PRESSURE EFFECT ON MN, CO AND NI PARTITIONING BETWEEN IRON HYDRIDE AND MANTLE MINERALS

被引:0
|
作者
SUZUKI, T [1 ]
AKAOGI, M [1 ]
YAGI, T [1 ]
机构
[1] UNIV TOKYO, INST SOLID STATE PHYS, MINATO KU, TOKYO 106, JAPAN
来源
PROCEEDINGS OF THE JAPAN ACADEMY SERIES B-PHYSICAL AND BIOLOGICAL SCIENCES | 1994年 / 70卷 / 03期
关键词
HIGH PRESSURE; ELEMENTAL PARTITION; EARTHS CORE;
D O I
暂无
中图分类号
O [数理科学和化学]; P [天文学、地球科学]; Q [生物科学]; N [自然科学总论];
学科分类号
07 ; 0710 ; 09 ;
摘要
Partitioning behaviors of Mn, Co and Ni between iron hydride and mantle minerals (olivine, pyroxene and magnesiowustite) under high pressure were experimentally investigated at 1400 degrees C and 3 similar to 11 GPa. The present experimental results showed that the siderophile nature of Co and Ni, and the lithophile nature of Mn decrease under high pressures: all the observed metal/mineral partition coefficients, K'=(X(i)/X(Fe))metal/(X(i)/X(Fe))(mineral), i=Mn, Co and Ni, approach 1 with increase in pressure. K' also depends on the composition of the mineral phase: K' decreases with an increase in MgO mol fraction. From these experimental results, it is expected that the observed upper mantle elemental abundance may be explained by the equilibrium between metal and silicates under extremely high pressure.
引用
收藏
页码:31 / 36
页数:6
相关论文
共 50 条
  • [21] PARTITIONING OF IRON AND MAGNESIUM BETWEEN CRYSTALS AND PARTIAL MELTS IN PERIDOTITE UPPER MANTLE
    MYSEN, B
    [J]. CONTRIBUTIONS TO MINERALOGY AND PETROLOGY, 1975, 52 (02) : 69 - 76
  • [22] Effect of Si on the partitioning of Mn between cementite and ferrite
    Tu, Yiyou
    Huang, Linghui
    Zhang, Qi
    Zhou, Xuefeng
    Jiang, Jianqing
    [J]. MATERIALS SCIENCE AND TECHNOLOGY, 2018, 34 (07) : 780 - 785
  • [23] The effect of Ni on element partitioning during iron meteorite crystallization
    Chabot, Nancy L.
    Saslow, Sarah A.
    McDonough, William F.
    McCoy, Timothy J.
    [J]. METEORITICS & PLANETARY SCIENCE, 2007, 42 (10) : 1735 - 1750
  • [24] The effect of Ni on element partitioning during iron meteorite crystallization
    Chabot, N. L.
    Saslow, S. A.
    McDonough, W. F.
    McCoy, T. J.
    [J]. METEORITICS & PLANETARY SCIENCE, 2007, 42 : A28 - A28
  • [25] Al partitioning between phase D and bridgmanite at the uppermost lower mantle pressure
    Chaowen Xu
    Sho Kakizawa
    Steeve Gréaux
    Toru Inoue
    Ying Li
    Jing Gao
    [J]. Physics and Chemistry of Minerals, 2021, 48
  • [26] Al partitioning between phase D and bridgmanite at the uppermost lower mantle pressure
    Xu, Chaowen
    Kakizawa, Sho
    Greaux, Steeve
    Inoue, Toru
    Li, Ying
    Gao, Jing
    [J]. PHYSICS AND CHEMISTRY OF MINERALS, 2021, 48 (10)
  • [27] Pressure effect on element partitioning between minerals and silicate melt: Melting experiments on basalt up to 20 GPa
    Suzuki, Toshihiro
    Hirata, Takafumi
    Yokoyama, Takaomi D.
    Imai, Takamasa
    Takahashi, Eiichi
    [J]. PHYSICS OF THE EARTH AND PLANETARY INTERIORS, 2012, 208 : 59 - 73
  • [28] Partitioning of trace elements between carbonate-silicate melts and mantle minerals: Experiment and petrological consequences
    Girnis, A. V.
    Bulatov, V. K.
    Lahaye, Y.
    Brey, G. P.
    [J]. PETROLOGY, 2006, 14 (05) : 492 - 514
  • [29] Partitioning of halogens between mantle minerals and aqueous fluids: implications for the fluid flow regime in subduction zones
    Diego Bernini
    Michael Wiedenbeck
    David Dolejš
    Hans Keppler
    [J]. Contributions to Mineralogy and Petrology, 2013, 165 : 117 - 128
  • [30] Partitioning of halogens between mantle minerals and aqueous fluids: implications for the fluid flow regime in subduction zones
    Bernini, Diego
    Wiedenbeck, Michael
    Dolejs, David
    Keppler, Hans
    [J]. CONTRIBUTIONS TO MINERALOGY AND PETROLOGY, 2013, 165 (01) : 117 - 128
12345