期刊
EARTH AND PLANETARY SCIENCE LETTERS
卷 394, 期 -, 页码 82-93出版社
ELSEVIER SCIENCE BV
DOI: 10.1016/j.epsl.2014.03.022
关键词
Mg isotope; brucite; weathering; Mg(OH)(2); fractionation; EDTA
资金
- NASA Astrobiology Institute
- Department of Energy
Brucite, with its octahedral structure, has a lattice configuration that is similar to the Mg-bearing octahedral layers in phyllosilicates. Understanding stable Mg isotope fractionation between brucite and aqueous solution therefore bears on interpretation of Mg isotope data in natural weathering systems. In this study, we experimentally determined Mg isotope fractionation between brucite and two Mg aqueous species, the free Mg aquo ion ([Mg(OH2)(6)](2+)) and EDTA-bonded Mg (Mg-EDTA(2-)). Results from recrystallization and brucite synthesis experiments suggest mild preferential partitioning of light Mg isotopes into brucite compared to Mg aquo ions at low temperatures, where measured Delta Mg-26(brucite-Mg2+) fractionation increased from ca. -0.3 parts per thousand at 7 degrees C, to ca. -0.2 parts per thousand at 22 degrees C, to ca. 0 parts per thousand at 40 degrees C. MgO hydrolysis experiments in EDTA-bearing solutions suggest that the Delta Mg-26(brucite-Mg-EDTA) fractionation is >= + 2.0 parts per thousand at 22 degrees C, indicating that light Mg isotopes strongly partition into Mg-EDTA complex relative to brucite, as well as relative to Mg aquo ions. Magnesium atoms in brucite, Mg aquo ions, and Mg-EDTA complexes are all octahedrally coordinated, and the measured Mg isotope fractionations correlate with average bond lengths for Mg. Aqueous Mg ions have the shortest bond length among the three phases, and enrich heavy Mg isotopes relative to brucite and Mg-EDTA. In contrast, Mg-EDTA has the longest average bond length for Mg, and enriches light Mg isotopes relative to Mg aquo ions and brucite; the relatively long Mg-EDTA bond suggests that organically bound Mg may commonly have low Mg-26/Mg-24 ratios, which may explain proposed vital effects for stable Mg isotopes. Such relations between bond length and Mg isotope fractionation could be extended to other phyllosilicates such as serpentine- and clay-group minerals where Mg is also octahedrally coordinated. (C) 2014 Elsevier B.V. All rights reserved.
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