mantle both as a host of carbon and as a redox couple (Fe-C) determining the nature of reduced phases. If carbides are significant in the mantle, it could be of interest to know if any carbon isotope fractionation accompanies carbide crystallization. A series of high-pressure and high-temperature experiments were performed on carbide crystallization from a Fe-C melt. An offset of 2‰ was observed between the δ13C values of Fe3C and Fe-C melt at 6.3GPa and 1400°C. The carbon isotopic compositions of Fe3C and diamond crystallizing from a single carbon source near the peritectic region at 6.3GPa differ by 2.5‰. Fe7C3 was detected as a quench phase during Fe-C melt quenching. Our results have important implications for understanding carbon isotope distributions in iron meteorites and indicate that iron carbide crystallization may be a significant mechanism for carbon isotope heterogeneity in the Earth's mantle.
AB - There is a growing body of experimental evidence that iron carbides can play an important role in the mantle both as a host of carbon and as a redox couple (Fe-C) determining the nature of reduced phases. If carbides are significant in the mantle, it could be of interest to know if any carbon isotope fractionation accompanies carbide crystallization. A series of high-pressure and high-temperature experiments were performed on carbide crystallization from a Fe-C melt. An offset of 2‰ was observed between the δ13C values of Fe3C and Fe-C melt at 6.3GPa and 1400°C. The carbon isotopic compositions of Fe3C and diamond crystallizing from a single carbon source near the peritectic region at 6.3GPa differ by 2.5‰. Fe7C3 was detected as a quench phase during Fe-C melt quenching. Our results have important implications for understanding carbon isotope distributions in iron meteorites and indicate that iron carbide crystallization may be a significant mechanism for carbon isotope heterogeneity in the Earth's mantle.
KW - Carbon isotope fractionation
KW - Crystallization
KW - Diamond
KW - Fe-C melt
KW - HPHT experiment
KW - Iron carbide
UR - http://www.scopus.com/inward/record.url?scp=84928997001&partnerID=8YFLogxK
U2 - 10.1016/j.chemgeo.2015.04.015
DO - 10.1016/j.chemgeo.2015.04.015
M3 - Article
AN - SCOPUS:84928997001
VL - 406
SP - 18
EP - 24
JO - Chemical Geology
JF - Chemical Geology
SN - 0009-2541
ER -
ID: 25727622